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Crinane and Lycorane Type Alkaloids from Zephyranthes citrina

DOI:10.1055/s-2001-11495
Authors:
María del Rosario Herrera Velázquez at Universidad Estatal del Sur de Manabí
María del Rosario Herrera Velázquez
  • Universidad Estatal del Sur de Manabí
Alex Machocho at Kenyatta University
Alex Machocho
Reto Brun at Swiss Tropical and Public Health Institute
Reto Brun
Viladomat Francesc at University of Barcelona
Viladomat Francesc
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Abstract and Figures

Eight alkaloids have been isolated from Zephyranthes citrina (Amaryllidaceae). The alkaloid oxomaritidine is reported here for the first time from a natural source. The structure and stereochemistry of the alkaloids were determined by physical and spectroscopic methods.
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... According to the World Health Organization (WHO), 600,000 to 1 million cases of CL occur every year, with (19), 199 (48), 187 (41), 115 (13) 2510.8 6.0 0.3 8-O-demethylmaritidine (3) 273 (100) 244 (14), 230 (19), 201 (62), 189 (44) 2537.5 6.1 0.4 anhydrolycorine (4) 251 (48) 250 (100), 192 (11) 2542. 9 12.1 1.6 11,12-dehydroanhydrolycorine (5) 249 (67) 248 (100), 190 (15) 2645.1 8.0 0.6 hippamine (6) 301 (20) 268 (14), 250 (18), 227 (92), 226 (100) 2706.0 6.2 0.4 lycorine (7) 287 (39) 268 (29), 250 (16), 227 (76), 226 (100) 2817.3 191. 2 28.5 2-hydroxyanhydrolycorine 3 (8) 267 (56) 266 (100), 208 (9), 132 (6) 2893.5 49.3 9.7 7-hydroxyclivonine 3 (9) 333 (57) 96 (56), 83 (100), 82 (31) 2963.2 23.5 4.6 2α-hydroxyhomolycorine (10) 331 (<1) 125 (100), 96 (25) 3000. 9 10.3 1.6 7-hydroxyclivonine isomer 3 (11) 333 ( The major alkaloid in the C. milagroanthus extract was found to be lycorine (7), 191.2 mg GAL·g −1 AE, and three other lycorine-type alkaloids were identified: anhydrolycorine (4), 11,12-dehydroanhydrolycorine (5), and hippamine (6) (Figure 1). ...
... As shown in Table 1, lycorine (7) was the most representative alkaloid quantified in C. milagroanthus. Some authors report that this structure, isolated from the species Crinum stuhlmannii Baker, Crinum macowanii Baker, and Zephyranthes citrina Baker, is not active against L. donovani [21,[27][28][29]. As also indicated in Table 1, the second most representative alkaloid detected in C. milagroanthus was compound 11, which may have contributed to the antileishmanial activity of the bulb extract. ...
Antileishmanial Activity of Clinanthus milagroanthus S. Leiva & Meerow (Amaryllidaceae) Collected in Peru
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Leishmaniasis is a worldwide infectious parasitic disease caused by different species of protozoa of the genus Leishmania, which are transmitted to animals and humans through the bite of insects of the Psychodidae family. In the present work, the antileishmanial activity of an alkaloid extract of the bulbs of Clinanthus milagroanthus S. Leiva & Meerow (Amaryllidaceae) was evaluated in vitro, in vivo, and in silico against the parasite Leishmania braziliensis, and the chemical profile of the sample was determined by GC-MS analysis. At concentrations of 1, 10, and 100 µg·mL−1, the alkaloid extract presented inhibition percentages of 8.7%, 23.1%, and 98.8%, respectively, against L. braziliensis with a p < 0.05, and IC50 values of 18.5 ± 0.3 µg·mL−1. Furthermore, at a dose of 1.0 mg·kg−1, a greater decrease in lesion size was observed (90%) for in vivo assays, as well as a decrease in infection (96%), finding no significant differences (p > 0.05) in comparison with amphotericin B (92% and 98%, respectively). Eleven alkaloids were identified in C. milagroanthus bulbs: galanthamine, vittatine/crinine, 8-O-demethylmaritidine, anhydrolycorine, 11,12-dehydroanhydrolycorine, hippamine, lycorine, 2-hydroxyanhydrolycorine, 7-hydroxyclivonine, 2α-hydroxyhomolycorine, and 7-hydroxyclivonine isomer. A molecular model of Leishmania braziliensis trypanothione reductase (TRLb) was built using computational experiments to evaluate in silico the potential of the Amaryllidaceae alkaloid identified in C. milagroanthus toward this enzyme. The structures galanthamine, 7-hydroxyclivonine isomer, and crinine showed better estimated free energy of binding than the reference compound, amphotericin B. In conclusion, this is the first in vitro, in vivo, and in silico report about the antileishmanial potential and alkaloid profiling of the extract of C. milagroanthus bulbs, which could become an interesting source of bioactive molecules.
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... Furthermore, unlike morphological characters, the expression of secondary metabolites is more predictable, since they show an oligogenic inheritance with a dominant/recessive pattern (Rieseberg and Ellstrand, 1993;Cheng et al., 2011). For example, some alkaloids (i.e., galanthamine) with chemotaxonomic value within Amaryllidaceae have been proposed (Herrera et al., 2001). Therefore, the complementary use of morphological, genetic, and chemical markers allows to establish more realistic hypotheses for differentiation between species. ...
... Phytochemical research into the genus Zephyranthes have reported secondary metabolites as alkaloids, flavonoids, sterols, and terpenoids (i. e., Mutsuga et al., 2001;Herrera et al., 2001;Wu et al., 2009a). Pharmacological effects of this genus are mainly due to alkaloids reported as antibacterial (Wu et al., 2009b), antiviral (Oluyemisi et al., 2015), anticancer (Pettit et al., 1990), antimitotic (Furmanowa and Oledzka, 1978), cytotoxic (Mutsuga et al., 2001) and neuroprotective activities (Cortes et al., 2019). ...
Microsatellites, Morphological, and Alkaloids Characterization of Zephyranthes fosteri and Z. alba (Amaryllidaceae): Allopatric Populations
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Zephyranthes (Amaryllidaceae) is a taxonomically complex genus due to the frequent overlap of interspecific morphological variation. In Mexico, Z. alba and Z. fosteri are herbaceous plants that, when distributed in sympatry, generate individuals with complex patterns of morphological variation, leading to taxonomic confusion. Therefore, it is necessary to first characterize these species in allopatric populations. In this contribution, molecular, morphological, and alkaloid profiles were used to characterize both species in allopatric sites. Our results show that Z. alba and Z. fosteri allopatric populations are two well-defined genetic and morphological groups. Flower-related characters were the ones that best allowed us to distinguish between species. In a similar fashion, the alkaloid profile showed remarkable differences among species: four alkaloids were specific to Z. alba and five to Z. fosteri. Lycorine (43.3 ̶ 88.8%) and galanthamine (87.7 ̶ 91.4%) were the most abundant alkaloids for each species, respectively. In conclusion, Z. fosteri and Z. alba exhibit noticeable differences when distributed in allopatry. In addition, Z. fosteri has greater genetic and phenotypic plasticity compared to Z. alba, which could be related to the former's ability to colonize new habitats. Finally, the molecular, genetic and chemical markers developed here will provide a framework to further studies aiming to explore if hybridization among Z. alba and Z. fosteri occurs in sympatric populations.
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... Only a few studies have been carried out regarding its biological and pharmacological activities. Its antimicrobial, antiprotozoal and cytotoxic activities are generally due to presence of alkaloids in different parts of this plant (Herrera et al., 2001;Singh et al., 2010;Prakash and Vedanayaki, 2019). Like other species of the genus Zephyranthes, Z. citrina also contains many Amaryllidaceae alkaloids. ...
Phytochemical Profile of Yellow Rain Lily (Zephyranthes citrine Baker) Flowers
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Zephyranthes citrine Baker commonly known as yellow rain lily, is a bulbous weed of Amaryllidaceae. In the present study, phytoconstituents from methanolic flower extract of this plant were identified by analyzing through GC-MS. A total of 13 compounds were found in the extract. These included heptacosan-9-ol (15.01%), 2-hexanamine (13.28%), n-hexadecanoic acid (10.38%), eicosane (10.37%), 4H-pyran-4-one, 2,3-dihydro-3,5-dihydroxy-6-methyl (9.69%), cyclohexane, 1,1'-(2-propyl-1,3-propanediyl)bis- (8.81%), hexadecane-1,2-diol (6.34%), pentadecanoic acid, 14-methyl-, methyl ester (5.76%), methyl linolenate (5.38%), octadecanoic acid (4.04%), methyl (Z)-5,11,14,17-eicosatetraenoate (3.56%), methyl linoleate (4.38%), and linoleic acid (2.94%). These compounds possess various biological activities as reported in the previous literature.
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... Originario de América tropical y subtropical, las especies de Zephytanthes son encontradas principalmente en países como Colombia, en regiones de Cundinamarca, Boyacá y Antioquia (Fernández & Groenendijk, 2004). Se ha reportado la presencia de alcaloides como crinina, licorina y galantamina entre otros (Herrera et al., 2001). En el caso de Z. concolor y Z. robusta hay evidencia de la biosíntesis de galantamina (Reyes-Chilpa et al., 2011). ...
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Chromosomic studies in Zephyranthes citrina baker (Amaryllidaceae), a polyploid ornamental
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Zephyranthes citrina is an ornamental American bulbous plant used as an ornamental garden crop for the aesthetic qualities of its yellow perigonium. The objective of this work was to characterize the species by classical chromosome staining and fluorochrome banding. A sporophytic chromosome number of 2n=8x=48 chromosomes was observed, being the karyotypic formula 20 m + 26 sm + 2 st. Satellites were detected in the short arm of metacentric chromosomes 8, 9, 11 and 12, which colocalized with constitutive heterochromatin CMA+/DAPI-/0 bands. The karyotype comprised chromosome pairs with terminal constitutive heterochromatin bands that included satellites and heteromorphic clusters indicating that it is an allooctoploid. These results will be used as a tool for monitoring genetic improvement, in interspecific crosses and its progenies and in biotechnological procedures by in vitro culture. Key words: constitutive heterochromatin, chromosome banding, bulbous, plant genetic resources, karyotype
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