Investigating the role of melanin in UVA/UVB- and hydrogen peroxide-induced cellular and mitochondrial ROS production and mitochondrial DNA damage in human melanoma cells

Skin cancer incidence is dramatically increasing worldwide, with exposure to ultraviolet radiation (UVR) a predominant factor. The UVA component initiates oxidative stress in human skin, although its exact role in the initiation of skin cancer, particularly malignant melanoma, remains unclear and is controversial because there is evidence for a melanin-dependent mechanism in UVA-linked melanoma studies. Nonpigmented (CHL-1, A375), moderately pigmented (FM55, SKmel23), and highly pigmented (FM94, hyperpigmented FM55) human melanoma cell lines have been used to investigate UVA-induced production of reactive oxygen species using FACS analysis, at both the cellular (dihydrorhodamine-123) and the mitochondrial (MitoSOX) level, where most cellular stress is generated. For the first time, downstream mtDNA damage (utilizing a quantitative long-PCR assay) has been investigated. Using UVA, UVB, and H(2)O(2) as cellular stressors, we have explored the dual roles of melanin as a photoprotector and photosensitizer. The presence of melanin has no influence over cellular oxidative stress generation, whereas, in contrast, melanin protects against mitochondrial superoxide generation and mtDNA damage (one-way ANOVA with post hoc Tukey's analysis, P<0.001). We show that if melanin binds directly to DNA, it acts as a direct photosensitizer of mtDNA damage during UVA irradiation (P<0.001), providing evidence for the dual roles of melanin.     

红色幼叶的适应意义探讨

很多木本植物的叶片会在春季和其他时期产生花青素而呈现红色, 该现象已经被众多学者所关注。本文对已有工作作了归纳总结。研究表明: 这种广泛存在的现象需要消耗营养和能量并影响光合作用, 并非只是代谢的副产品。前人以秋季红叶为研究对象, 主要提出了两大类假说: 第一类假说认为红叶是对强光、低温、干旱等恶劣环境的适应; 第二类认为红叶是植物通过化学防御警示、适口性差、隐蔽自身或暴露啃食者等方式来防御植食动物的啃食。这两类假说也都存在争议。目前对红色幼叶的研究相对较少且多侧重其作为独立视觉信号的作用, 而未能将红叶与植物的其他防御策略结合进行讨论。今后的研究应当综合环境因子的影响和啃食者的视觉分析, 并与植物其他出现红色的器官对比, 深入探讨红色幼叶的适应意义。     

Electron Transfer and Photoprotective Properties of Melanins in Solution

The polyquinoid nature of eumelanin(s) enables them to couple oxidation of electron donors with the reduction of electron acceptors. We have studied the ability of synthetic (Sigma) and “biological” (cuttlefish sepia) melanins to mediate electron transfer between hydroxybenzene donors (tyrosine, dopa, chemical depigmenters) and model acceptors (ferricyanide, tyrosinase). 1) Depending on the reductant, melanin either retards or accelerates ferricyanide reduction. Reaction kinetics are consistent with a mechanism involving non-interactive binding of both hydroxybenzene and ferricyanide to melanin prior to coupled electron transfer. 2) Melanins also act as an electron conduit in markedly accelerating the tyrosinase-catalyzed oxygenation of p-hydroxyanisole (MMEH). The active species appears to be a complex between melanin and MMEH. The magnitude of both effects depend on the type of melanin as well as its oxidation state. Sepia (eu)melanin appears to protect against UV-induced damage to acid-soluble collagen, as judged by irreversible loss of intrinsic collagen fluorescence. Photoprotection against this type of damage appears primarily to involve optical absorption/scattering by the pigment.     

Melanin protects melanocytes and keratinocytes against H2O2-induced DNA strand breaks through its ability to bind Ca2+

Reactive oxygen species (ROS) such as hydrogen peroxide (H(2)O(2)) are produced in the skin under the influence of UV radiation. These compounds are highly reactive and can induce DNA lesions in epidermal cells. Melanin is considered to protect human skin against DNA damage by absorbing UV radiation. We have investigated whether melanin can, in addition, offer protection against the effects of H(2)O(2) in human melanocytes and HaCaT keratinocytes. In the present study, it was shown that 40 and 100 microM H(2)O(2) increased the number of DNA strand breaks as measured using the comet assay, in melanocytes of Caucasian origin. In melanocytes of the same origin in which melanin levels were increased by culturing in presence of 10 mM NH(4)Cl and elevated l-tyrosine, H(2)O(2)-induced DNA damage was reduced compared to that in control melanocytes. Similarly, HaCaT cells that were loaded with melanin were better protected against H(2)O(2)-induced DNA strand breaks than control HaCaT cells. These protective effects of melanin were mimicked by the intracellular Ca(2+)-chelator BAPTA. Thus, BAPTA reduced the level of H(2)O(2)-induced DNA strand breaks in melanocytes. Like BAPTA, melanin is known to be a potent chelator of Ca(2+) and this was confirmed in the present study. It was shown that melanin levels in melanocytic cells correlated directly with intracellular Ca(2+) binding capacity and, in addition, correlated inversely with H(2)O(2)-induced increases in intracellular Ca(2+). Our results show that melanin may have an important role in regulating intracellular Ca(2+) homeostasis and it is suggested that melanin protects against H(2)O(2)-induced DNA strand breaks in both melanocytes and keratinocytes and through its ability to bind Ca(2+).     

Approaches to Increasing Skin Melanin with MSH Analogs and Synthetic Melanins

Increased public awareness of ultraviolet (UV) radiation‐induced skin cancers has lead to new interest in technologies for protection from sun exposure. Although many sun protection formulations are available, few of them attempt to achieve that provided by melanin itself, i.e., wide‐spectrum absorbance of radiant energy coupled with anti‐oxidant activity from a single product. In that regard, technologies in two separate areas are at or near the commercialization stage: 1) hormonal enhancement of natural skin melanin content, and 2) inclusion of natural and synthetic melanins in cosmetic formulations to impart melanin‐like color to the skin. In this article, these approaches are briefly summarized using as examples Melanotans I and II®, superpotent analogs of the melanin‐stimulating hormone melanocortin (MSH), and Melasyn®, a group of plant‐derived synthetic melanins that have successfully been incorporated into cosmetic formulations for use as sun protectants and as cover‐ups for problems resulting from uneven pigmentation, such as seen in vitiligo.     

Experimental Autoimmune Anterior Uveitis (EAAU): Induction by Melanin Antigen and Suppression by Various Treatments

The uveitogenicity of melanin has been a controversial subject for a long time, presumably as a result of the use of ill-defined preparations in the experiments. We have developed procedures for the preparation of purified uveitogenic melanins from the retinal pigment epithelium and choroid that are free from pathogenic retinal photoreceptor proteins. The active melano-antigen is located at the surface of the melanin granules and is probably identical in both tissues. It retains its pathogenicity in hot polar detergent and during in vitro proteolysis, but it is inactivated by macrophage phagocytosis and hydrolysis in hot hydrochloric acid. Lewis rats immunized with microgram doses of bovine retinal pigment epithelial or choroidal melanin develop severe experimental autoimmune anterior uveitis (EAAU) about 10 days later. Retinitis and pinealitis are not observed. Skin melanin prepared in a similar way evokes EAAU as well, but it is only weakly pathogenic. EAAU cannot be transferred by serum, and its development can effectively be inhibited by antibodies to the inciting antigen and by cyclosporin. Vitamin E treatment of the animals causes a delay in its onset. The results indicate that cell-mediated immunity plays a dominant role in the pathogenesis of EAAU. This is the first time it has been shown that purified ocular and skin melanins are able to induce an autoimmune disease. The relevance of this finding for the study of melanin-related immunopathology in man is discussed.     

New insights and advances on pyomelanin production: from microbial synthesis to applications

Pyomelanin is a brown-black phenolic polymer and results from the oxidation of homogentisic acid (HGA) in the L-tyrosine pathway. As part of the research for natural and active ingredients issued from realistic bioprocesses, this work re-evaluates the HGA pigment and makes an updated inventory of its syntheses, microbial pathways, and properties, with tracks and recent advances for its large-scale production. The mechanism of the HGA polymerization is also well documented. In alkaptonuria, pyomelanin formation leads to connective tissue damage and arthritis, most probably due to the ROS issued from HGA oxidation. While UV radiation on human melanin may generate degradation products, pyomelanin is not photodegradable, is hyperthermostable, and has other properties better than L-Dopa melanin. This review aims to raise awareness about the potential of this pigment for various applications, not only for skin coloring and protection but also for other cells, materials, and as a promising (semi)conductor for bioelectronics and energy.     

On the action and mechanism of withaferin-A from Withania somnifera, a novel and potent melanin dispersing agent in frog melanophores

The present work was carried out to determine the effects of lyophilized root extracts of Withania somnifera along with pure withaferin-A, on the isolated skin melanophores of frog, Rana tigerina which are disguised type of smooth muscle cells and offer excellent in vitro opportunities for studying the effects of pharmacological and pharmaceutical agents. The lyophilized extract of W. somnifera and its active ingredient withaferin-A induced powerful dose-dependent physiologically significant melanin dispersal effects in the isolated skin melanophores of R. tigerina, which were completely blocked by atropine as well as hyoscine. The per se melanin dispersal effects of lyophilized extracts of W. somnifera and its active ingredient withaferin-A got highly potentiated by neostigmine. It appears that the melanin dispersal effects of the extracts of W. somnifera and withaferin-A is mediated by cholino-muscarinic like receptors having similar properties.     

Approaches to increasing skin melanin with MSH analogs and synthetic melanins.

Increased public awareness of ultraviolet (UV) radiation-induced skin cancers has lead to new interest in technologies for protection from sun exposure. Although many sun protection formulations are available, few of them attempt to achieve that provided by melanin itself, i.e., wide-spectrum absorbance of radiant energy coupled with anti-oxidant activity from a single product. In that regard, technologies in two separate areas are at or near the commercialization stage: 1) hormonal enhancement of natural skin melanin content, and 2) inclusion of natural and synthetic melanins in cosmetic formulations to impart melanin-like color to the skin. In this article, these approaches are briefly summarized using as examples Melanotans I and II, superpotent analogs of the melanin-stimulating hormone melanocortin (MSH), and Melasyn, a group of plant-derived synthetic melanins that have successfully been incorporated into cosmetic formulations for use as sun protectants and as cover-ups for problems resulting from uneven pigmentation, such as seen in vitiligo.     

Melanogenesis in oocytes of wild-type and mutant albino axolotls

Melanogenesis during oogenesis in the wild-type and albino (a/a) axolotl was compared. Tyrosine-dopa oxidase activity, melanin accumulation, and melanosome development were correlated and the effect of the a gene on these biochemical and morphological events was examined. Studies of wild-type oocytes at the electron and light microscope level revealed that premelanosomes first appear in stage 2 oocytes. Mature melanosomes are present in stage 3 oocytes and steadily increase in number, reaching a maximum level in stage 6 oocytes. Melanosomes were detected in the albino. No obvious structural abnormalities were observed in these organelles, although they fail to accumulate melanin. Tyrosine-dopa oxidase (TDO) activity assayed radiometrically is at a very low level in stages 1 and 2 oocytes, reaches a maximum level in stage 3 oocytes, and declines to zero activity in stage 6 oocytes. In contrast to the finding with albino skin homogenates (Harsa-King, 1978), TDO activity was detected in albino oocytes. This activity never declined from its maximal stage 3 level. The addition of an inhibitor of proteolytic enzymes, phenylmethyl sulfonyl fluoride (PMSF), to the oocyte homogenization buffer completely blocks TDO activity in albino samples and reduces it somewhat in wild-type samples. It is suggested that TDO activity eliminated by PMSF represents TDO existing in an inactive form in vivo which is activated by proteolytic enzymes released upon homogenization. These results suggest that TDO is found only in an inactive state in albinos, a conclusion in agreement with the earlier work on albino skin melanocytes (Harsa-King, 1978). There is an inverse relationship between TDO activity and melanization in the wild type. The greater the amount of melanin deposited within the premelanosomes, the less enzyme activity is present. It is suggested, as it has been by others, that as melanin is synthesized within the confines of the oocyte melanosome, the active sites of the enzyme are covered up, resulting in its inactivation. The findings with the albino mutant support this hypothesis. No melanin deposition occurs in the albino, and TDO activity in PMSF-untreated samples does not decline from its maximal stage 3 level.     

The deceptive nature of UVA tanning versus the modest protective effects of UVB tanning on human skin

The relationship between human skin pigmentation and protection from ultraviolet (UV) radiation is an important element underlying differences in skin carcinogenesis rates. The association between UV damage and the risk of skin cancer is clear, yet a strategic balance in exposure to UV needs to be met. Dark skin is protected from UV-induced DNA damage significantly more than light skin owing to the constitutively higher pigmentation, but an as yet unresolved and important question is what photoprotective benefit, if any, is afforded by facultative pigmentation (i.e. a tan induced by UV exposure). To address that and to compare the effects of various wavelengths of UV, we repetitively exposed human skin to suberythemal doses of UVA and/or UVB over 2 weeks after which a challenge dose of UVA and UVB was given. Although visual skin pigmentation (tanning) elicited by different UV exposure protocols was similar, the melanin content and UV-protective effects against DNA damage in UVB-tanned skin (but not in UVA-tanned skin) were significantly higher. UVA-induced tans seem to result from the photooxidation of existing melanin and its precursors with some redistribution of pigment granules, while UVB stimulates melanocytes to up-regulate melanin synthesis and increases pigmentation coverage, effects that are synergistically stimulated in UVA and UVB-exposed skin. Thus, UVA tanning contributes essentially no photoprotection, although all types of UV-induced tanning result in DNA and cellular damage, which can eventually lead to photocarcinogenesis.     

Stimulation of skin's energy metabolism provides multiple benefits for mature human skin

As an organism ages, there is a decline in mitochondrial function and cellular energy balance. This decline is both accelerated by and can cause the formation of reactive oxygen species (ROS) that damage nuclear and mitochondrial DNA, lipid membranes as well as structural and catalytic proteins, especially those involved in energetic pathways of cells. Further, ROS have also been linked to some of the detrimental skin changes that occur as a result of photoaging. We have previously shown that levels of Coenzyme Q10 (CoQ10), a component of the respiratory chain in mitochondria, are reduced in skin cells from aging donors, and that topical supplementation can ameliorate processes involved in skin aging. Creatine is another important component of the cellular energy system and phosphocreatine, its phosphorylated form, functions as a reservoir for high energy phosphates. Unfortunately the creatine system and thus the energy storage mechanism in skin are negatively affected by aging and conditions of oxidative stress. This article reviews some of our in vivo data about the synergistic effects of combining a stabilized form of Creatine with CoQ10 and clearly depicts their beneficial effects as active ingredients in topical formulations.     

Melanin accelerates the tyrosinase-catalyzed oxygenation of p-hydroxyanisole (MMEH)

Although pigment melanin has long been though of as "inert," recent work has attested to its chemical reactivity. In this communication, we report that either commercial synthetic melanin prepared by persulfate oxidation of tyrosine ("Sigma melanin") or sepia melanin extracted from cuttlefish markedly accelerates the in vitro oxygenation of p-hydroxyanisole (MMEH), catalyzed by mushroom or B-16 melanoma tyrosinase. Kinetics of 4-methoxy-1,2-benzoquinone formation (lambda max = 413 nm) or of molecular O2 uptake were biphasic, with an initial slow rate ("lag time") followed by a fast linear increase. The biphasic response reflects an initial slow hydroxylation followed by a fast dehydrogenation. Added melanin markedly decreased the lag time but had little effect on subsequent dehydrogenation. Similar effects were observed for tyrosine itself. A complex between MMEH and melanin appears to be the "active" species in these reactions. The results indicate that melanin acts as an electron conduit, which accepts electrons from the substrate and transfers them to tyrosinase. The magnitude of the effect depends on the type of melanin as well as on its oxidation state. Kinetic analysis indicates that both melanins are very efficient at transferring electron to tyrosinase, and that Sigma melanin is roughly threefold more efficient than sepia melanin. The qualitative similarity of reaction between the synthetic and "natural" melanins suggests that the former may serve as a first approximation to the in vivo situation. On the other hand, the observed quantitative differences and the sensitivity of these results to the chemical state of melanin suggests that this methodology might eventually be adapted as a non-destructive probe of melanin in situ.(ABSTRACT TRUNCATED AT 250 WORDS)     

Date seed oil limit oxidative injuries induced by hydrogen peroxide in human skin organ culture

The skin is chronically exposed to pro-oxidant agents, leading to the generation of reactive oxygen species (ROS). To protect the skin against an over-load of oxidant species, we studied the chemoprotective effect of one new natural product: "date seed oil: DSO". This oil may serve as a potential source of natural antioxidants such as phenols and tocopherols. Here, the antioxidative potential of DSO was compared that of to extra virgin olive oil. Adult human skin was maintained in organ culture in the presence of the DSO and extra virgin olive oil before the addition of hydrogen peroxide (H2O2), in order to prevent the tissue from its oxidizing effects. Skin specimens were collected for histology and for melanin studies. In the investigated model system, DSO protects skin against oxidative injuries. It has a significant chemoprotective effect, by inhibition of damage caused by H_{2}O_{2} compared with specimens without such addition endowing with a radical scavenging ability. The various components from DSO were much more potent antioxidant and more free radical scavengers of the H2O2 than those of olive oil. Our study shows that topical DSO treatment of the skin stimulates events in the epidermis leading to repair skin damage possibly due to antioxidant synergisms.     

The Role of Alpha-Synuclein in Melanin Synthesis in Melanoma and Dopaminergic Neuronal Cells

The relatively high co-occurrence of Parkinson’s disease (PD) and melanoma has been established by a large number of epidemiological studies. However, a clear biological explanation for this finding is still lacking. Ultra-violet radiation (UVR)-induced skin melanin synthesis is a defense mechanism against UVR-induced damage relevant to the initiation of melanoma, whereas, increased neuromelanin (NM), the melanin synthesized in dopaminergic neurons, may enhance the susceptibility to oxidative stress-induced neuronal injury relevant to PD. SNCA is a PD-causing gene coding for alpha-Synuclein (α-Syn) that expresses not only in brain, but also in skin as well as in tumors, such as melanoma. The findings that α-Syn can interact with tyrosinase (TYR) and inhibit tyrosine hydroxylase (TH), both of which are enzymes involved in the biosynthesis of melanin and dopamine (DA), led us to propose that α-Syn may participate in the regulation of melanin synthesis. In this study, by applying ultraviolet B (UVB) light, a physiologically relevant stimulus of melanogenesis, we detected melanin synthesis in A375 and SK-MEL-28 melanoma cells and in SH-SY5Y and PC12 dopaminergic neuronal cells and determined effects of α-Syn on melanin synthesis. Our results showed that UVB light exposure increased melanin synthesis in all 4 cell lines. However, we found that α-Syn expression reduced UVB light-induced increase of melanin synthesis and that melanin content was lower when melanoma cells were expressed with α-Syn, indicating that α-Syn may have inhibitory effects on melanin synthesis in melanoma cells. Different from melanoma cells, the melanin content was higher in α-Syn-over-expressed dopaminergic neuronal SH-SY5Y and PC12 cells, cellular models of PD, than that in non-α-Syn-expressed control cells. We concluded that α-Syn could be one of the points responsible for the positive association between PD and melanoma via its differential roles in melanin synthesis in melanoma cells and in dopaminergic neuronal cells.     

Reproductive melanization may protect sperm from harmful solar radiation

Animal pigmentation is incredibly diverse, serving a variety of functions. However, the function of the pigmentation that surrounds the testes of some vertebrates is unknown. Why are the tissues surrounding the testes (scrotum, tunica vaginalis and/or tunica albuginea) melanized in some species but not others? We examined this question in bats, where there is extensive species-specific variation in the presence of darkly pigmented (melanized) tissues surrounding the male gonads, as well as diversity in their ecologies, mating systems, and physiologies. Using data from 136 species of bats, we found that melanin surrounding the testes and epididymis is associated with more exposed roosting sites (presumably with greater sun exposure- and UV radiation), and with the occurrence of long-term male sperm storage. These findings suggest that scrotal melanin may protect mature sperm from UV damage, and from oxidative damage in species with male sperm storage. We found no evidence of an association between group size or mating system with reproductive melanin, or that phylogeny explains the distribution of pigmentation. Although our study suggests that scrotal melanin may protect sperm, the mechanism remains unknown. We outline several avenues for future work on reproductive pigmentation aimed at investigating additional roles of reproductive melanization in male bats.     

Melanin both causes and prevents oxidative base damage in DNA: quantification by anti-thymine glycol antibody.

The present study employs immunological methods to measure modified bases in DNA. A polyclonal antibody specific for thymine glycol was used to quantify the level of thymine glycol in calf thymus DNA gamma-irradiated in solutions containing varying concentrations of DOPA-eumelanin. Melanin decreased the number of thymine glycols produced by 200 Gy at low melanin concentrations. At high melanin concentrations, the number of thymine glycols increased. Thymine glycol was also produced in unirradiated DNA-eumelanin mixtures. DOPA-eumelanin was found to produce single-strand breaks in supercoiled phi X174 RF DNA. The breaks were measured by conversion of form I to form II as detected by agarose gel electrophoresis. The level of damage produced by melanin could be modulated by agents known either to stabilize or to scavenge active oxygen species. These studies demonstrate that melanin can both scavenge and generate active free radicals.