Sharique A. Ali

Microbial Tyrosinases: Promising Enzymes for Pharmaceutical, Food Bioprocessing, and Environmental Industry

Tyrosinase is a natural enzyme and is often purified to only a low degree and it is involved in a variety of functions which mainly catalyse the o-hydroxylation of monophenols into their corresponding o-diphenols and the oxidation of o-diphenols to o-quinones using molecular oxygen, which then polymerizes to form brown or black pigments. The synthesis of o-diphenols is a potentially valuable catalytic ability and thus tyrosinase has attracted a lot of attention with respect to industrial applications. In environmental technology it is used for the detoxification of phenol-containing wastewaters and contaminated soils, as biosensors for phenol monitoring, and for the production of L-DOPA in pharmaceutical industries, and is also used in cosmetic and food industries as important catalytic enzyme. Melanin pigment synthesized by tyrosinase has found applications for protection against radiation cation exchangers, drug carriers, antioxidants, antiviral agents, or immunogen. The recombinant V. spinosum tryosinase protein can be used to produce tailor-made melanin and other polyphenolic materials using various phenols and catechols as starting materials. This review compiles the recent data on biochemical and molecular properties of microbial tyrosinases, underlining their importance in the industrial use of these enzymes. After that, their most promising applications in pharmaceutical, food processing, and environmental fields are presented.

Activation of ethylene-responsive p-hydroxyphenylpyruvate dioxygenase leads to increased tocopherol levels during ripening in mango

Mango is characterized by high tocopherol and carotenoid content during ripening. From a cDNA screen of differentially expressing genes during mango ripening, a full-length p-hydroxyphenylpyruvate dioxygenase (MiHPPD) gene homologue was isolated that encodes a key enzyme in the biosynthesis of tocopherols. The gene encoded a 432-amino-acid protein. Transcript analysis during different stages of ripening revealed that the gene is ripening related and rapidly induced by ethylene. The increase in MiHPPD transcript accumulation was followed by an increase in tocopherol levels during ripening. The ripening-related increase in MiHPPD expression was also seen in response to abscisic acid and to alesser extent to indole-3-acetic acid. The expression of MiHPPD was not restricted to fruits but was also seen in other tissues such as leaves particularly during senescence. The strong ethylene induction of MiHPPD was also seen in young leaves indicating that ethylene induction of MiHPPD is tissue independent. Promoter analysis of MiHPPD gene in tomato discs and leaves of stable transgenic lines of Arabidopsis showed that the cis elements for ripening-related, ethylene-responsive, and senescence-related expression resided within the 1590 nt region upstream of the ATG codon. Functionality of the gene was demonstrated by the ability of the expressed protein in bacteria to convert p-hydroxyphenylpyruvate to homogentisate. These results provide the first evidence for HPPD expression during ripening of a climacteric fruit.

Vertebrate melanophores as potential model for drug discovery and development: A review

Drug discovery in skin pharmacotherapy is an enormous, continually expanding field. Researchers are developing novel and sensitive pharmaceutical products and drugs that target specific receptors to elicit concerted and appropriate responses. The pigment-bearing cells called melanophores have a significant contribution to make in this field. Melanophores, which contain the dark brown or black pigment melanin, constitute an important class of chromatophores. They are highly specialized in the bidirectional and coordinated translocation of pigment granules when given an appropriate stimulus. The pigment granules can be stimulated to undergo rapid dispersion throughout the melanophores, making the cell appear dark, or to aggregate at the center, making the cell appear light. The major signals involved in pigment transport within the melanophores are dependent on a special class of cell surface receptors called G-protein-coupled receptors (GPCRs). Many of these receptors of adrenaline, acetylcholine, histamine, serotonin, endothelin and melatonin have been found on melanophores. They are believed to have clinical relevance to skin-related ailments and therefore have become targets for high throughput screening projects. The selective screening of these receptors requires the recognition of particular ligands, agonists and antagonists and the characterization of their effects on pigment motility within the cells. The mechanism of skin pigmentation is incredibly intricate, but it would be a considerable step forward to unravel its underlying physiological mechanism. This would provide an experimental basis for new pharmacotherapies for dermatological anomalies. The discernible stimuli that can trigger a variety of intracellular signals affecting pigment granule movement primarily include neurotransmitters and hormones. This review focuses on the role of the hormone and neurotransmitter signals involved in pigment movement in terms of the pharmacology of the specific receptors.

Histamine receptors in the skin melanophores of Indian bullfrog Rana tigerina

Histamine and 2-methyl histamine caused dose-dependent aggregation of the integumental melanophores of Rana tigerina both in vitro and in vivo. The aggregating effects were antagonised by mepyramine and metiamide, specific H1 and H2 receptor blockers, respectively. Compound 48/80 and EDTA augmented the melanin-aggregating effects of exogenously applied histamine and 2-methyl histamine in in vivo experiments. 4-Methyl histamine, a specific H2 receptor agonist, dispersed the frog melanophores in in vitro studies, the dispersing effects were blocked by metiamide.

Differential expression of the mango alcohol dehydrogenase gene family during ripening.

Alcohol dehydrogenases play an important role during fruit ripening and aroma production. Three full-length cDNAs (MiAdh1, 2 and 3) encoding alcohol dehydrogenases were obtained from mango fruit pulp using RT-PCR approaches. All three members displayed strong homology in the coding region when compared at the protein and nucleotide levels, however showed variations in untranslated regions. Expression patterns of these ADHs were different during fruit development and ripening. MiADH1 and MiADH2 transcripts accumulated at the onset of ripening in mango fruit whereas MiADH3 accumulated during early development of fruit. Expression analysis also indicated that mango ADHs were responsive to ethylene but regulated differently by ABA. MiADH1 was induced by ABA treatment whereas MiADH2 transcript was negatively regulated by ABA. MiADH3 did not respond to ABA in ripening fruit. Differences in substrate specificity for NADH and NADPH were also observed between the three enzymes. Total ADH enzyme activity correlated positively with increased transcript levels at the initiation of ripening.

Purification and Characterization of Melanogenic Enzyme Tyrosinase from Button Mushroom

Melanogenesis is a biosynthetic pathway for the formation of the pigment melanin in human skin. A key enzyme, tyrosinase, catalyzes the first and only rate-limiting steps in melanogenesis. Since the discovery of its melanogenic properties, tyrosinase has been in prime focus and microbial sources of the enzyme are sought. Agaricus bisporus widely known as the common edible mushroom, its taking place in high amounts of proteins, enzyme, carbohydrates, fibers, and low fat contents are frequently cited in the literature in relation to their nutritional value. In the present study tyrosinase from Agaricus bisporus was purified by ammonium sulphate precipitation, dialysis followed by gel filtration chromatography on Sephadex G-100, and ion exchange chromatography on DEAE-Cellulose; the enzyme was purified, 16.36-fold to give 26.6% yield on total activity in the crude extract and final specific activity of 52.19 U/mg. The SDS-PAGE electrophoresis showed a migrating protein band molecular weight of 95 kDa. The purified tyrosinase was optimized and the results revealed that the optimum values are pH 7.0 and temperature 35°C. The highest activity was reported towards its natural substrate, L-DOPA, with an apparent Km value of 0.933 mM. This indicated that tyrosinase purified from Agaricus bisporus is a potential source for medical applications.

In vitro responses of fish melanophores to lyophilized extracts of Psoralea corylifolia seeds and pure psoralen

Context: Psoralens are naturally occurring furanocumarins used in photochemotherapy of several skin diseases. They are obtained from dried ripe fruits of Psoralea corylifolia Linn. (Fabaceae). However, little research has been done to study the melanogenic activity of P. corylifolia seeds and their active ingredients on the pigment cells, the melanophores taking account of their cholinergic activity. Objective: The present work was carried out to determine the effects of lyophilized seed extracts of P. corylifolia, along with pure psoralen on the isolated scale melanophores of Channa punctatus Bloch. (Channidae), which are a disguised type of smooth muscle cells and offer excellent in vitro opportunities for studying the effects of drugs. Materials and methods: Effects of lyophilized extracts of P. corylifolia and pure psoralen were studied on the isolated scale melanophores of C. punctatus as per the modified method of . Results: The lyophilized extract of P. corylifolia and its active ingredient psoralen caused significant melanin dispersal responses leading to darkening of the fish scale melanophores, which were completely antagonized by atropine and hyoscine. These melanin dispersal effects were also found to be markedly potentiated by neostigmine, an anticholinesterase agent. Discussion: In the present study, the lyophilized extract of P. corylifolia seeds and standard psoralen in different dose ranges induced powerful melanin dispersal effects of the previously adrenaline-aggregated isolated scale melanophores of C. punctatus. Comparatively, psoralen caused a more sustained and powerful melanin dispersal within the isolated fish melanophores and interestingly the concentrations required to achieve maximal dispersion of melanophore were 10 times less than that of lyophilized seed extract of P. corylifolia. The physiologically significant dose-related melanin dispersion effects of lyophilized P. corylifolia seeds and synthetic psoralen per se were found to be completely abolished by atropine and hyoscine, which are specific cholino-muscarinic receptor blockers. These data strongly indicate that in the fish C. punctatus, the dispersion of melanin granules within the scale melanophores is mediated by choline receptors of muscarinic nature. Conclusion: It appears that the melanin dispersal effects of the extracts of P. corylifolia and pure psoralen leading to skin darkening are mediated by cholino-muscarinic- or cholino-psoralen-like receptors having similar properties.

Effect and mechanism of action of resveratrol: a novel melanolytic compound from the peanut skin of Arachis hypogaea

Purpose: The present work was carried out to determine the effects of ethanolic extracts of Arachis hypogaea and its active ingredient resveratrol on the isolated tail melanophores of the Bufo melanostictus to find the mechanism of skin lightening at the cellular level. Methods: The tail melanophores of the tadpole B. melanostictus were assayed using the mean melanophore size index and their responses were recorded in presence of various concentrations of the plant extract and its active ingredient along with specific antagonists and potentiator. Results: Significant skin lightening activity of the extract of A. hypogaea and its active ingredient resveratrol was observed on the tail melanophores of tadpole. The pigment cells responded by distinct aggregation leading to skin lightening, this effect was reversible, as re-immersion in physiological saline made the melanophores return to their normal intermediate state. These melanin aggregating effects were completely blocked by propanolol (beta blocker) and partially blocked by prazosin (alpha blocker) and were also found to be highly potentiated by reserpine. Conclusion: These studies suggest that the active ingredient of A. hypogaea such as resveratrol can act as a sympathomimetic compound and induce aggregation of melanophores of tadpole B. melanostictus via the induction of beta type of the adrenoceptors. The present study opens new vistas for the use of A. hypogaea and its active ingredient, resveratrol for its clinical application as a nontoxic melanolytic compound for the treatment of hyperpigmentation.

5‐HT receptors as novel targets for optimizing pigmentary responses in dorsal skin melanophores of frog, Hoplobatrachus tigerinus

BACKGROUND AND PURPOSE Biochemical identification of 5‐HT has revealed similar projection patterns across vertebrates. In CNS, 5‐HT regulates major physiological functions but its peripheral functions are still emerging. The pharmacology of 5‐HT is mediated by a diverse range of receptors that trigger different responses. Interestingly, 5‐HT receptors have been detected in pigment cells indicating their role in skin pigmentation. Hence, we investigated the role of this monoaminergic system in amphibian pigment cells, melanophores, to further our understanding of its role in pigmentation biology together with its evolutionary significance.

Psoralea corylifolia extracts stimulate cholinergic-like psoralen receptors of tadpole-tail melanophores, leading to skin darkening.

The present work was carried out to determine the effects of lyophilized seed extracts of Psoralea corylifolia along with pure psoralen, its active ingredient on the isolated tail-piece melanophores of Bufo melanostictus, a type of disguised smooth muscle cells, which offer excellent in vitro opportunities for studying the effects of pharmacological and pharmaceutical agents. In the present study, it was found that lyophilized extract of P. corylifolia and its active ingredient psoralen induced powerful, dose-dependent, physiologically significant melanin dispersal effects in the isolated tail melanophores of B. melanostictus, which were completely blocked by atropine as well as hyoscine. The per se melanin dispersal effects of lyophilized extracts of P. corylifolia and its active ingredient psoralen were highly potentiated by neostigmine. It appears that the melanin dispersal effects of the extracts of P. corylifolia and psoralen are mediated by cholino-muscarinic or cholino-psoralen like receptors having similar properties that need to be studied further.