Paola Manini

Publications (34) View all

• Article: Secondary targets of nitrite-derived reactive nitrogen species: nitrosation/nitration pathways, antioxidant defense mechanisms and toxicological implications.

  Marco d'Ischia, Alessandra Napolitano, Paola Manini, Lucia Panzella
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  ABSTRACT: Nitrite, the primary metabolite of nitric oxide (NO) and a widely diffused component of human diet, plays distinct and increasingly appreciated roles in human physiology. However, when exposed to acidic environments, typically in the stomach, or under oxidative stress conditions, it may be converted to a range of reactive nitrogen species (RNS) which in turn can target a variety of biomolecules. Typical consequences of toxicological relevance include protein modification, DNA base deamination and the formation of N-nitrosamines, among the most potent mutagenic and carcinogenic compounds for humans. Besides primary biomolecules, nitrite can cause structural modifications to a variety of endogenous and exogenous organic compounds, ranging from polyunsaturated fatty acids to estrogens, tocopherol, catecholamines, furans, retinoids, dietary phenols, and a range of xenobiotics. The study of the interactions between nitrite and key food components, including phenolic antioxidants, has therefore emerged as an area of great promise for delineating innovative strategies in cancer chemoprevention. Depending on substrates and conditions, diverse reaction pathways may compete to determine product features and distribution patterns. These include nitrosation and nitration but also oxidation, via electron transfer to nitrosonium ion or nitrogen dioxide. This contribution aims to provide an overview of the main classes of compounds that can be targeted by nitrite and to discuss at chemical levels the possible reaction mechanisms under conditions that model those occurring in the stomach. The toxicological implications of the nitrite-modified molecules are finally addressed, and a rational chemical approach to the design of potent antinitrosing agents is illustrated.
  Chemical Research in Toxicology 09/2011; 24(12):2071-92. · 3.78 Impact Factor
• Article: π-Electron manipulation of the 5,6-dihydroxyindole/quinone system by 3-alkynylation: mild acid-mediated entry to (cross)-conjugated scaffolds and paradigms for medium-tunable chromophores.

  Luigia Capelli, Orlando Crescenzi, Paola Manini, Alessandro Pezzella, Vincenzo Barone, Marco d'Ischia
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  ABSTRACT: 5,6-Dihydroxyindole-based systems engender increasing interest for the design and implementation of new functional aromatic scaffolds and eumelanin-like materials with tailored absorption and electronic properties. However, studies aimed at elucidating the influence of external π-conjugating groups on the redox properties and acid-induced reactivity of these highly oxidizable indolic platforms are lacking. We report herein the synthesis (as acetyl derivatives) and chemical/quantum chemical characterization of the first π-extended 5,6-dihydroxyindole derivatives, 3-ethynyl-5,6-dihydroxyindole (1) and 3,3'-(1,2-ethynediyl)bis-5,6-dihydroxyindole (2), in order to understand whether and how β extension of the enamine-like pyrrole sector affects the absorption properties, redox behavior, and protonation equilibria at both the o-diphenol and quinone levels. Oxidation of 1 and 2 proceeded smoothly to generate dark insoluble materials with eumelanin-like UV properties. On exposure to phosphate buffer at pH 3, 1 was rapidly converted to 3-acetyl-5,6-dihydroxyindole (5) and, in the presence of 5,6-dihydroxyindole, to the cross-conjugated 3,3'-ethenylidenebis-5,6-dihydroxyindole (6). DFT calculations on 1 and 2 and their quinones in their pristine states and after protonation provided a mechanistic frame to rationalize the unusual acid-mediated chemistry of 1 and disclosed 2-quinone as the prototype of a novel class of medium-dependent chromophores. The ethynyl(ene) structural motif is thus proposed as the key to new tunable π-electron extended 5,6-dihydroxyindole/5,6-indolequinone paradigms for the rational design of alkyne-containing hybrid eumelanin-type polymers.
  The Journal of Organic Chemistry 06/2011; 76(11):4457-66. · 4.45 Impact Factor
• Article: The haptenation theory of vitiligo and melanoma rejection: a close-up.

  Wiete Westerhof, Paola Manini, Alessandra Napolitano, Marco d'Ischia
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  ABSTRACT: The 'Haptenation theory' concerns the multicausal pathogenesis of vitiligo ending ultimately in the (partial) disappearance of melanocytes from the skin and/or hairs. The melanocyte specificity is attributed to the tyrosinase-catalysed production of haptogenic ortho-quinones that covalently bind to tyrosinase or other melanosomal proteins to generate neo-antigens. These latter, in turn, trigger an immunological cascade resulting in a melanocyte-specific delayed-type hypersensitivity reaction that eliminates melanocytes and produces the characteristic depigmentation. This causal chain of events is critically discussed with special reference to factors modifying the process and the possible influence of various biochemical changes, such as raised levels of catecholamines and epidermal hydrogen peroxide, which have been reported to be associated with the onset of vitiligo. This all adds up to the typical vitiligo reaction pattern or syndrome, which demands a treatment strategy involving most of the already known therapies. Similar pathogenetic mechanisms might be engaged in the enhancement of cellular immunity (vaccination) against melanoma.
  Experimental Dermatology 02/2011; 20(2):92-6. · 3.54 Impact Factor
• Article: First synthetic entry to the trimer stage of 5,6-dihydroxyindole polymerization: ortho-alkynylaniline-based access to the missing 2,7':2',7''-triindole.

  Luigia Capelli, Paola Manini, Alessandro Pezzella, Marco d'Ischia
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  ABSTRACT: 5,6-Dihydroxyindole oligomers are valuable synthetic targets for the structural characterization of eumelanin biopolymers as well as for the realization of bioinspired functional materials. An ortho-alkynylaniline-based strategy allowed the first access to a trimer, the missing 5,5',5'',6,6',6''-hexaacetoxy-2,7':2',7''-triindole, and its detection as a minor intermediate en route from 5,6-dihydroxyindole to eumelanin-like polymers.
  Organic & Biomolecular Chemistry 10/2010; 8(19):4243-5. · 3.70 Impact Factor
• Article: A reactive ortho-quinone generated by tyrosinase-catalyzed oxidation of the skin depigmenting agent monobenzone: self-coupling and thiol-conjugation reactions and possible implications for melanocyte toxicity.

  Paola Manini, Alessandra Napolitano, Wiete Westerhof, Patrick A Riley, Marco d'Ischia
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  ABSTRACT: Monobenzone (hydroquinone monobenzylether, 1) is a potent skin depigmenting agent that causes irreversible loss of epidermal melanocytes by way of a tyrosinase-dependent mechanism so far little understood. Herein, we show that 1 can be oxidized by mushroom tyrosinase to an unstable o-quinone (1-quinone) that has been characterized by comparison of its properties with those of a synthetic sample obtained by o-iodoxybenzoic acid-mediated oxidation of 1. Preparative scale oxidation of 1 with tyrosinase and catalytic l-DOPA, followed by reductive workup and acetylation, led to the isolation of two main products that were identified as the acetylated catechol derivative 4 and an unusual biphenyl-type dimer of 4, acetylated 5, arising evidently by coupling of 4 with 1-quinone. In the presence of l-cysteine or N-acetyl-l-cysteine, formation of 4 and 5 was inhibited, and the reaction led instead to monoadducts (6 or 9) and diadducts (7 and 8). A similar behavior was observed when the tyrosinase-promoted oxidation of 1 was carried out in the presence of sulfhydryl-containing peptides, such as reduced glutathione, or proteins, such as bovine serum albumin (BSA), as inferred by detection of adduct 9 by high pressure liquid chromatography-electrochemical detection (HPLC-ED) after acid hydrolysis. The generation and reaction chemistry of 1-quinone described in this article may bear relevance to the etiopathogenetic mechanisms of monobenzone-induced leukoderma as well as to the recently proposed haptenation hypothesis of vitiligo, a disabling pigmentary disorder characterized by irreversible melanocyte loss.
  Chemical Research in Toxicology 08/2009; 22(8):1398-405. · 3.78 Impact Factor