Activation of tyrosinase in mouse melanoma cell cultures

Summary Tyrosinase activity increased in Cloudman S-91 mouse melanoma cell homogenates incubated at 37°C for a minimum of 8 h. Enzyme activity continued to increase for 48h at which time the maximal level of activation was observed. Activation did not occur at 4°C and did not occur in the cytosol fraction of the cell, suggesting that the response was localized to melanosomes. The activated enzyme was resistant to solubilization with the nonionic detergent, Triton X-100, and preparation of homogenates in this detergent did not inhibit the temperature-dependent activation of the melanosomal fraction of the cell. The activation process increased the V _Max of tyrosinase 10-fold and lowered the K _M by a factor of 2 as determined by the tyrosine hydroxylase assay. The increase in tyrosinase activity was detectable by three assay methods: tyrosine hydroxylation, melanin synthesis, and by tyrosine decarboxylation. The formation of melanin, however, was found to be 1/20 that of either tyrosine hydroxylation or decarboxylation, a finding which suggests that the melanin pathway may be blocked at 5,6-dihydroxyindole. The “self-activation” response could not be mimicked by incubating cell homogenates with cyclic AMP-dependent protein kinase. Activated tyrosinase could be inhibited by the addition of fresh cell extracts, a finding which suggests that tyrosinase inhibitors may be present in these cells. This investigation was supported by Public Health Service grants CA41425 and CA30393 awarded by the National Cancer Institute, Bethesda, MD and by a research grant from the Proctor and Gamble Company.     

驱虫斑鸠菊对人黑素瘤细胞增殖酪氨酸酶及黑素生成影响的研究

探讨驱虫斑鸠菊对A375人黑素瘤细胞株细胞增殖、黑素合成以及细胞内酪氨酸酶的作用。四甲基偶氮唑蓝（MTT）比色法测定药物对细胞增殖的影响;采用酶学方法研究药物对酪氨酸酶活性的影响;475nm比色法测定黑素含量。结果表明驱虫斑鸠菊可以增强A375人黑素瘤细胞增殖,提高酪氨酸酶和黑色素合成能力。说明驱虫斑鸠菊治疗白癜风是通过增强酪氨酸酶活性及促进黑素合成而发挥作用的。     

L-Tyrosine stimulates induction of tyrosinase activity by MSH and reduces cooperative interactions between MSH receptors in hamster melanoma cells

L-tyrosine, a precurosr to melanin, has recently been shown to be a regulator of the melanogenic pathway in some cultured melanoma cell lines. In this paper we demonstrated that L-tyrosine, besides increasing binding capacity for MSH, decreased cooperativity between MSH receptors and increased the level of tyrosinase induction by MSH. Apparently, regulation of MSH receptor activity by L-tyrosine involves specific changes in the interactions between the receptors and modification of the cellular responsiveness to MSH.     

Interactions between insulin and the cyclic AMP system of Cloudman S91 mouse melanoma cells

Insulin inhibits the proliferation of wild-type Cloudman S91 mouse melanoma cells. The effects, which are mediated through specific, high-affinity receptors for insulin, appear to involve interactions with the cAMP system. Our evidence is as follows: (1) Cloudman cells have a cAMP requirement for proliferation and pigmentation. Exposure of cells to insulin results in a lowering of intracellular cAMP levels and inhibition of both cell division and pigment formation. (2) The effects of insulin are reversed by agents which raise cAMP levels, or by the cAMP analogue dibutyryl cAMP. (3) A mutant cell line with a temperature-dependent requirement for cAMP is most sensitive to the growth inhibitory effects of insulin when its requirements for cAMP are maximal. (4) Mutants selected only for alterations in their response to Insulin frequently have concomitant alterations in their cAMP systems. (5) The melanotropin-responsive adenylate cyclase system is stimulated following prolonged exposure of cells in culture to insulin. Although we do not know the mechanism(s) for the interactions between the insulin and the cAMP system, our initial findings suggest that protein phosphorylation/dephosphorylation reactions are involved.     

In vitro modulation of proliferation and melanization of melanoma cells by citrate

B16/F10 murine melanoma cells were grown for 24 and 36 h in Dulbecco's modified Eagle medium in presence of 10-20 mM trisodium citrate. The intracellular melanin concentration and the melanin secreted in the extracellular medium was estimated. It is observed that 20 mM citrate stimulates extracellular melanin secretion in B16/F10 melanoma cells by 200% at 36 h treatment. The intracellular melanin content increased by 90%. This stimulatory effect of citrate was totally abolished when these cells were grown in presence of 1 mM phenyl thiourea, a specific inhibitor of tyrosinase activity. Citrate (0.1-5 mM) had no effect on dopa oxidase activity either at pH 5.0 or at pH 6.8. There was no increase in the tyrosinase specific activity in presence of citrate. The increased melanin synthesis was shown to be due to stimulation of cellular tyrosine hydroxylase activity by citrate. It has been suggested that enhanced melanin synthesis results in an increased production of metabolites that are toxic to the growth of melanoma cells. We have studied the effect of citrate on cellular proliferation. Following 24 and 36 h treatment with citrate, the cells exhibited a dose-dependent decrease in proliferation. In presence of 20 mM citrate the cell number was only up to 50% of the control cultures after 36 h of incubation. The growth retardation was not due to cytotoxicity. Citrate, a natural metabolite, is a unique molecule which may be involved in the regulation of melanin biosynthetic pathway, since it enhances melanogenesis by increasing the hydroxylase activity of tyrosinase which is the regulatory enzyme of this pathway. These observations add further support to the critical role of intramelanosomal pH in regulation of melanogenesis.     

Comparison of tyrosinase activity and stability in aqueous and nearly nonaqueous environments

The activity and stability of tyrosinase were compared in aqueous and two nearly nonaqueous environments (a low-water solvent system and reversed micelles). Initial rates of oxidation of methyl- and butyl-catechols in aerosol OT, sodium di-2-ethylhexylsulfosuccinate, (AOT)/isooctane micelles were higher than in aqueous solution, showing superactivity, whereas lower rates were obtained in cetyltri-methylammonium bromide (CTAB)/hexane/chloroform micelles and in chloroform containing celite-supported enzyme. The enzyme was most stable in chloroform, whereas half-lives in aqueous buffer and in both AOT and CTAB micelles were lower. The optimal reaction temperatures were higher in both micelles than in water but lower in chloroform. Thus, tyrosinase was active in ≤3.5% v/v water with apparent K_m, V_max, and activation energies reasonably similar to those in aqueous solution.     

Effect of thymidine analogs on tyrosinase activity and mRNA accumulation in mouse melanoma cells

The thymidine analog 5-bromodeoxyuridine (BrdU) has been found to inhibit terminal differentiation of a variety of cell types without significantly affecting the growth of these cells. We have compared the effect of BrdU with two other thymidine analogs, 5-iododeoxyuridine and 5-fluorodeoxyuridine, on the growth, tyrosinase activity, and tyrosinase-mRNA accumulation in BL-6 mouse melanoma cells. We show that all three analogs inhibit growth and tyrosinase activity, but only BrdU significantly inhibits the accumulation of tyrosinase mRNA. We consider these results in the light of current understanding of BrdU action.     

Laccase and tyrosinase activities in lichens

Phenoloxidase activity was found in lichenized ascomycetes belonging to different taxonomic groups. Most of the epigeic and epilithic lichens of the order Peltigerales were found to possess both laccase and tyrosinase activities; the lichens of the order Lecanorales possessed only laccase activity, which was an order of magnitude lower than that of Peltigerales. Water-soluble phenoloxidases were present only in peltigerous lichens: activity that could be washed out from intact thalli comprised 10% of that released from disrupted thalli. The activity of the peltigerous lichens and the release of soluble phenoloxidases into the medium increased when the thalli were rehydrated quickly. In some of the lichens tested, the phenoloxidase activity was stimulated by desiccation-rehydration cycles. The oxidases discovered may play an important role in the phenolic metabolism of lichens and be involved in the biochemical reaction of humus synthesis during primary soil formation, which may be a previously unknown geochemical function of these symbiotic microorganisms.     

Action of endogenous proteases on the distribution of tyrosinase isozymes in Harding-Passey mouse melanoma

A high percentage of the total tyrosinase found in Harding-Passey mouse melanoma occurs as a soluble form. This paper shows that melanosomal tyrosinase can be solubilized by several endogenous proteases to yield active tyrosinase. This enzyme, once proteolytically solubilized, can be further degraded, leading to enzyme inactivation. The nature and specificity of the main proteases involved in the solubilization process change depending on the size and necrosis stage of the tumour. Cathepsin B could be the main protease responsible for the solubilization in small tumours (less than 0.5 g). Large tumours are rich in necrotic cells, and cathepsin D and serine-proteases are the main hydrolytic enzymes involved in the proteolytic action on melanosomes. These results support the view that the high activity of tyrosinase found in the soluble fraction of malignant melanoma is mainly an artefact resulting from degradation of melanosomes by a variety of endogenous proteases, rather than the result of the actual occurrence of high levels of an independent cytosolic isozyme.     

MSH binding in bomirski amelanotic hamster melanoma cells is stimulated by L-tyrosine

Bomirski Ab amelanotic melanoma cells have recently been shown to undergo striking phenotypic changes when precursors of the melanogenic pathway, L-tyrosine and L-dopa, are added to the culture medium. The changes include increased tyrosinase activity andde novo synthesis of melanosomes and melanin. L-tyrosine and L-dopa appeared to elicit these responses through separate but overlapping regulatory pathways. Here we show an additional effect of L-tyrosine: stimulation of MSH binding capacity. Cells cultured for 24–48 hours in the presence of 200 M L-tyrosine display a 3–4 fold increase in their ability to bind¹²⁵l--MSH. L-dopa did not stimulate MSH binding under the same conditions. In control experiments neither L-tyrosine nor L-dopa had any effect on insulin binding. The amelanotic cells respond to MSH with increased dendrite formation, increased tyrosinase activity without melanin production, and decreased growth rate.     

Synthesis and degradation of tyrosinase in cultured melanoma cells

The tyrosinase (EC 1.14.18.1) activity of cultured B-16 mouse melanoma cells (C2M) in the stationary phase depends greatly on whether the culture medium contains glucose or galactose. The activity in medium containing galactose was about ten times that in medium containing glucose at pH 7.2. This difference in tyrosinase activity was concluded to be due to a shift of balance between synthesis and degradation of the enzyme. Experiments were conducted with stationary phase cultures in the presence of cycloheximide. The melanoma cells did not synthesize tyrosinase in medium containing glucose in the stationary phase. But when they were cultured under identical conditions, except that glucose was replaced by galactose, they continued to synthesize tyrosinase. The rate of synthesis in medium containing galactose at pH 6.3 was one third of that in the same medium at about pH 7, in which the increase in specific activity of tyrosinase per day was about 30 nmoles/mg cell protein per hr. The rate of degradation of the enzyme was practically the same in medium containing glucose as in medium containing galactose, and largely depended on the pH of the culture medium. At pH 6.3, the half-life was about one third of that at pH 7.2, where it was about 1.8 days. The degradation at acidic pH values was much reduced by ammonium salt and was strongly inhibited by the protease inhibitor, leupeptin.     

A radiation resistance factor in cultured Cloudman S91 mouse melanoma cells.

The gamma-ray survival of a radiation-sensitive amelanotic subclone of Cloudman S91 mouse melanoma, S91/amel, is increased by the presence in the tissue culture dishes of heavily irradiated cells from the same cell line (amel-HRCells) and from clonally related melanotic S91/I3 radioresistant cells (I3-HRCells). The D0 of the target S91/amel cells increases from 1.25 to 2.08 Gy in the presence of 60,000 heavily irradiated S91/amel cells per dish. The presence of I3-HRCells in dishes of target S91/I3 cells does not increase their radioresistance. Comparable numbers of I3-HRCells are more effective than amel-HRCells at increasing survival of target S91/amel cells irradiated with 3 Gy of gamma rays. Conditioned medium from the S91 melanoma cells also increases the radioresistance of S91/amel, but is not as effective as the HRCells. Unirradiated cells can condition the medium as effectively as irradiated cells. It is concluded that the radiosensitive mouse melanoma cell line is made significantly more resistant by a diffusible cellular factor(s) elaborated more proficiently by radiation-resistant cells.     

Albinism in the domestic cat (Felis catus) is associated with a tyrosinase (TYR) mutation

Albino phenotypes are documented in a variety of species including the domestic cat. As albino phenotypes in other species are associated with tyrosinase (TYR) mutations, TYR was proposed as a candidate gene for albinism in cats. An Oriental and Colourpoint Shorthair cat pedigree segregating for albinism was analysed for association with TYR by linkage and sequence analyses. Microsatellite FCA931, which is closely linked to TYR and TYR sequence variants were tested for segregation with the albinism phenotype. Sequence analysis of genomic DNA from wild-type and albino cats identified a cytosine deletion in TYR at position 975 in exon 2, which causes a frame shift resulting in a premature stop codon nine residues downstream from the mutation. The deletion mutation in TYR and an allele of FCA931 segregated concordantly with the albino phenotype. Taken together, our results suggest that the TYR gene corresponds to the colour locus in cats and its alleles, from dominant to recessive, are as follows: C (full colour) > c(b) (burmese) > or = c(s) (siamese) > c (albino).     

Inhibition of tyrosinase activity and protein synthesis in melanoma cells by calcium ionophore A23187

Calcium ionophore A23187 lowers basal levels of tyrosinase and inhibits the MSH-induced increase in tyrosinase in Cloudman S-91 mouse melanoma cell cultures. Ionophore at a concentration of 10(-6) g/ml causes a 50% reduction in basal levels of tyrosinase and inhibits the MSH stimulated level of enzyme. Ionophore A23187 also inhibits the PGE1 mediated stimulation of tyrosinase, as well as the rise in enzyme activity observed in cells exposed to either theophylline (1 mM) or dbcAMP (10(-4)M). Ionophore does not affect basal levels of cyclic AMP nor the elevated levels produced by either MSH or PGE1, suggesting then, that the antagonistic activity of A23187 is localized to a point in the pathway of tyrosinase activation distal to the formation of cAMP. Ionophore causes a rapid and marked (greater than 50%) inhibition of cellular protein synthesis and it is possible that this calcium mobilizing compound may exert its inhibitory effects on tyrosinase activity by causing a general reduction in cellular translation. Since the inhibition of protein synthesis occurs in cells exposed to ionophore in either the presence or absence of calcium in the medium, it seems, likely that the ionophore may exert its effects by causing the release of calcium from intracellular sites.     

Influencing the monophenolase/diphenolase activity ratio in tyrosinase

Tyrosinase is a type 3 copper enzyme with great potential for production of commercially valuable diphenols from monophenols. However, the use of tyrosinase is limited by its further oxidation of diphenols to quinones. We recently determined the structure of the Bacillus megaterium tyrosinase revealing a residue, V218, which we proposed to take part in positioning of substrates within the active site. In the structure of catechol oxidase from Ipomoea batatas, the lack of monophenolase activity was attributed to the presence of F261 near CuA. Consequently, we engineered two variants, V218F and V218G. V218F was expected to have a decreased monophenolase activity, due to the bulky residue extending into the active site. Surprisingly, both V218F and V218G exhibited a 9- and 4.4-fold higher monophenolase/diphenolase activity ratio, respectively. X-ray structures of variant V218F display a flexibility of the phenylalanine residue along with an adjacent histidine, which we propose to be the source of the change in activity ratio.     

Regulation of the catalytic activity of preexisting tyrosinase in black and Caucasian human melanocyte cell cultures

The activity of tyrosinase, the rate-limiting enzyme for melanin synthesis, is higher in Black skin melanocytes than in melanocytes derived from Caucasian skin. This variation in enzyme activity is not due to differences in tyrosinase abundance or tyrosinase gene activity, but, rather, is due to differences in the catalytic activity of preexisting tyrosinase. In melanocytes, tyrosinase is localized to the membrane of melanosomes and in Caucasian melanocytes the melanosome-bound enzyme is largely inactive. Conversely, in melanosomes of Black melanocytes, tyrosinase has high catalytic activity. Treatment of Caucasian melanocytes with the lysosomotropic compound ammonium chloride or with the ionophores nigericin and monensin results in a rapid and pronounced increase in tyrosinase activity. This increase occurs without any change in tyrosinase abundance, indicating that these compounds are increasing the catalytic activity of preexisting enzyme. Inhibition of the vacuolar proton pump V-ATPase by treatment of Caucasian melanocytes with bafilomycin also increases tyrosinase activity. In contrast to the 10-fold increase in tyrosinase observed in Caucasian melanocytes, neither ammonium chloride, monensin, nigericin, nor bafilomycin is able to increase the already high level of tyrosinase activity present in melanosomes of melanocytes derived from Black skin. Finally, staining of Caucasian melanocytes with the fluorescent weak base acridine orange shows that melanosomes of Caucasian, but not Black, melanocytes are acidic organelles. These data support a model for racial pigmentation that is based on differences in melanosome pH in Black and Caucasian skin types. The models suggests that melanosomes of Caucasian melanocytes are acidic, while those of Black individuals are more neutral. Since tyrosinase is inactive in an acid environment, the enzyme is largely inactive in Caucasian melanosomes but fully active in Black melanosomes.     

Inhibitory effects of hinokitiol on tyrosinase activity and melanin biosynthesis and its antimicrobial activities

The inhibitory effects of hinokitiol, a constituent of the woody oils isolated from Cupressaceae heartwood, on mushroom tyrosinase and melanin formation in B16 melanoma cells as well as its antimicrobial activity were investigated. Our results showed that hinokitiol could strongly inhibit both monophenolase activity and diphenolase activity of the enzyme and the inhibition was reversible. The IC₅₀ values were estimated as 9.67?μM for monophenolase activity and 0.21?μM for diphenolase activity. The lag time of the monophenolase activity was not obviously lengthened by the compound. Kinetic analyses showed that the inhibition mechanism of hinokitiol was a mixed-type inhibition of the diphenolase activity. Hinokitiol effectively inhibited both cellular tyrosinase activity and melanin biosynthesis in B16 melanoma cells with significant cytotoxicity. Furthermore, it was found that hinokitiol could inhibit the proliferation of Salmonella enteritidis, Escherichia coli, Bacillus subtilis, Staphyloccocus aureus, Klebsiella pneumoniae, and Ralstonia solanacearum to different extents. This research may widen the use of hinokitiol in the fields of food preservation, depigmentation, and insecticide use.