Different susceptibilities of melanoma cells to retinoic acid-induced changes in melanotic expression

The effect of retinoic acid on murine B16 melanoma cell growth, tyrosinase activity and melanin synthesis was investigated. Retinoic acid inhibited the growth of B16F1, B16F10 and B16BL6 melanoma cells, but enhanced melanin synthesis only in the B16F1 cells. The B16F10 and B16BL6 cells exhibited retinoic acid-induced suppression of tyrosinase activity and melanin synthesis, which was most apparent in the B16F10 cell variant. For comparison, Cloudman S91 melanoma cells proved to be particularly sensitive to retinoic acid-induced growth inhibition and stimulation of the expression of their melanotic phenotype. These results suggest considerable heterogeneity in the B16 melanoma with respect to their response to retinoic acid.     

Melanogenesis inhibits respiration in B16-F10 melanoma cells whereas enhances mitochondrial cell content

Melanoma is a rare and aggressive skin tumor; the survival of patients diagnosed late is fairly low. This high mortality rate is due to the characteristics of the cells that allow them to be resistant to radiotherapy and conventional chemotherapy, besides of being able to evade the immune system. Melanin, the pigment responsible for skin, hair and eye color, seems to be involved in this resistance. The main function of melanin is to protect the cells against ultraviolet (UV) light by absorbing this radiation and reactive oxygen species (ROS) scavenging. But this pigment may have also a role as photosensitizer, because when it is irradiated with UVA light (320-400 nm), the generation of ROS was detected. Besides, the melanogenesis stimulation on B16-F10 cells resulted in cell cycle arrest, induction of a quiescent state, change in the expression of several proteins and alterations on ADP/ATP ratio. The present study aimed to investigate the influence of melanogenesis stimulation in mitochondrial function of B16-F10 melanoma cells. Therefore, we analyzed cells respiration, mitochondrial membrane potential (Δψ_m) and mitochondria mass in B16-F10 melanoma cells stimulated with 0.4 mM L-tyrosine and 10 mM NH₄Cl. Our results showed that the induction of melanin synthesis was able to reduce significantly the oxygen consumption after 48 h of stimulation, without changes of mitochondrial membrane potential when compared to non-stimulated cells. Despite of respiration inhibition, the mitochondria mass was higher in cells with melanogenesis stimulation. We suggest that the stimulation in the melanin synthesis might be promoting the inhibition of electrons transport chain by some intermediate compound from the synthesis of the pigment and this effect could contribute to explain the entry in the quiescent state.     

A 2H NMR study on alteration of the membrane organization of mouse B16 melanoma cells treated with 12-O-tetradecanoylphorbol-13-acetate

In order to monitor the membrane fluidity of cells without perturbation by an introduced probe, we developed a method for large-scale preparation of 2H-labeled melanoma cells for a 2H NMR study by incubating melanoma cells with [18,18,18-2H3]stearic acid/phosphatidylcholine liposomes for 2 h at 37 degrees C. It turned out that this treatment did not significantly change the cell viability, lipid metabolism or membrane fluidity. The 2H from C-18 of stearic acid is dominantly located at the original position of the fatty acid in the 2H-labeled membrane vesicles, as studied by a tracer experiment with [1-14C]stearic acid. We found that three to four 2H-labeled species were present at 19 degrees C in 2H NMR spectra of the 2H-labeled membrane vesicles prepared from B16 melanoma cells. The extent of peak-splittings due to 2H-quadrupole interaction decreased as the temperature rose, and a definite point of phase transition was not observed. At elevated temperature, 2H-labeled lipids undergo fast exchange between the bilayer and an isotropic phase such as oil phase of triolein or inverted micelles in lipid polymorphs. We further analyzed the change of membrane organization in mouse B16 melanoma cells treated with 12-O-tetradecanoylphorbol-13-acetate (TPA), which strongly inhibited melanogenesis. The magnitude of the quadrupole splitting at 19 degrees C in membranes from TPA-treated cells was significantly less (40%) than in the untreated control. This is mainly explained by decreased molecular ordering (fluidity) due to the increased amount of unsaturated fatty acids in the membranes of TPA-treated cells.     

Stimulation of melanin synthesis of B16-F10 mouse melanoma cells by bufalin.

Bufalin, which is one of prominent components of Chinese toad venom, was found to decrease the rate of cell proliferation of mouse melanoma clone B16-F10 cells and a concomitant stimulation of expression of its melanotic phenotype. The effect of bufalin on melanogenesis included stimulation of tyrosinase activity and increase of cellular melanin content. These effects became apparent after 48 hr exposure to 10(-4) M bufalin and increased thereafter. Other cardiotonic steroids, such as cinobufagin and ouabain, at the concentration of 10(-4) M for 6 days, also showed the stimulatory effect on melanin synthesis of B16-F10 cells, but not digitoxigenin.     

Investigation of the Regulation of Pigmentation in α-Melanocyte-Stimulating Hormone Responsive and Unresponsive Cultured B16 Melanoma Cells

In vitro melanocyte-stimulating hormone (MSH) stimulates melanogenesis in some, but not all, melanocytes and melanoma cells. In an attempt to explain this variation in response to αMSH, we examined cyclic adenosine monophosphate (cAMP) accumulation, tyrosinase activity, and melanin production in primary (1°) murine B16 melanoma cells and in two B16 cell lines (B16 F1 and B16 F10) that are known to respond to αMSH. In vivo all three B16 melanoma cell types produced pigmented tumours. In vitro αMSH increased tyrosinase activity and melanin content in the F1 and F10 cells but not in the B16 1° cells. αMSH, however, increased cAMP production in all three cell types, confirming that the inability of B16 1° cells to produce melanin in response to αMSH is not due to a lack of αMSH receptors or cAMP response to αMSH. Further, we present evidence for a separate pathway of melanogenesis that is independent of cAMP as calmodulin antagonists, which do not elevate cAMP, increased tyrosinase activity, and melanin production in both 1° and F1 cells.     

Investigation of the regulation of pigmentation in alpha-melanocyte-stimulating hormone responsive and unresponsive cultured B16 melanoma cells

In vitro melanocyte-stimulating hormone (MSH) stimulates melanogenesis in some, but not all, melanocytes and melanoma cells. In an attempt to explain this variation in response to alpha MSH, we examined cyclic adenosine monophosphate (cAMP) accumulation, tyrosinase activity, and melanin production in primary (1 degree) murine B16 melanoma cells and in two B16 cell lines (B16 F1 and B16 F10) that are known to respond to alpha MSH. In vivo all three B16 melanoma cell types produced pigmented tumours. In vitro alpha MSH increased tyrosinase activity and melanin content in the F1 and F10 cells but not in the B16 1 degree cells. alpha MSH, however, increased cAMP production in all three cell types, confirming that the inability of B16 1 degree cells to produce melanin in response to alpha MSH is not due to a lack of alpha MSH receptors or cAMP response to alpha MSH. Further, we present evidence for a separate pathway of melanogenesis that is independent of cAMP as calmodulin antagonists, which do not elevate cAMP, increased tyrosinase activity, and melanin production in both 1 degree and F1 cells.     

Increased level of p27 subunit of proteasomes and its co-localization with tyrosinase in amelanotic melanoma cells indicate its direct role in the regulation of melanin biosynthesis

Proteasomes have been shown to be involved in the regulation of melanin biosynthesis in melanoma cells. Here we report on the correlation between proteasome subunits and Tyrosinase (Tyr) activity in different cell phenotypes, and thereby regulation of melanin biosynthesis in B16F10 mouse melanoma cells. Our results indicated that the quantity of proteasome subunit p27 is higher and that of the enzyme Tyr and its activity are lower in amelanotic melanoma cells, while the reverse is true in melanotic melanoma cells. Proteasome subunit p27, compared to another subunit p31, shows increased co-localization with Tyr and Tyrosinase related protein 1 (Trp1) in amelanotic cells to a greater extent than that in melanotic cells. On exposure to cycloheximide, increased Tyr degradation was seen in amelanotic cells, as indicated by increased co-localization of p27 and Tyr. Further, exposure of amelanotic melanoma cells with proteasome-specific inhibitor MG132 resulted in an increased Tyr activity, increased levels of Tyr and Trp1, leading to increased melanin synthesis. These results therefore suggest that proteasomes, particularly p27 subunit, are directly involved in the regulation of melanin biosynthesis in mouse melanoma cells.     

Growth inhibition of murine melanoma by butyric acid and dimethylsulfoxide

Treatment of B16-F10 melanoma cells with dimethylsulfoxide (DMSO) or butyric acid (BA) inhibits cell growth and delays tumor appearance in syngeneic mice. Both agents induce morphological changes in these cells. Treatment of melanoma cells with DMSO results in a marked increase in tyrosinase activity and melanin content. BA, on the other hand, does not increase melanin content and decreases tyrosinase activity. The data show that there are marked differences in the effect of DMSO and BA on melanin biosynthesis, whereas both agents inhibit cell growth and cause a delay in tumor appearance. These findings indicate that decreased proliferation of melanoma cells and induction of melanin biosynthesis are not necessarily associated phenomena.     

Delayed alteration of membrane fluidity in intact cultured B-16 melanoma cells affected by ultraviolet irradiation

Lipid peroxidation in the plasma membrane has been reported to decrease membrane fluidity. We examined membrane fluidity in relation to lipid peroxidation processes after UV-B exposure of cultured B-16 melanoma cells. UV exposure promptly increased TBA-positive material(s), but alteration of membrane fluidity was delayed. Plasma membrane fluidity increased significantly 6 hours after exposure when the TBA-value(s) had become under the control level. To examine the direct effect of lipid peroxides on the fluidity, tert-butyl hydroperoxide was added to B-16 melanoma cells. Similar results were obtained with respect to membrane fluidity. These results suggest that lipid peroxidation at UV doses maintaining cell viability does not directly induce a significant alteration of membrane fluidity, but may influence the fluidity either during metabolizing processes of UV-induced lipid peroxides or during repair processes following oxidative cell membrane damage.     

Does melanin affect the low LET radiation response of Cloudman S91 mouse melanoma cell lines?

Melanin contains melanin-free radicals and can both absorb and produce additional free radicals and active oxygen species on exposure to various stimuli. Yet its role in the radiation responses of malignant melanoma has been little studied. In this report, three subclones of Cloudman S91 mouse melanoma clone PC1A varying in constitutive melanin content were compared with respect to killing by gamma irradiation. Radiation responses correlated with melanin content. The least melanotic line, S91/amel, was most sensitive and the most melanotic line, S91/I3, was most resistant. Curve fitting using the linear-quadratic model suggests that S91/amel is killed only by single event inactivations; S91/I3, only by double event inactivations; and S91/M1B, with intermediate melanin and radiation response, by both types of inactivations. Split dose experiments confirmed a lack of immediate split dose recovery in S91/amel and its existence in S91/I3. Potentially lethal damage and its repair could be demonstrated in both S91/amel and S91/I3. Double strand break (DSB) induction was evaluated as a function of gamma ray dose in DNA of S91/I3 and S91/amel, as well as in EMT6, a mouse mammary cancer line that lacks tyrosinase and melanin. The rates of induction were proportional to cellular melanization, i.e., the rate of DSB induction was greatest in S91/I3, least in EMT6. Levels of thioredoxin reductase (TR), glutathione reductase (GR), superoxide dismutase (SOD), and catalase (CAT) were determined in S91/amel and S91/I3. TR was the same in both cell lines, while the other three enzymes were 3- to 4-fold lower in S91/amel.(ABSTRACT TRUNCATED AT 250 WORDS)     

The effects of histamine H2 receptor antagonists on melanogenesis and cellular proliferation in melanoma cells in culture

B16-C3 murine melanoma, A375P human melanotic melanoma, and C32 human amelanotic melanoma cells were incubated in the presence of (0-4 mM) H2-antagonists, ranitidine and cimetidine. Cell proliferation, tyrosinase activity and melanin content were monitored. H2-antagonists stimulated tyrosinase activity and melanin accumulation in B16-C3 cells in a dose- and time-dependent manner. Stimulation of enzyme activity and pigment production was accompanied by inhibition of cellular proliferation in B16-C3 cells. The inhibitory concentration of cimetidine was approximately 2-fold higher than that of ranitidine. H2-antagonists failed to stimulate melanogenesis in A375P or C32 cells, but inhibited cellular proliferation in both cell lines. These results are the first demonstration of H2-antagonist induced phenotypic changes in malignant melanoma cells in vitro, and represent a novel mechanism for the previously described in vivo antitumor effects of these agents.     

Mechanism and inhibitory effect of galangin and its flavonoid mixture from Alpinia officinarum on mushroom tyrosinase and B16 murine melanoma cells

The whitening effects of the flavonoid constituents of Alpinia officinarum Hance were investigated on melanin biosynthesis in B 16 mouse melanoma cells, tyrosinase inhibition and UV absorption. The melanin content was reduced to 1.276 microg /10(5) cell for flavonoid mixture and 1.161 microg /10(5) cell for galangin while the melanin control was 1.632 microg/10(5) cell. Both flavonoid mixture and galangin reduced melanin production with an inhibition of 21.81% and 28.86% at a concentration of 26.5 microg/mL and 29 microg/mL (107.4 microM), respectively. Tyrosinase inhibition by the flavonoid mixture and galangin were higher at lower concentrations and galangin showed competitive inhibition at a concentration less than 21.23 microg/mL which was soluble. In addition, the flavonoid mixture and galangin showed a broad absorption band at 270 approximately 290 nm related to the UV-B area. These observations suggest that galangin may be a whitening agent and a promising candidate for prevention of skin cancer. This is the first full scale report on the evaluation of the whitening effect of galangin.     

Antioxidant activity of fluoxetine: Studies in mice melanoma model

In vivo effects of the antidepressant fluoxetine on spleen antioxidant status of C57BL/6 mice were studied using a melanoma experimental model. After a 14‐day treatment with fluoxetine (10 mg kg^?1 day^?1, i.p.), the endogenous antioxidant non‐enzyme (glutathione) and enzyme (superoxide dismutase (SOD) and glutathione peroxidase (GPx)) defense systems in spleen of healthy animals were not changed; the lipid peroxidation (LP) was also unchanged. When B16F10 melanoma cells were introduced in C57BL/6 mice 2 h before fluoxetine treatment, a drug‐protective effect against the melanoma‐induced oxidative changes (increased LP and decreased total glutathione (GSH)‐level, as well as antioxidant enzyme activities) in spleen was observed. Fluoxetine dose‐dependently reduced the amounts of free oxygen radicals (hydroxyl and superoxide anion radicals), generated in chemical systems. Taken together, the present results suggest that fluoxetine, acting as antioxidant, prevents from melanoma‐induced oxidative changes in mice spleen. Copyright © 2010 John Wiley & Sons, Ltd.     

抑制黑色素合成的乳酸菌胞外多糖的筛选和性质研究

【目的】筛选可抑制黑色素合成的乳酸菌胞外多糖。【方法】通过观察凝乳拉丝外观筛选产胞外多糖的乳酸菌菌株,测量胞外多糖对B16黑色素瘤细胞黑色素合成和细胞活力的影响。对胞外多糖进行纯化,并通过PMP衍生-HPLC、红外光谱、抑制酪氨酸酶活性、抗氧化能力对其单糖组成和结构、作用机制进行研究。【结果】筛选到一株乳酸菌Lactobacillus rhamnosus HLAB122,发酵产生的胞外多糖在5 g/L浓度下可使B16细胞黑色素产量下降至空白对照的32.7%,且在96 h内对细胞活力无影响。纯化后的多糖由鼠李糖、葡萄糖、半乳糖构成,各单糖摩尔比为1?5.44?5.37。该胞外多糖不抑制酪氨酸酶活力且抗氧化性微弱。【结论】L.rhamnosus HLAB122产生的胞外多糖在个人护理产品中有潜在应用价值。     

Role of Melanin as a Scavenger of Active Oxygen Species

The protective role of melanin, either synthetic or derived from a metastatic lung melanoma nodule, was studied in terms of its ability to interact with active oxygen species (O₂, H₂O₂, RO, ROO, etc.). Both melanins showed the ability to react with O₂. The superoxide dismutase-like activity corresponds to 21 and 10 U/mg for synthetic and tumor melanin, respectively. The latter value accounts for about 8% of the superoxide dismutase activity of cultured melanoma cells. Neither type of melanin showed catalase-like or glutathione peroxidase-like activity. Both types of melanin reacted with RO and ROO radicals as determined by inhibition of the lipid peroxidation reaction of rat liver homogenates. The spontaneous lipid peroxidation of rat liver homogenate was inhibited up to 90% and 80% by synthetic and tumor melanin with half-maximal effects at 2.5 and 5.5 μg melanin/ml, respectively. The 2,2-azobis-(2 amidino propane) (AAPH)-initiated lipid peroxidation of rat liver homogenate was inhibited up to 3% and 20% by synthetic and tumor melanin, with half maximal effect at 120 and 500 μg melanin/ml, respectively. Both types of melanin were able to protect the in vitro inactivation of glucose oxidase, which occurs in the presence of AAPH-generated radicals.     

Antioxidant and Anti-Melanogenic Effect of the Novel Synthetic Hexapeptide (SFKLRY-NH2)

The novel synthetic hexapeptide, Angio-S (SFKLRY-NH₂), induced angiogenesis in human endothelial cells and accelerated wound healing. Since the pathophysiology of a wound is similar to the skin-aging process, the antioxidant and anti-melanogenic effects of Angio-S were investigated in this study. The antioxidant effect was investigated in the dermal fibroblasts, and the skin-whitening effect was studied in melanoma B16 cells. Angio-S exhibited an antioxidant activity, which increased in a dose-dependent manner. A cell survival assay revealed that Angio-S aided dermal fibroblasts in the resistance of free radicals induced by tert-butyl hydroperoxide. In addition, activities of superoxide dismutase and glutathione peroxidase were enhanced after pre-treatment with Angio-S. Since antioxidants inhibit the chemical reactions leading to melanin formation, the anti-melanogenic effect of Angio-S was studied. Angio-S reduced the synthesis of melanin and inhibited the activity of tyrosinase in melanoma B16 cells. Although the underlying mechanism of inhibiting melanin synthesis was not fully studied, Angio-S may act as an anti-oxidant and directly inhibit tyrosinase during melanin biosynthesis. Collectively, these results indicate that Angio-S exhibits antioxidant and anti-melanogenic effects, and is a potential candidate for use as a skin rejuvenation agent considering the skin-rejuvenating effect at a relatively low concentration.     

Anisaldehyde, a melanogenesis potentiator

Anisaldehyde (4-methoxybenzaldehyde), previously reported as a tyrosinase inhibitor, did not inhibit melanogenesis in cultured B16-F10 melanoma cells but rather enhanced it. This adverse effect of anisaldehyde was accompanied by melanocytotoxicity in a dose-dependent manner up to 2 mM. The melanin content per cell at 1 mM was increased 5-fold compared to control and morphological observations showed the deposition of melanin pigments. Anisaldehyde was also examined against cultured human A375 melanoma cells.     

Involvement of phospholipase D1 in melanogenesis of mouse B16 melanoma cells

In response to alpha-melanocyte-stimulating hormone (alpha-MSH) or cAMP-elevating agents (forskolin and isobutylmethylxanthine), mouse B16 melanoma cells underwent differentiation characterized by increased melanin biosynthesis. However, the mechanism(s) underlying the regulation of melanogenesis during differentiation has not yet been clearly understood. Phospholipase D (PLD) has been reported to be involved in differentiation. This enzyme cleaves phosphatidylcholine upon stimulation with stimuli to generate phosphatidic acid. In the current study, the involvement of PLD in the regulation of melanogenesis characteristic of differentiation was examined using mouse B16 melanoma cells. Treatment of B16 cells with alpha-MSH was found to cause marked decreases in the PLD1 activity concurrent with its reduced protein level. Moreover, treatment of exogenous bacterial PLD also inhibited alpha-MSH-induced melanogenesis. To further investigate the role of PLD1 in the regulation of melanogenesis, we examined the effects of overexpression of PLD1 on melanogenesis in B16 melanoma cells. The B16 cells overexpressing PLD were prepared by transfection with the vector containing the cDNA encoding PLD1. The melanin contents in PLD1-overexpressing cells (B16/PLD1) were observed to be lower compared with those in the vector control cells (B16/Vec), concomitant with the decreases in both activity and protein level of tyrosinase, a key regulatory enzyme in melanogenesis. Moreover, overexpression of PLD1 resulted in a marked inhibition of melanogenesis induced by alpha-MSH. The inhibition of melanogenesis was well correlated with the decrease in the tyrosinase activity associated with its expression. These results indicated that PLD1 negatively regulated the melanogenic signaling by modulating the expression of tyrosinase in mouse B16 melanoma cells.     

Tyrosinase activities of cell-free extracts and living cells of cultured melanoma cells

Melanogenesis in the course of monolayer culture of a stably melanotic clonal line C₂M, derived from a mouse melanoma B 16, was investigated. Tyrosinase activity per cell of cell-free extracts was highest when the extract was prepared from cells in the mid-exponential phase of growth, when it was more than 6 times the activity of that prepared from a fully grown culture or a culture in the very early phase. On the other hand, the enzyme activity per cell of living cells in culture was highest in the early phase of culture and decreased rapidly to a level of less than one tenth of the maximum activity, in the stationary phase.The upper limit of population density of cultured melanoma cells permissive for melanin synthesis (2 to 3 × 10⁵ cells/cm²) was much higher than that of normal (nonneoplastic) melanocytes, which had been reported to produce melanin only under conditions of clonal growth.The relative efficiency of tyrosinase activity in situ, expressed by the ratio of tyrosinase activity in culture to that of cell-free extract, decreased rapidly in the exponential phase of growth. This decrease correlates to the cell density in the culture, and little if at all to the division rate, and suggests a suppressing mechanism of melanin synthesis working at the enzyme level.