Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts:   Target Concepts:
Query: EC:1.10.3.1 (tyrosinase)
 9,065 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The amino acid composition of melanosomes from human and Harding-Passey mouse melanomas and from pigmented tissues of cattle eyes isolated according to BOLT was studied. The 18 current amino acids and moreover dopa were found in all the hydrolysates studied. By means of apolar/polar amino acid ratio suggested by HATCH the possible properties of melanosomal protein(s) were infered. The higher level of cysteine and lysine in mouse melanosomes as compared with tyrosinase supports the theory of special matrix protein in melanosomes. Lysine seems to have a role in regulation of the quantity of synthesized melanin.
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PMID:Comparative study of the amino acid composition of some tumor and normal melanosomes. 116 Nov 15

Several genes critical to the regulation of melanin production in mammals have recently been cloned and characterized. They map to the albino, brown, and slaty loci in mice, and encode proteins with similar structures and features, but with distinct catalytic capacities. The albino locus encodes tyrosinase, an enzyme with three distinct catalytic activities--tyrosine hydroxylase, 3,4-dihydroxyphenylalanine (DOPA) oxidase and DHI (5,6-dihydroxyindole) oxidase. The brown locus encodes TRP-1 (tyrosinase-related protein-1), which has the same, but greatly reduced, catalytic potential. The slaty locus encodes TRP-2, another tyrosinase related-protein, which has DOPAchrome tautomerase activity. In this study we have examined the enzymatic interactions of these proteins, and their regulation by a novel melanogenic inhibitor. We observed that tyrosinase activity is more stable in the presence of TRP-1 and/or TRP-2, but that the catalytic function of TRP-2 is not affected by the presence of TRP-1 or tyrosinase. Other factors also may influence melanogenesis and a unique melanogenic inhibitor suppresses tyrosinase and DOPAchrome tautomerase activities, but does not affect the spontaneous rate of DOPAchrome decarboxylation to DHI. The results demonstrate the catalytic functions of these proteins and how they stably interact within a melanogenic complex in the melanosome to regulate the quantity and quality of melanin synthesized by the melanocyte.
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PMID:Functional properties of cloned melanogenic proteins. 129 7

Hair follicular tyrosinase activity was measured during hair growth in neonatal, pubertal, and adult C3H-HeAvy mice that show differences in coat color as a result of changes in the synthesis of eumelanin and pheomelanin. Tyrosinase activity increased during hair growth in all mice but higher levels were found at puberty, when the mice grow a dark, eumelanin coat of hair, than during early and adult life, when the hair follicular melanocytes produce mainly pheomelanin. This suggests that tyrosinase is more important for the synthesis of eumelanin than that of pheomelanin. The increased tyrosinase activity associated with eumelanogenesis in the pubertal mice could not be explained by enhanced transcription of the tyrosinase gene or enzyme synthesis and appeared to be the result of a post-translational activation. Such an activation of tyrosinase was lacking in the neonatal and adult mice; in the latter this was accompanied by a reduction in the glycosylation of tyrosinase and the proportion of enzyme associated with the melanosomal fraction. Our findings suggest that post-translational mechanisms are important control points in the regulation of tyrosinase and that differences in their level of activation are responsible for determining the patterns of melanogenesis in the C3H-HeAvy mice, but it is still not clear how these mechanisms are regulated. Although cyclic AMP increased tyrosinase synthesis it had no post-translation activating effect. The neonatal mice, unlike their pubertal and adult counterparts, also lacked dopachrome converting activity and TRP tyrosinase-related protein-1 expression.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Tyrosinase and the regulation of coat color changes in C3H-HeAvy mice. 129 16

Staurosporine, a protein kinase (PK) inhibitor, phorbol-12-myristate-13-acetate (PMA), a PKC activator and A23187 calcium ionophore were added to human melanocyte cultures with or without dibutyryl cyclic AMP (dbcAMP). After 2 days' incubation, changes in various melanogenic factors were examined such as tyrosinase activity and the amount of tyrosinase-related protein (TRP) as well as the morphology of the melanocytes. dbcAMP stimulated all the melanogenic factors. Staurosporine increased tyrosinase activity and amount of TRP and caused morphological changes with the formation of numerous dendrites, regardless of the presence of dbcAMP. In contrast, PMA did not significantly affect tyrosinase activity, TRP content or dendrite formation, with or without dbcAMP. The effects of staurosporine on tyrosinase activity and TRP content were completely inhibited by PMA, but PMA did not significantly affect the staurosporine-induced morphological changes. A23187 inhibited both tyrosinase activity and TRP content, regardless of the presence of dbcAMP, but did not affect the morphology of melanocytes. These findings suggest that tyrosinase activity and TRP content are regulated by adenylate cyclase and Ca2+ and partly by PKC, while the morphological features of melanocytes are affected by intracellular cAMP accumulation and by the inhibition of PKC.
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PMID:Effects of staurosporine, PMA and A23187 on human melanocyte cultures with dibutyryl cyclic AMP. 131 Nov 91

The pigmented human melanoma cell line, MM418, became demelanized when treated continuously with a nontoxic level of halistanol trisulphate (HTS), a C29 steroidal detergent isolated from a marine sponge. Nontoxic levels of halistanol or of a range of anionic, cationic and neutral detergents had no such effect. Control MM418 cells varied greatly in size, appearance and pigmentation; HTS-treated cells were smaller than controls, had a uniform, generally bipolar appearance, and lacked pigment. HTS induced only minor changes in cell ultrastructure, with fewer mature melanosomes being found in treated cells. Suppression of melanin synthesis was apparent within 24 h of addition of HTS, as judged by inhibited incorporation of the false precursor, 5[125I]-2-thiouracil. Reversal of inhibition occurred within the same period after removal of HTS. Tyrosinase activity gradually decreased to 25% of the control value during a 19-day treatment with HTS, and expression of two carbohydrate-dependent tyrosinase epitopes, 5C12 and 2B7, was abolished. Expression of one other melanosomal protein and of vimentin was not affected. The results suggest that HTS inhibits maturation of tyrosinase to a form associated with melanin synthesis.
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PMID:Reversible depigmentation of human melanoma cells by halistanol trisulphate, a novel marine sterol. 138 55

Melanogenesis, i.e., synthesis of melanin and melanosomes, is a "cascade" of event which is channelled by internal and external regulatory factors. The recognition and selection of this information and subsequent differentiation of melanogenesis (melanin type and melanosomal development) would be regulated significantly by melanosomal membrane. The melanogenesis type could be switched relatively easily by UV light, hormone, and availability of tyrosinase substrate. The role of sulphydryl compounds as a regulatory factor in melanogenesis type (in particular for pheomelanogenesis) may not be tied to its absolute presence or absence, but rather, to the effective concentration within the melanocyte at a given time. It is, therefore, probable that the morphogenesis of melanosomes may not follow immediately in response to melanogenesis-type changes, hence the melanocyte revealing more often mosaic forms of melanosomes in nature after exposure to non-genetic factors. The switch of melanogenesis would be significantly controlled by structural and functional availability of vesiculoglobular bodies which are encoded or associated with HMSA-5 (69 kDa) glycoprotein. This HMSA-5 protein shares a significant homology with gp75 "b-locus" protein. However, because of our hypothesis that vesiculoglobular bodies carry post- (and pre-) tyrosinase regulatory factors involving in both pheo- and eumelanogenesis, the term "b-protein" which focuses only on eumelanogenesis may not be applied to HMSA-5.
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PMID:Regulatory factors of pheo- and eumelanogenesis in melanogenic compartments. 140 37

The pigment cell-specific gene, located at the brown (b)-locus in mouse, encodes the protein that determines the type of melanin synthesized. This protein is known as tyrosinase-related protein, but here we tentatively term it b-locus protein to avoid confusions with the related sequence cross-hybridizing to the tyrosinase gene. In order to identify the mutation at the b-locus, we have cloned and characterized the b-locus protein gene of BALB/c mouse (b/b, c/c). The gene is about 18 kb long and organized into 8 exons and 7 introns. Sequence analysis of the b-locus protein gene reveals four base changes within the protein-coding regions: two missense mutations and two silent mutations. Two missense mutations result in the Cys to Tyr substitution at position 86 (codon 110) and the Arg to His substitution at position 302 (codon 326) of a b-locus protein molecule. Using allele-specific amplification, we confirmed that these missense mutations are actually present in the genomic DNA of two b-mutant strains examined, BALB/c and DBA/2 (b/b, C/C) mice, suggesting that these mutations are specific for the mutant mice at the b-locus. Moreover, we are able to show that the b-locus protein containing Tyr 86 is not reactive with the anti-b-locus protein monoclonal antibody, TMH-1, in transient expression assays.
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PMID:Identification of mutations in the pigment cell-specific gene located at the brown locus in mouse. 140 44

The TYRP (brown) locus determines pigmentation and coat color in the mouse. The human homolog of the TYRP locus has been recently identified and shown to encode a 75-kDa transmembrane melanosomal glycoprotein called gp75. The gp75 glycoprotein is homologous to tyrosinase, an enzyme involved in the synthesis of melanin, forming a family of tyrosinase-related proteins. A genomic clone of human gp75 was used to map the human TYRP locus to chromosome 9, region 9p23, by nonradioactive fluorescent in situ hybridization. Specificity of hybridization was tested with a genomic fragment of human tyrosinase that mapped to a distinct site on 11q21. The 9p region has been reported to be nonrandomly altered in human melanoma, suggesting a role for the region near the TYRP locus in melanocyte transformation.
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PMID:Assignment of the human TYRP (brown) locus to chromosome region 9p23 by nonradioactive in situ hybridization. 157 87

In C57 Bl-6 mice, melanogenesis is strictly coupled to the growth phase of the hair cycle (anagen). To further study this phenomenon of concerted developmental and pigmentary activity, we followed the sequence of tyrosinase (key enzyme of melanogenesis) expression and activity and the presence of the melanosomal protein gp 75 during the development of traumatically induced anagen follicles (days 0 = telogen, and days 1-12, after anagen induction studied). In addition to performing Northern and Western blots for tyrosinase, tyrosine hydroxylase activity (THA) and dopa oxidase activity (DOA) were measured. On day 0, DOA was undetectable, and THA was very low. On days 1 and 2, both activities were undetectable; starting from day 3, they increased rapidly, reaching a plateau on days 8 and 12. DO-positive proteins had apparent molecular weights (MW) of 66-68 kD (days 3-12), 72-74 kD (days 5-12), and 130 kD (days 8 and 12). Western blotting emphasized proteins of MW 66-68 kD (tyrosinase), and 73-75 kD (gp 75); tyrosinase was undetectable on day 0, but already present on days 1 and 2; it increased by day 5 and had reached a plateau on days 8 and 12; gp 75 was undetectable on days 0-2; it was present on day 3, increased by day 5, and reached a plateau on days 8 and 12. Northern blot analysis revealed high levels of tyrosinase mRNA on days 5 and 8, low levels on days 1-3, and none on day 0. These data suggest a highly regulated, time frame-restricted, differential pattern of tyrosinase transcription, translation, and enzyme activity during the different stages of the developing murine anagen follicle, possibly as a result of complex interactions between follicular melanocytes and their environment.
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PMID:Differential expression and activity of melanogenesis-related proteins during induced hair growth in mice. 167 5

Melanogenesis is regulated in large part by tyrosinase (monophenol monooxygenase; monophenol, L-dopa:oxygen oxidoreductase, EC 1.14.18.1), and defective tyrosinase leads to albinism. The mechanisms for other pigmentation determinants (e.g., those operative in tyrosinase-positive albinism and in murine coat-color mutants) are not yet known. One murine pigmentation gene, the brown (b) locus, when mutated leads to a brown (b/b) or hypopigmented (Blt/Blt) coat versus the wild-type black (B/B). We show that the b locus codes for a glycoprotein with the activity of a catalase (hydrogen-peroxide:hydrogen-peroxide oxidoreductase, EC 1.11.1.6) (catalase B). Only the c locus protein is a tyrosinase. Because peroxides may be by-products of melanogenic activity and hydrogen peroxide in particular is known to destroy melanin precursors and melanin, we conclude that pigmentation is controlled not only by tyrosinase but also by a hydroperoxidase. Our studies indicate that catalase B is identical with gp75, a known human melanosomal glycoprotein; that the b mutation is in a heme-associated domain; and that the Blt mutation renders the protein susceptible to rapid proteolytic degradation.
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PMID:Murine and human b locus pigmentation genes encode a glycoprotein (gp75) with catalase activity. 169 79


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