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Nutraceutical Value of Woad (Isatis tinctoria) Flower Buds of Ecotypes from Sicily, Italy
Abstract
Woad (Isatis tinctoria L.) is a wild plant widely diffused throughout Europe,
Italy included. In ancient times it was exploited as a dye-plant, to obtain the indigo
colour. Recently woad was rediscovered also for its cosmetic and anti-inflammatory
properties. Belonging to Brassicaceae family, woad contains glucosinolates, which are
precursor of isothiocyanates, which possess chemopreventive antioxidant properties.
Although woad is not considered as an edible vegetable worldwide, rural people living
around Mount Etna in Sicily, Italy, are accustomed to collect the flower buds from
wild plants in the late winter, to be consumed after boiling as ingredients for salads or
omelets. To investigate the nutraceutical value of woad, fresh flower buds were
collected on Mount Etna slopes in Sicily over two years and analysed for their bioactive
compound content. Woad samples contained considerable amounts of glucosinolates,
ranging from 80 up to over 100 μmol/g d.w., which are values higher than those
found in other Brassica vegetables. Only gluconapin and the most interesting glucobrassicin,
which is the natural precursor of indole-3-carbinol, a multiple antitumorigenic
compound, were found. High mean values were also recorded for total
polyphenols and flavonoids (25 GAE mg/g d.w. and 7 CE mg/g d.w., respectively).
Consequently, also the antioxidant activity (H-ORAC) of the woad flower buds
resulted among the highest reported for other Brassica vegetables, being about 300
μmol TE/g d.w. Since processing can partly reduce the glucosinolate content of
vegetables, different cooking ways, such as boiling and microwaving, were compared.
Boiling for 10 min caused losses of 34% of total glucosinolates, while microwaving (10
min, 800 W) only reduced the glucosinolate amount by 3%. The results obtained
suggest that woad flower buds could be considered as a functional food with possible
chemopreventive properties.
... canescens are traditionally utilized as a vegetable in the Mt. Etna area, where they are appreciated after they have been cooked to reduce the bitter taste (Galletti et al., 2013(Galletti et al., , 2015. The inflorescences in the pre-anthesis phase are considered beneficial for their health effects because they represent a good source of antioxidants, especially glucosinolate for the high glucobrassicin content. ...
... The inflorescences in the pre-anthesis phase are considered beneficial for their health effects because they represent a good source of antioxidants, especially glucosinolate for the high glucobrassicin content. Their availability for a restricted period of the year has resulted in the suggestion to dry them or use them to produce a dried standardized extract as a potential dietary supplement (Galletti et al., 2013(Galletti et al., , 2015. I. tinctoria is also considered a medicinal species and has been used in traditional Chinese medicines for hundreds of years (Liau et al., 2007). ...
... Nowadays, I. tinctoria is widely used for medicinal purposes in traditional Chinese medicine [20,23,24], and since 2011, it has been recognised as a pharmacopoeia plant in Europe [25]. Although this species is not considered an edible vegetable, people living in rural areas of Italy around Vulcan Etna consume boiled flower buds of this plant as ingredients for salads and omelettes [26,27]. It has traditionally been used to treat injuries, ulcers and tumours, haemorrhoids and inflammatory illnesses [20]. ...
The Brassicaceae family which is one of the ten most economically important plant families in the world, contains 338 genera and 3350 species that are distributed worldwide. The genus Isatis, belonging to the family Brassicaceae. The Isatis species has antibacterial, anticancer and antiviral properties. Flavonoids and phenolics are very widespread bioactive secondary plant metabolites in herbal medicine. The present review summarizes the flavonoid and phenolic compounds derivatives from the genus Isatis and aiming to highlight the recent advances in current knowledge on Isatis species as a source of bioactive flavonoid and phenolic compounds.
... Nowadays, I. tinctoria is widely used for medicinal purposes in traditional Chinese medicine [20,23,24], and since 2011, it has been recognised as a pharmacopoeia plant in Europe [25]. Although this species is not considered an edible vegetable, people living in rural areas of Italy around Vulcan Etna consume boiled flower buds of this plant as ingredients for salads and omelettes [26,27]. It has traditionally been used to treat injuries, ulcers and tumours, haemorrhoids and inflammatory illnesses [20]. ...
The Brassicaceae family which is one of the ten most economically important plant families in the world, contains 338 genera and 3350 species that are distributed worldwide. The genus Isatis, belonging to the family Brassicaceae. The Isatis species has antibacterial, anticancer and antiviral properties. Flavonoids and phenolics are very widespread bioactive secondary plant metabolites in herbal medicine. The present review summarizes the flavonoid and phenolic compounds derivatives from the genus Isatis and aiming to highlight the recent advances in current knowledge on Isatis species as a source of bioactive flavonoid and phenolic compounds.
... Some of the recorded plant uses are unique and locally restricted. Examples of particular uses restricted to few locations are: Isatis tinctoria harvested in the wild for food only in Sicily (Galletti et al. 2013), Laurus nobilis, whose leaves are used to store beans in vases in order to keep out bruchids only in Umbria (V. Negri pers. ...
Wild harvested plants (WHP) and crop wild relatives (CWR), part of the segment of natural diversity that is collectively known as ‘Plant Genetic Resources’, have great socioeconomic importance for humans because they are used either directly or in crop breeding. In order to lay down a solid base for constructing conservation strategies for Italy, an updated annotated list of CWR and WHP was produced for the country including information on known uses. Taxa included in the list were then prioritized using a pragmatic approach based on their value, native status, and need of protection or monitoring.
Isatis tinctoria L. (Brassicaceae), which is commonly known as woad, is a species with an ancient and well-documented history as an indigo dye and medicinal plant. Currently, I. tinctoria is utilized more often as medicinal remedy and also as a cosmetic ingredient. In 2011, I. tinctoria root was accepted in the official European phytotherapy by introducing its monograph in the European Pharmacopoeia. The biological properties of raw material have been known from Traditional Chinese Medicine (TCM). Over recent decades, I. tinctoria has been investigated both from a phytochemical and a biological point of view. The modern in vitro and in vivo scientific studies proved anti-inflammatory, anti-tumour, antimicrobial, antiviral, analgesic, and antioxidant activities. The phytochemical composition of I. tinctoria has been thoroughly investigated and the plant was proven to contain many valuable biologically active compounds, including several alkaloids, among which tryptanthrin, indirubin, indolinone, phenolic compounds, and polysaccharides as well as glucosinolates, carotenoids, volatile constituents, and fatty acids. This article provides a general botanical and ethnobotanical overview that summarizes the up-to-date knowledge on the phytochemistry and biological properties of this valuable plant in order to support its therapeutic potential. Moreover, the biotechnological studies on I. tinctoria, which mainly focused on hairy root cultures for the enhanced production of flavonoids and alkaloids as well as on the establishment of shoot cultures and micropropagation protocols, were reviewed. They provide input for future research prospects.
Ten broccoli [Brassica oleracea L. (Botrytis Group)] accessions were grown in several environments to estimate glucosinolate (GS) variability associated with genotype, environment, and genotype × environment interaction and to identify differences in the stability of GSs in broccoli florets. Significant differences in genetic variability were identified for aliphatic GSs but not for indolyl GSs. The percentage of GS variability attributable to genotype for individual aliphatic compounds ranged from 54.2% for glucoraphanin to 71.0% for progoitrin. For total indolyl GSs, the percentage of variability attributable to genotype was only 12%. Both qualitative and quantitative differences in GSs were detected among the genotypes. Ten-fold differences in progoitrin, glucoraphanin, and total aliphatic GS levels were observed between the highest and lowest genotypes. Only two lines, Eu8-1 and VI-158, produced aliphatic GSs other than glucoraphanin in appreciable amounts. Differences in stability of these compounds among the cultivars were also observed between fall and spring plantings. Results suggest that genetic factors necessary for altering the qualitative and quantitative aliphatic GS profiles are present within existing broccoli germplasm, which makes breeding for enhanced cancer chemoprotectant activity feasible.
The lower incidences of many chronic diseases such as cancer and cardiovascular related ailments are associated with consumption of vegetables rich dietary regimes and this has been substantiated through numerous in vitro, pre-clinical and clinical investigations. Members of cruciferous family are cultivated and widely consumed universally as a part of daily diet. The major vegetables includes broccoli, cauliflower, radish, kale, brussels sprouts, watercress and cabbage that are used either fresh (salads), steamed or cooked. Besides nutritional components, these vegetables are also rich in health beneficial secondary metabolites, which include sulfur containing glucosinolates and S-methylcysteine sulfoxide, flavonoids, anthocyanins, coumarins, carotenoids, antioxidant enzymes, terpenes and other minor compounds. Based on the worldwide popularity and health benefits of these vegetables, this review provides collective information on nutritional and health benefits. In addition, information on evidence based therapeutic and prophylactic benefits of commonly used cruciferous vegetables are discussed with emphasis on cancer and cardiovascular disease. Some of the unique mechanisms of cancer inhibition such as effect on Nrf2, polymorphism, anti-inflammatory, inhibition of histone deacetylase activity and influence on estrogen metabolism are also included.
Five members of subgroup 12 R2R3-MYB transcription factors, namely MYB51, MYB122, MYB28, MYB29 and MYB76, are novel regulators
of glucosinolate biosynthesis in Arabidopsis thaliana. Overexpression of MYB51 and MYB122 led to an increased accumulation of tryptophan-derived indolic glucosinolates whereas MYB28, MYB29 and MYB76 overexpression lines showed an increase in methionine-derived aliphatic glucosinolates. Likewise, disruption of the corresponding
genes caused a significant downregulation of indolic and aliphatic glucosinolates, respectively. Expression analysis of promoter-GUS fusions revealed promoter activities at the sites of glucosinolate synthesis and accumulation. Indolic glucosinolate regulators
were mainly found in vegetative organs and roots, whereas aliphatic glucosinolate regulators were preferentially expressed
in generative organs. Mechanical stimuli such as touch or wounding induced a transient expression of the regulators and overexpression
of MYB28 and MYB51 reduced insect performance demonstrating the role of these transcription factors in plant biotic responses. The subgroup
12 R2R3-MYB transcription factors interdependently control the response to biotic challenges. For the regulation of methionine-derived
glucosinolates, the coordinated activation of MYB28, MYB76 and MYB29 is required, whereas MYB51, MYB122 and the sixth member
of subgroup 12 R2R3-MYB transcription factors, the previously described ATR1/MYB34, are involved in the regulation of tryptophan-derived
glucosinolates. Because these two pathways are reciprocally inhibiting each other, a metabolic balance between both biosynthetic
pathways can be accomplished in plants exposed to continuous biotic challenges.
Woad (Isatis tinctoria), a long-known dye plant, is a noticeable source of indolic compounds, bioactive molecules exploitable as fine chemicals. Among these, glucobrassicin and its derivatives seem to play an antitumoral role, especially against mammary cancer. Since different Brassicaceae, such as broccoli and cauliflower, which are present in the human diet, contain glucobrassicin, it would be interesting to study its metabolic pathway following the fate of the pure compound in vivo. At present such studies are prevented by the difficulties encountered in the purification, mainly due to the lack of a rich vegetable source. Synthetic production is complicated and expensive. This study aimed to assess the possibility of enhancing glucobrassicin in woad leaves through artificial wounding and fertilisation, in the greenhouse and open field, in order to obtain high levels of the compound suitable for its purification. Jasmonic acid treatment on young woad leaves of the ‘Casolavalsenio’ accession is confirmed to be highly effective in the enhancement of glucobrassicin content, especially in combination with N–S fertilisation, under greenhouse conditions. For large scale production in the open field, where the use of jasmonic acid would be economically prohibitive, an alternative method of stimulation could be advantageously represented by artificial wounding that is able to provoke a remarkable increase of the compound, giving more then 1% d.w., which would allow its purification. Copyright © 2006 Society of Chemical Industry
An account on the reinvestigation of the old dye and medicinal plant Isatis tinctoria as an anti-inflammatory and current research on the active principles in woad is given. In a broad-based screening, a dichloromethane
extract from the leaves displayed significant activities on several clinically relevant targets of inflammation. The cyclooxygenase-2
inhibitory principle was identified with the aid of HPLC-based activity profiling as the alkaloid tryptanthrin. In cell based
assays, tryptanthrin strongly inhibited eicosanoid synthesis catalyzed by cyclooxygenase-2 and 5-lipoxygenase. A supercritical
carbon dioxide extraction process was developed to replace the dichloromethane extract. Dichloromethane and carbon dioxide
extracts showed in vivo anti-inflammatory activity in topical and oral application. With the aid of electrospray ionization liquid chromatography-mass
spectrometry coupled skin microdialysis, tryptanthrin was found to penetrate the skin. The penetration from the extract was
better than for the pure alkaloid. A screening of 67 woad samples of different geographic origin revealed up to 30-fold differences
in tryptanthrin content in leaves.
Five different varieties of cauliflower (Brassica oleracea L. ssp. botrytis); two white (cv. ‘Aviso’, ‘Dania’), one purple (cv. ‘Grafitti’), one green (cv. ‘Emeraude’) and one romanesco/green pyramidal (cv. ‘Celio’) cultivar have been studied. All samples were thermally processed and the effects on the levels of glucosinolates (GLS), total phenols (TP), total monomeric anthocyanins (TMA), l-ascorbic acid (l-AA) and antioxidant capacities (FRAP and ORAC) were investigated. Processing methods applied were: blanching (3 min), boiling (10 min) and steaming (10 min). Total GLS were significantly (p < 0.05) affected by processing with the highest losses, 55 and 42% on average, occurring for boiled and blanched samples, respectively. Significant effects were also noted for steaming, but to a lesser extent, i.e. 19% average reduction. Antioxidant-related parameters were similarly affected with average losses of 27, 33, 36 and 46% in boiled cauliflower and 16, 21, 22 and 28% in blanched for TP, FRAP, l-AA and ORAC, respectively. Blanching and boiling reduced TMA in purple cauliflower by 38 and 53%, respectively. Steaming affected the antioxidant-related parameters the least for all cultivars. l-AA was significantly reduced by 14% in all cultivars by steaming. Some differences in behaviour between cultivars were noted, especially between white and coloured cultivars for TP, FRAP and l-AA, but also for some GLS. The main losses were caused by leaching into the processing water.
The antiradical activity, polyphenols, flavonoids and total condensed tannins contents have been determined in the case of seven local edible Brassicaceae, i.e. Italian kale, broccoli, Savoy and white cabbage, cauliflower, green cauliflower and Brussels sprouts. Rapid spectrophotometric methods were applied. The results achieved were compared with the quali–quantitative information obtained by HPLC/DAD and HPLC/MS. The polyphenolic compounds detected were: kaempferol and quercetin glycosides and hydroxycinnamic esters. The EC50 values ranged from 81.45 to 917.81 mg sample/mg DPPH and the total phenolic content from 4.30 to 13.80 gallic acid equivalents (mg gallic acid/g sample). The peculiar characteristics of these vegetables can be evaluated and can increase their value as functional food.
Botanical extracts are standardized to > or = 1 marker compounds (MCs). This standardization provides a certain level of quality control, but not complete quality assurance. Thus, industries are looking for other satisfactory systems to improve standardization. This study focuses on the standardization of herbal medicines by combining 2 parameters: the concentration of the MC and antioxidant capacity. Antioxidant capacity was determined with the oxygen radical absorbance capacity (ORAC) method and the concentrations of the MCs, by high-performance liquid chromatography. Total phenols were also determined by the Folin-Ciocolteau method. The ORAC values, expressed as micromol Trolox equivalents/100 g (ORAC %), of 12 commercial herbal extracts were related to the ORAC values of the respective pure MCs at the concentrations at which the MCs occur in products (ORAC-MC %). The ORAC % values of 11 extracts were higher than those of the respective MCs and the ratios ORAC-MC %/ORAC % ranged from 0.007 to 0.7, whereas in the case of Olea europaea leaves, the same ratio was 1.36. The ORAC parameters and their ratios, as well as the linear relationship between ORAC-MC % and ORAC %, are described and discussed as tools for improving the standardization of herbal products and detecting modifications due to herb processing and storage.
This paper gives an overview of the epidemiological data concerning the cancer-preventive effect of brassica vegetables, including cabbage, kale, broccoli, Brussels sprouts, and cauliflower. The protective effect of brassicas against cancer may be due to their relatively high content of glucosinolates. Certain hydrolysis products of glucosinolates have shown anticarcinogenic properties. The results of 7 cohort studies and 87 case-control studies on the association between brassica consumption and cancer risk are summarized. The cohort studies showed inverse associations between the consumption of cabbage, cauliflower, and broccoli and risk of lung cancer; between the consumption of brassicas and risk of stomach cancer; between broccoli consumption and risk of all cancers taken together; and between brassica consumption and the occurrence of second primary cancers. Of the case-control studies, 67% showed an inverse association between consumption of total brassica vegetables and risk of cancer at various sites. For cabbage, broccoli, cauliflower, and Brussels sprouts, these percentages were 70, 56, 67, and 29%, respectively. Although the measured effects might have been distorted by various types of bias, it is concluded that a high consumption of brassica vegetables is associated with a decreased risk of cancer. This association appears to be most consistent for lung, stomach, colon, and rectal cancer and least consistent for prostatic, endometrial, and ovarian cancer. It is not yet possible to resolve whether associations are to be attributed to brassica vegetables per se or to vegetables in general. Further epidemiological research should separate the anticarcinogenic effect of brassica vegetables from the effect of vegetables in general.
Vegetables are the most important sources of phenolics in the Mediterranean diet. Phenolics, especially flavonoids, are suggested as being essential bioactive compounds providing health benefits. In this study, twenty-seven vegetables, fifteen aromatic herbs and some spices consumed in Central Italy (the Marches region) were studied to reveal total phenolic, flavonoid and flavanol content as well as their antioxidant capacity measured by the oxygen radical absorbance capacity (ORAC) method. A comparison in terms of antioxidant capacity was made between different salads, as well as between salads to which aromatic herbs had been added. Lemon balm and marjoram at a concentration of 1.5 % w/w increased by 150 % and 200 % respectively the antioxidant capacity of a salad portion. A 200 g portion of a salad enriched with marjoram corresponded to an intake of 200 (SD 10) mg phenolics and 4000 (SD 300) ORAC units (micromol Trolox equivalents). Olive oils and wine or apple vinegars were the salad dressings that provided the highest increase in antioxidant capacity. Among the spices tested, cumin and fresh ginger made the most significant contribution to the antioxidant capacity. The results are useful in surveying the antioxidant parameters of vegetables, herbs and spices produced and consumed in our geographical area as well as in quantifying the daily intake of phenolics and ORAC units. The results can be used in public health campaigns to stimulate the consumption of vegetables able to provide significant health protection in order to prevent chronic diseases.
Glucosinolates were evaluated in 5 groups and 65 accessions of Brassica oleracea (50 broccoli, 4 Brussels sprouts, 6 cabbage, 3 cauliflower, and 2 kale) grown under uniform cultural conditions. Glucosinolates and their concentrations varied among the different groups and within each group. The predominant glucosinolates in broccoli were 4-methylsulfinylbutyl glucosinolate (glucoraphanin), 3-butenyl glucosinolate (gluconapin), and 3-indolylmethyl glucosinoate (glucobrassicin). Glucoraphanin concentration in broccoli ranged from 0.8 mu mol g(-1) DW in EV6-1 to 21.7 mu mol g(-1) DW in Brigadier. Concentrations of the other glucosinolates in broccoli varied similarly over a wide range. In Brussels sprouts, cabbage, cauliflower, and kale, the predominant glucosinolates were sinigrin (8.9, 7.8, 9.3, and 10.4 mu mol g(-1) DW, respectively) and glucobrassicin (3.2, 0.9, 1.3, and 1.2 mu mol g(-1) DW, respectively). Brussels sprouts also had significant amounts of gluconapin (6.9 mu mol g(-1) DW). Wide variations in glucosinolate content among genotypes suggest differences in their health-promoting properties and the opportunity for enhancement of their levels through genetic manipulation.
Glucosinolates (GLS) are sulfur rich, anionic secondary metabolites found principally in the plant order Brassicales. This review focuses on identifying the range of GLS structures identified to date and summarises the current state of taxonomic reclassifications of GLS producing plants. Those Brassica species that are available to growers in the UK are highlighted and progress in the aspects of analytical chemistry relevant to conducting accurate determinations of GLS content of foods is reviewed. The degradation and derivatisation workflows that have been utilized for conducting “glucosinolate analysis” are summarized. A review is made of aspects of extraction, isolation, determination of purity, ultraviolet (UV) and mass spectrometry (MS) parameters, extinction coefficients, UV response factors, quantification procedures, and the availability of stable isotope labeled internal standards, and certified reference materials. An electronic database of structures, formulae and accurate masses of both the 200 known, and a further 180 predicted GLS, is provided for use in mass spectrometry.
The results of a bio-climatic study regarding the Sicilian territory is given. On the basis of thermometric and pluviometric data, some indexes proposed by Rivas-Martinez have been produced for 61 localities of the island. In particular, the indexes utilized for the bio-climatic classification are the following: It (index of thermicity), Iov (ombro-thermic index) and Iovc (compensated ombro-thermic index). Besides, for the individuation and delimitation of the bio-climatic belts and relative thermo-types and ombro-types other data, as average annual temperatures, average annual precipitation, geomorphology and relative climax vegetation, have been considered. On the whole, the bio-climatic belts occurring in Sicily are: inframediterranean, thermomediterranean, mesomediterranean, supramediterranean, oromediterranean and crioromediterranean. The correlations between the vegetation and bio-climate are examined too.
Micellar electrokinetic capillary chromatography (MECC) was used to follow the myrosinase (β-thioglucoside glucohydrolase EC 3.2.3.1)-catalyzed transformation of glucobrassicin (indol-3-ylmethylglucosinolate, 1a) and neoglucobrassicin (N-methoxyglucobrassicin, 1b) into nitriles, ascorbigens, and other products. The influence of pH, ascorbic acid, and Fe(II) ions was investigated. In the presence of ascorbic acid, (5 mM), thiocyanate ion and ascorbigens were the dominating products from 1a and 1b. In the presence of Fe(II) ions (2.5 mM), nitriles were the dominating products between pH 4 and 6−7. During hydrolysis of 1b in neutral or weakly basic solution, an unstable intermediate was detected by MECC. Comparisons of the rate of ascorbigen formation from 1a, 1b, and indol-3-ylcarbinol showed that ascorbigens were formed directly from ascorbate and unstable products of the hydrolysis of indole glucosinolates and that indol-3-ylcarbinols were not important intermediates. Structures of 1a, 1b, and products of 1b were confirmed by 1H NMR, MS, and UV spectroscopy. Keywords: Indole glucosinolate; myrosinase; ascorbigen; isothiocyanate; nitrile
Publisher Summary This chapter discusses the analysis of total phenols and other oxidation substrates and antioxidants by means of Folin-Ciocalteu reagent. Analyses of the Folin-Ciocalteu (FC) type are convenient, simple, and require only common equipment and have produced a large body of comparable data. Under proper conditions, the assay is inclusive of monophenols and gives predictable reactions with the types of phenols found in nature. Because different phenols react to different degrees, expression of the results as a single number—such as milligrams per liter gallic acid equivalence—is necessarily arbitrary. Because the reaction is independent, quantitative, and predictable, analysis of a mixture of phenols can be recalculated in terms of any other standard. The assay measures all compounds readily oxidizable under the reaction conditions and its very inclusiveness allows certain substances to also react that are either not phenols or seldom thought of as phenols (e.g., proteins). Judicious use of the assay—with consideration of potential interferences in particular samples and prior study if necessary—can lead to very informative results. Aggregate analysis of this type is an important supplement to and often more informative than reems of data difficult to summarize from various techniques, such as high-performance liquid chromatography (HPLC) that separate a large number of individual compounds .The predictable reaction of components in a mixture makes it possible to determine a single reactant by other means and to calculate its contribution to the total FC phenol content. Relative insensitivity of the FC analysis to many adsorbents and precipitants makes differential assay—before and after several different treatments—informative.
A new approach to the elaboration of hydroximoyl chlorides - key-compounds in the synthesis of glucosinolates - based on nitrovinyl intermediates was explored in the case of arylalkyl conjugates and their indolylmethyl counterparts.
The effects of different cooking methods (boiling, frying and microwave cooking) on the antioxidant activity of some selected vegetables (peas, carrot, spinach, cabbage, cauliflower, yellow turnip and white turnip) were assessed by measuring the total phenolic contents (TPC), reducing power and percentage inhibition in linoleic acid system. TPC (gallic acid equivalents g/100 g of dry weight) and reducing power of the methanolic extracts of raw-, microwaved-, boiled- and fried vegetables ranged 0.333–2.97, 0.52–2.68, 0.48–2.08, 1.00–2.02 and 0.391–2.24, 0.822–1.10, 0.547–1.16, 0.910–4.07, respectively. The level of inhibition of peroxidation ranged 71.4–89.0, 66.4–87.3, 73.2–89.2 and 77.4–91.3%, respectively. Antioxidant activity of the vegetables examined was appreciably affected because of varying cooking treatments. TPC of vegetables, generally, decreased by boiling, frying and microwave cooking. There was a significant (P < 0.05) increase in reducing power as a result of frying. However, boiling and microwave cooking did not affect reducing power. Inhibition of peroxidation increased by boiling and frying, whereas, in contrast it was decreased by microwave cooking. The results of the present investigation showed that all the cooking methods affected the antioxidant properties of the vegetables; however, microwave treatment exhibited more deleterious effects when compared with those of other treatments. Thus an appropriate method might be sought for the processing of such vegetables to retain their antioxidant components at maximum level.
Two cultivars each of broccoli (Brassica oleracea L var italica), Brussels sprouts (B oleracea var gemmifera), cabbage (B oleracea var capitata), cauliflower (B oleracea var botrytis) and kale (B oleracea var acephala) were grown during two fall seasons and two spring seasons to determine whether significant seasonal effects on glucosinolate (GS) concentrations could be explained by mean temperature, photosynthetic photon flux (PPF) and daylength during the growing seasons. Concentrations of total GSs, indole GSs and glucoraphanin differed by genotype and season. Total GS concentrations at harvest had a negative linear but positive quadratic relationship with temperature and daylength over the 2 weeks preceding harvest and a positive linear but negative quadratic relationship with PPF over the same 2 weeks. The regression model for indole GS concentrations similarly varied with mean temperature, daylength and PPF over the 4 weeks prior to harvest. Glucoraphanin concentrations at harvest decreased linearly with mean PPF from transplanting to harvest and had a negative linear but positive quadratic relationship with daylength from transplanting to harvest. Because glucoraphanin and other GSs in cruciferous crops are important for cancer chemoprotection, climatic conditions should be considered when planning planting dates or when making breeding selections for GS concentration. Copyright © 2004 Society of Chemical Industry
Brassicaceae vegetables are considered to be a staple food in many areas all over the world. Brassica species are not only known for their high fat and protein contents for human and animal consumption, but Brassicaceae vegetables are recognized as a rich source of nutrients such as vitamins (carotenoids, tocopherol, ascorbic acid, folic acid), minerals (Cu, Zn, P, Mg, among others), carbohydrates (sucrose and glucose), amino acids (for example, L-alanine, L-aspartic acid, L-glutamic acid, L-glutamine, L-histidine, L-methionine, L-phenylalanine, L-threonine, L-tryptophan, and L-valine), and different groups of phytochemicals such as indole phytoalexins (brassinin, spirobrassinin, brassilexin, camalexin, 1-methoxyspirobrassinin, 1-methoxyspirobrassinol, and methoxyspirobrassinol methyl ether), phenolics (such as feruloyl and isoferuloylcholine, hydroxybenzoic, neochlorogenic, chlorogenic, caffeic, p-coumaric, ferulic, and sinapic acids, anthocyanins, quercetin, and kaempferol), and glucosinolates (mainly glucoiberin, glucoraphanin, glucoalyssin, gluconapin, glucobrassicanapin, glucobrassicin, gluconasturtiin, and neoglucobrassicin). All of these phytochemicals contribute to the reported antioxidant, anticarcinogenic, and cardiovascular protective activities of Brassica vegetables. However, not all members of this family are equal from a nutritional viewpoint, since significant qualitative variations in the phytochemical profiles of Brassica species and varieties suggest differences in the health-promoting properties among these vegetables. In this article, Brassica phytochemicals with their nutritional value and health-promoting activities are discussed to give an overview of the literature for Brassica as a staple crop.
Isatis tinctoria L. (Brassicaceae), commonly known as woad, is a biennial species with erect stem, hastate leaves, and yellow flowers clustered in racemes. Fruits are pendulous siliques. This species, probably indigenous of southeastern Asia, was used for the extraction of a dyeing agent called 'indigo' Woad was introduced in ancient times in Italy and the first records of its cultivation date back to the Roman period. For many centuries, woad cultivation remained stable, but grew dramatically in the eighteenth century. In that century, the Societa Economiche established by Bourbons encouraged the cultivation of it in Southern Italy. Near Caserta, in Campania region (Italy), a factory for the extraction of dyeing agents was established and the dye was used in textile production in San Leucio (Caserta). The cultivation of I. tinctoria is abandoned today, although this species grows spontaneously as a weed in Italy. The authors discuss the history of woad and some ancient extractive and dyeing methods.
Most species in the Brassicaceae produce one or more indole glucosinolates. In addition to the parent indol-3-ylmethylglucosinolate
(IMG), other commonly encountered indole glucosinolates are 1-methoxyIMG, 4-hydroxyIMG, and 4-methoxyIMG. Upon tissue disruption,
enzymatic hydrolysis of IMG produces an unstable aglucone, which reacts rapidly to form indole-3-acetonitrile and indol-3-ylmethyl
isothiocyanate. The isothiocyanate, in turn, can react with water, ascorbate, glutathione, amino acids, and other plant metabolites
to produce a variety of physiologically active indole compounds. Myrosinase-initiated breakdown of the substituted indole
glucosinolates proceeds in a similar manner to that of IMG. Induction of indole glucosinolate production in response to biotic
stress, experiments with mutant plants, and artificial diet assays suggest a significant role for indole glucosinolates in
plant defense. However, some crucifer-feeding specialist herbivores recognize indole glucosinolates and their breakdown products
as oviposition and/or feeding stimulants. In mammalian diets, IMG can have both beneficial and deleterious effects. Most IMG
breakdown products induce the synthesis of phase 1 detoxifying enzymes, which may in some cases prevent carcinogenesis, but
in other cases promote carcinogenesis. Recent advances in indole glucosinolate research have been fueled by their occurrence
in the well-studied model plant Arabidopsis thaliana. Knowledge gained from genetic and biochemical experiments with A. thaliana can be applied to gain new insight into the ecological and nutritional properties of indole glucosinolates in other plant
species.
The aim of this study was to determine the composition and concentration of flavonoid aglycones in kale, the dependence on genotype and their interaction with decreasing temperature and global radiation. Eight kale cultivars, comprising hybrid and traditional, old cultivars, were grown in a field experiment and harvested four times at 4-week intervals. The traditional, old cultivars in particular contained high concentrations of flavonoids. In all of the investigated cultivars, kaempferol was the main flavonoid aglycone, followed by quercetin and isorhamnetin, which was quantified in six of the eight cultivars. Furthermore, in six of the eight cultivars, the total concentration of flavonoids remained unchanged with decreasing temperature and global radiation. The quercetin concentration increased in five of these six cultivars, whereas the kaempferol concentration decreased. Interestingly, the quercetin-to-kaempferol ratio increased in all of the investigated cultivars, despite the fact that the radiation level decreased, suggesting that the impact of the decline in temperature could be responsible for this effect.
Dietary antioxidants, such as water-soluble vitamin C and phenolic compounds, as well as lipid-soluble vitamin E and carotenoids, present in vegetables contribute both to the first and second defense lines against oxidative stress. As a result, they protect cells against oxidative damage, and may therefore prevent chronic diseases, such as cancer, cardiovascular disease, and diabetes. Brassica vegetables, which include different genus of cabbage, broccoli, cauliflower, Brussels sprouts, and kale, are consumed all over the world. This review focuses on the content, composition, and antioxidant capacity both lipid- and water-soluble antioxidants in raw Brassica vegetables. The effects of post-harvest storage, industrial processing, and different cooking methods on stability of bioactive components and antioxidant activity also are discussed.
In the present work, human red blood cells (RBC) were used to determine cellular antioxidant activity (CAA-RBC) of pure phytochemicals and botanical extracts, with the aim to predict their bioavailability.Amongst the pure flavonoids, isorhamnetin, tamarixetin, myricetin, and kaempferol showed the highest activity in the CAA-RBC assay; whereas, with the “chemical” oxygen radical absorbance capacity (ORAC) assay, the compounds that showed the highest activity were isorhamnetin, resveratrol, apigenin and catechin. When the CAA-RBC assay was applied to herbal extracts, the Vitis vinifera showed the highest value, a position that this extract maintained also when the ORAC assay was used. Other extracts showed a different order of effectiveness with the two methods.We also employed the CAA-RBC to assess synergistic or antagonistic effects of combinations of herbal extracts and we again compared the results with the ORAC assay. Punica granatum + Malus domestica synergized in the CAA-RBC assay, but not in the ORAC assay; Aspalathus linearis extract interacted positively with Vaccinium myrtillus, both in the ORAC assay and in the CAA-RBC assay. We concluded that the CAA-RBC assay, coupled with the ORAC assay, was useful for evaluating intracellular bioactivity and synergy amongst phytochemicals or extracts.
Organic isothiocyanates (ITCs), which are characterized by the presence of an –N=C=S group, are among the most extensively
studied cancer chemopreventive agents and show highly promising chemopreventive activities. Numerous studies have shown that
ITCs can inhibit both carcinogenesis and cancer growth in a variety of animal models. Many cruciferous vegetables, which are
commonly consumed by humans, are rich sources of these compounds. Of particular interest are their high bioavailability, their
shared metabolic profile and their ability to target a wide array of cancer-related cellular proteins. This review is focused
on discussing the molecular basis of these intriguing properties of ITCs, with a particular emphasis on the concept that cellular
uptake and metabolism of ITCs and at least some of their major chemopreventive activities are all initiated through direct
reaction of the carbon atom of the –N=C=S group of the ITCs with cysteine sulfhydryl groups of glutathione (GSH) and of proteins.
This knowledge deepens our understanding about the biological activities of ITCs and may facilitate further research and development
of these compounds for cancer prevention and treatment.
The objective of this study was to establish whether the phytochemical glucoraphasatin, a glucosinolate present in cruciferous vegetables, and its corresponding isothiocyanate, 4-methylsulfanyl-3-butenyl isothiocyanate, up-regulate enzymes involved in the detoxification of carcinogens and are thus potential chemopreventive agents. Glucoraphasatin and myrosinase were isolated and purified from Daikon sprouts and Sinapis alba L., respectively. Glucoraphasatin (0-10 μM) was incubated for 24 h with precision-cut rat liver slices in the presence and absence of myrosinase, the enzyme that converts the glucosinolate to the isothiocyanate. The intact glucosinolate failed to influence the O-dealkylations of methoxy- and ethoxyresorufin or the apoprotein expression of CYP1 enzymes. Supplementation with myrosinase led to an increase in the dealkylation of methoxyresorufin, but only at the highest concentration of the glucosinolate, and CYP1A2 expression. In the absence of myrosinase, glucoraphasatin caused a marked increase in epoxide hydrolase activity at concentrations as low as 1 μM paralleled by a rise in the enzyme protein expression; at the highest concentration only, a rise was also observed in glucuronosyl transferase activity, but other phase II enzyme systems were unaffected. Addition of myrosinase to the glucoraphasatin incubation maintained the rise in epoxide hydrolase and glucuronosyl transferase activities, further elevated quinone reductase and glutathione S-transferase activities, and increased total glutathione concentrations. It is concluded that at low concentrations, glucoraphasatin, either intact and/or through the formation of 4-methylsulfanyl-3-butenyl isothiocyanate, is a potent inducer of hepatic enzymes involved in the detoxification of chemical carcinogens and merits further investigation for chemopreventive activity.
Over the past several decades, research on the action of bioactive constituents of plants has focused predominantly on their cancer-preventive properties. Today it can be explained why the consumption of fruits and vegetables may lead to a reduced frequency of certain cancer entities and why certain foods have therapeutic effects. Secondary plant products and especially glucosinolates from vegetables of the cruciferae family are supposed to have anti-carcinogenic potential. The present article gives an overview about secondary plant products in general and focuses to mechanisms of preventive and therapeutic effects of cruciferae, particular the brassica family and their famous member broccoli. Also, this article summarizes our knowledge of safety, tolerance and metabolism of glucosinolates and their therapeutic active degradation products isothiocyanates in animals and clinical studies.
In vitro, animal, and epidemiological studies all show that broccoli products containing sulforaphane, the bioactive hydrolysis product of glucoraphanin (GRP), lower risk for cancer. As a result, GRP-rich extracts are appearing on the market as dietary supplements. However, these products typically have no hydrolyzing enzyme for sulforaphane (SF) formation. We evaluated safety and compared efficacy to other broccoli preparations. Four daily doses of 0.5 mmol GRP/kg BW, given by gavage to adult male F344 rats, caused temporary cecal inflammation that was essentially resolved four days later. A similar dose dispersed in the diet caused no inflammation. To compare efficacy, we fed rats 20% freeze-dried broccoli (heated or unheated), 3.5% broccoli seed meal, or 4.3% semipurified GRP, each balanced within an AIN93G semipurified diet, for 4 days. Diets lacking myrosinase (semipurified GRP and heated broccoli florets) caused upregulation of NAD(P)H-quinone oxidoreductase 1 (NQO1) in colon but not liver. Surprisingly, broccoli seed, rich in myrosinase and GRP, also caused NQO1 upregulation in colon but not liver. In contrast, unheated broccoli florets caused upregulation in both colon and liver. These data suggest that GRP supplements may not exert systemic effects. We hypothesize that within whole broccoli additional components enhanced sulforaphane-dependent upregulation of NQO1 in liver.
To compile a database on content of individual glucosinolates in food and to describe the dietary intake of individual glucosinolates in a German population.
Studies analysing the content of individual glucosinolates in food were aggregated to form a database of 26 individual glucosinolates in 18 vegetables and condiments consumed in Germany. This database was linked to food intake data derived from 24-hour diet recalls of 2,121 participants of the EPIC-Heidelberg cohort study.
Mean total glucosinolate intake (+/-standard error) was 14.2 (+/-1.1) mg/day for men and 14.8 (+/-1.3) mg/day for women. The intake increased with age and education; smokers ingested less glucosinolates than never or former smokers. The quantitatively most important individual glucosinolates were glucobrassicin and sinigrin with mean daily intakes of 3.5 (+/-0.3) and 1.7 (+/-0.2) mg/day for men, and 4.2 (+/-0.4) and 2.5 (+/-0.4) mg/day for women, respectively. Broccoli, Brussels sprouts and cauliflower contributed most to the total glucosinolate intake in this population.
The established database allowed for the first time the estimation of dietary intake of individual glucosinolates. The database can be used for epidemiological research on the role of glucosinolates in health and disease.
Isothiocyanates (ITCs) are breakdown products of glucosinolates contained in cruciciferous vegetables. This heterogeneous family of molecules has the -N=C=S group as its common structural feature and possesses important cytoprotective properties. Their biological interactions are strongly related to modulation of cellular redox status, and a number of studies have documented their indirect antioxidant properties, particularly related to induction of phase-2 enzymes. On the other hand, some direct antioxidant behavior has also been observed for a limited number of ITCs. Paradoxically relevant pro-oxidant properties have also been documented, possibly related to the simultaneous induction of phase-1 enzymes. In this review, we will summarize and discuss the prevailing mechanisms for the antioxidant and pro-oxidant activity of ITCs, both in vivo and in vitro.
Glucosinolates (beta-thioglucoside-N-hydroxysulfates), the precursors of isothiocyanates, are present in sixteen families of dicotyledonous angiosperms including a large number of edible species. At least 120 different glucosinolates have been identified in these plants, although closely related taxonomic groups typically contain only a small number of such compounds. Glucosinolates and/or their breakdown products have long been known for their fungicidal, bacteriocidal, nematocidal and allelopathic properties and have recently attracted intense research interest because of their cancer chemoprotective attributes. Numerous reviews have addressed the occurrence of glucosinolates in vegetables, primarily the family Brassicaceae (syn. Cruciferae; including Brassica spp and Raphanus spp). The major focus of much previous research has been on the negative aspects of these compounds because of the prevalence of certain "antinutritional" or goitrogenic glucosinolates in the protein-rich defatted meal from widely grown oilseed crops and in some domesticated vegetable crops. There is, however, an opposite and positive side of this picture represented by the therapeutic and prophylactic properties of other "nutritional" or "functional" glucosinolates. This review addresses the complex array of these biologically active and chemically diverse compounds many of which have been identified during the past three decades in other families. In addition to the Brassica vegetables, these glucosinolates have been found in hundreds of species, many of which are edible or could provide substantial quantities of glucosinolates for isolation, for biological evaluation, and potential application as chemoprotective or other dietary or pharmacological agents.
Raspberries are rich in phenolic phytochemicals. To study the health benefits of raspberries, four fresh raspberry varieties (Heritage, Kiwigold, Goldie, and Anne) were evaluated for total antioxidant and antiproliferative activities. The total amount of phenolics and flavonoids for each of the four raspberry varieties was determined. The Heritage raspberry variety had the highest total phenolic content (512.7 +/- 4.7 mg/100 g of raspberry) of the varieties measured followed by Kiwigold (451.1 +/- 4.5 mg/100 g of raspberry), Goldie (427.5 +/- 7.5 mg/100 g of raspberry), and Anne (359.2 +/- 3.4 mg/100 g of raspberry). Similarly, the Heritage raspberry variety contained the highest total flavonoids (103.4 +/- 2.0 mg/100 g of raspberry) of the varieties tested, followed by Kiwigold (87.3 +/- 1.8 mg/100 g of raspberry), Goldie (84.2 +/- 1.8 mg/100 g of raspberry), and Anne (63.5 +/- 0.7 mg/100 g of raspberry). The color of the raspberry juice correlated well to the total phenolic, flavonoid, and anthocyanin contents of the raspberry. Heritage had the highest a/b ratio and the darkest colored juice, and the Anne variety showed the lowest phytochemical content and the palest color. Heritage raspberry variety had the highest total antioxidant activity, followed by Kiwigold and Goldie, and the Anne raspberry variety had the lowest antioxidant activity of the varieties tested. The proliferation of HepG(2) human liver cancer cells was significantly inhibited in a dose-dependent manner after exposure to the raspberry extracts. The extract equivalent to 50 mg of Goldie, Heritage, and Kiwigold fruit inhibited the proliferation of those cells by 89.4 +/- 0.1, 88 +/- 0.2, and 87.6 +/- 1.0%, respectively. Anne had the lowest antiproliferative activity of the varieties measured but still exhibited a significant inhibition of 70.3+/- 1.2% with an extract equivalent to 50 mg of fruit. The antioxidant activity of the raspberry was directly related to the total amount of phenolics and flavonoids found in the raspberry (p < 0.01). No relationship was found between antiproliferative activity and the total amount of phenolics/flavonoids found in the same raspberry (p > 0.05).
Antioxidant capacity of hydrophilic and lipophilic extracts from eight broccoli genotypes was compared using the oxygen radical absorbance capacity (ORAC) assay. Each genotype was analyzed for carotenoid, tocopherol, ascorbic acid, and flavonoid content. Results indicate that the antioxidant capacity of hydrophilic extracts ranged from 65.8 to 121.6 micromol trolox equivalents (TE)/g of tissue, and the capacity of lipophilic extracts ranged from 3.9 to 17.5 micromol TE/g. Ascorbic acid and flavonoid content of the hydrophilic extracts did not explain the total variation in antioxidant capacity of those extracts, suggesting either the presence of other antioxidant components that have yet to be identified or that the known antioxidants are producing synergistic effects. The carotenoids did correlate with antioxidant capacity of the lipophilic extracts and accounted for the majority of the variability in that fraction. The variability in hydrophilic and lipophilic antioxidant capacity found among these genotypes suggests that potential efficacy from antioxidants will vary considerably from genotype to genotype.
The glucosinolate content of various organs of the model plant Arabidopsis thaliana (L.) Heynh., Columbia (Col-0) ecotype, was analyzed at different stages during its life cycle. Significant differences were noted among organs in both glucosinolate concentration and composition. Dormant and germinating seeds had the highest concentration (2.5-3.3% by dry weight), followed by inflorescences, siliques (fruits), leaves and roots. While aliphatic glucosinolates predominated in most organs, indole glucosinolates made up nearly half of the total composition in roots and late-stage rosette leaves. Seeds had a very distinctive glucosinolate composition. They possessed much higher concentrations of several types of aliphatic glucosinolates than other organs, including methylthioalkyl and, hydroxyalkyl glucosinolates and compounds with benzoate esters than other organs. From a developmental perspective, older leaves had lower glucosinolate concentrations than younger leaves, but this was not due to decreasing concentrations in individual leaves with age (glucosinolate concentration was stable during leaf expansion). Rather, leaves initiated earlier in development simply had much lower rates of glucosinolate accumulation per dry weight gain throughout their lifetimes. During seed germination and leaf senescence, there were significant declines in glucosinolate concentration. The physiological and ecological significance of these findings is briefly discussed.
Both lipophilic and hydrophilic antioxidant capacities were determined using the oxygen radical absorbance capacity (ORAC(FL)) assay with fluorescein as the fluorescent probe and 2,2'-azobis(2-amidinopropane) dihydrochloride as a peroxyl radical generator on over 100 different kinds of foods, including fruits, vegetables, nuts, dried fruits, spices, cereals, infant, and other foods. Most of the foods were collected from four different regions and during two different seasons in U.S. markets. Total phenolics of each sample were also measured using the Folin-Ciocalteu reagent. Hydrophilic ORAC(FL) values (H-ORAC(FL)) ranged from 0.87 to 2641 micromol of Trolox equivalents (TE)/g among all of the foods, whereas lipophilic ORAC(FL) values (L-ORAC(FL)) ranged from 0.07 to 1611 micromol of TE/g. Generally, L-ORAC(FL) values were <10% of the H-ORAC(FL) values except for a very few samples. Total antioxidant capacity was calculated by combining L-ORAC(FL) and H-ORAC(FL). Differences of ORAC(FL) values in fruits and vegetables from different seasons and regions were relatively large for some foods but could not be analyzed in detail because of the sampling scheme. Two different processing methods, cooking and peeling, were used on selected foods to evaluate the impact of processing on ORAC(FL). The data demonstrated that processing can have significant effects on ORAC(FL). Considering all of the foods analyzed, the relationship between TP and H-ORAC(FL) showed a very weak correlation. Total hydrophilic and lipophilic antioxidant capacity intakes were calculated to be 5558 and 166 micromol of TE/day, respectively, on the basis of data from the USDA Continuing Survey of Food Intakes by Individuals (1994-1996).
To study the effect of polyphenolics on antioxidant activities of cabbages, the amounts of total phenolics, total flavonoids, antioxidant capacity and individual phenolic compounds in raw and processed cabbages were determined. Fresh and pickled red cabbages exhibited the highest total phenolic contents (393.1+/-10.8 mg and 366.3+/-3.6 mg gallic acid equivalents/100 g fresh sample, respectively). Fresh and pickled red cabbages were also highest in flavonoids (108.1+/-9.3 mg and 72.4+/-4.4 mg catechin equivalents/100 g fresh sample, respectively). The antioxidant capacity (expressed as vitamin C equivalent antioxidant capacity) ranged from 57.1 to 695.6 mg vitamin C equivalents/100 g fresh sample, where raw and pickled red cabbages exhibited the highest antioxidant capacity. There was a good linear relationship between the total phenolics and antioxidant capacity (r2=0.9743), and between the total flavonoids and antioxidant capacity (r2=0.9557); however, the relationship between the ascorbic acid content and antioxidant capacity was very low (r2=0.1442). The antioxidant capacity of raw and processed cabbages was highly correlated with their contents of polyphenolics. Kaempferol, quercetin, and apigenin were the major flavonoids existing in cabbages except for raw and pickled red cabbages, where cyanidin was the predominant flavonoid (73.6-117.7 mg/kg). In the red cabbages, cyanidin was the major contributor to the antioxidant capacity as well as the content of total phenolics and flavonoids.
Glucosinolate levels in leaves were determined in a collection of 113 varieties of turnip greens (Brassica rapa L.) from northwestern Spain grown at two sites. Sensorial attributes were also assessed by a consumer panel. The objectives were to determine the diversity among varieties in total glucosinolate content and glucosinolate profile and to evaluate their sensory attributes in relation to glucosinolate content for breeding purposes. Sixteen glucosinolates were identified, being the aliphatic glucosinolates, gluconapin and glucobrassicanapin the most abundant. Other aliphatic glucosinolates, such as progoitrin, glucoalyssin, and gluconapoleiferin were relatively abundant in varieties with a different glucosinolate profile. Indolic and aromatic glucosinolate concentrations were low and showed few differences among varieties. Differences in total glucosinolate content, glucosinolate profile and bitterness were found among varieties, with a total glucosinolate content ranging from 11.8 to 74.0micromolg(-1) dw at one site and from 7.5 to 56.9micromolg(-1) dw at the other site. Sensory analysis comparing bitterness with variation in glucosinolate, gluconapin and glucobrassicanapin concentrations suggested that these compounds and their breakdown products are not the only determinants of the characteristic flavour of this vegetable. Other phytochemicals are probably involved on the characteristic bitter flavour. The varieties MBG-BRS0132, MBG-BRS0082, MBG-BRS0173, and MBG-BRS0184 could be good candidates for future breeding programs since they had high total glucosinolate content and good agronomic performance. The presence of glucoraphanin in some varieties should be studied more extensively, because this aliphatic glucosinolate is the precursor of sulforaphane, a potent anti-cancer isothiocyanate.
During the course of oncogenesis and tumor progression, cancer cells constitutively upregulate signaling pathways relevant to cell proliferation and survival as a strategy to overcome genomic instability and acquire resistance phenotype to chemotherapeutic agents. In light of this clinical and molecular heterogeneity of human cancers, it is desirable to concomitantly target these genetic abnormalities by using an agent with pleiotropic mode of action. Indole-3-carbinol and its metabolite 3,3'-diindoylmethane (DIM) target multiple aspects of cancer cell-cycle regulation and survival including Akt-NF kappa B signaling, caspase activation, cyclin-dependent kinase activities, estrogen metabolism, estrogen receptor signaling, endoplasmic reticulum stress, and BRCA gene expression. This broad spectrum of anti-tumor activities in conjunction with low toxicity underscores the translational value of indole-3-carbinol and its metabolites in cancer prevention/therapy. Furthermore, novel anti-tumor agents with overlapping underlying mechanisms have emerged via structural optimization of indole-3-carbinol and DIM, which may provide considerable therapeutic advantages over the parental compounds with respect to chemical stability and anti-tumor potency. Together, these agents might foster new strategies for cancer prevention and therapy.
Studi su specie erbacee della flora spontanea di interesse alimentare
- F Branca
Branca, F. 1991. Studi su specie erbacee della flora spontanea di interesse alimentare. Tesi
di dottorato in Produttività delle Piante coltivate.
Enclosure VIII. Oilseeds-determination of glucosinolateshigh performance liquid chromatography
- Eec N Reg
EEC Reg. N. 1864/90. 1990. Enclosure VIII. Oilseeds-determination of glucosinolateshigh performance liquid chromatography. Off. J. Eur. Comm. L170:27-34.
Cruciferous vegetables and human cancer risk: Epidemiologic evidence and mechanistic basis
- J V Higdon
- B Delage
- Williams De
- R H Dashwood
Higdon JV, Delage B, Williams DE and Dashwood RH, Cruciferous
vegetables and human cancer risk: Epidemiologic evidence and
mechanistic basis. Pharmacol Res 55:224-236 (2007).
- Y-S Keum
- W-S Jeong
- A-Nt Kong
Keum Y-S, Jeong W-S and Kong A-NT, Chemopreventive functions of
isothiocyanates. Drug News Perspect 18:445-451 (2005).
- P G Strobl
- Flora Des Etna
Strobl PG, Flora des Etna. Österreichische botanische Zeitschrift
35:97-101 (1885).
- W Greuter
- T Raus
- Med-Checklist Notulae
Greuter W and Raus T, Med-Checklist Notulae, 12. Wildenowia
15:413-432 (1986).
Oilseeds -determination of glucosinolates -high performance liquid chromatography
EEC Regulation No 1864/90, Enclosure VIII, Oilseeds -determination
of glucosinolates -high performance liquid chromatography. Off J
Eur Commun L170:27-34 (1990).