EC:1.10.3.1 - FACTA Search

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Query: EC:1.10.3.1 (tyrosinase)
9,065 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The expression of various melanogenic proteins, including tyrosinase, the tyrosinase-related proteins 1 (TRP1) and 2 (TRP2/DOPAchrome tautomerase), and the silver protein in human melanocytes was studied in six different human melanoma cell lines and compared to a mouse derived melanoma cell line. Analysis of the expression of tyrosinase, TRP1, TRP2, and the silver protein using flow cytometry revealed that in general there was a positive correlation between melanin formation and the expression of those melanogenic enzymes. Although several of the melanoma cell lines possessed significant activities of TRP2, the levels of DOPAchrome tautomerase in extracts of human cells were relatively low compared to those in murine melanocytes. Melanins derived from melanotic murine JB/MS cells, from melanotic human Ihara cells and HM-IY cells, from sepia melanin, and from C57BL/6 mouse hair were chemically analyzed. JB/MS cells, as well as Ihara cells and HM-TY cells, possessed significant amounts of 5,6-dihydroxyindole-2-carboxylic acid (DHICA) derived melanins, this being dependent on the activity of TRP2. Kinetic HPLC assays showed that 5,6-dihydroxyindole (DHI) produced during melanogenesis was metabolized quickly to melanin in pigmented KHm-1/4 cells, whereas DHI was stable in amelanotic human SK-MEL-24 cells. A melanogenic inhibitor that has been purified from SK-MEL-24 cells that suppressed oxidation of DHI in the presence or absence of tyrosinase, but had no effect on DHICA oxidation. The sum of these results suggests that the expression of melanogenic enzymes as well as the activity of a melanogenic inhibitor are critical to the production of melanin synthesis in humans.
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PMID:The expression of tyrosinase, tyrosinase-related proteins 1 and 2 (TRP1 and TRP2), the silver protein, and a melanogenic inhibitor in human melanoma cells of differing melanogenic activities. 765 83

Mammalian melanocytes can produce two basic types of melanin, eumelanin and pheomelanin, within discrete organelles termed melanosomes. The physiological signals that regulate this switch are extrinsic to the melanocyte, and include alpha-melanocyte stimulating hormone and the agouti protein. Tyrosinase, encoded at the albino locus, is the enzyme essential for the synthesis of both types of melanin, but other tyrosinase-related proteins (e.g. TRP1 encoded at the brown locus and TRP2 encoded at the slaty locus) regulate eumelanogenesis catalytically at steps distal to tyrosinase (as 5,6-dihydroxyindole-2-carboxylic acid oxidase and DOPAchrome tautomerase, respectively). The silver protein is another melanosomal protein, and although it has some limited homology to the tyrosinase-related proteins, it does not have any known enzymatic function and probably serves as a structural matrix protein. The role of each of those melanosomal proteins in pheomelanogenesis, however, is still unclear. In this study, we have compared the expression and catalytic functions of those proteins in pheomelanic and eumelanic hair bulb melanocytes. There was no detectable expression of TRP1 or TRP2, or either of their enzymatic activities, in hair bulbs of lethal yellow (Ay/a) newborn mice, and tyrosinase activity was present at a reduced level compared to that found in hair bulbs of black (a/a) newborn mice. Similar results were observed in regenerating hair bulbs of adult lethal yellow mice and in hair bulbs of 5- to 7-day-old agouti mice (A/A), an age where pheomelanin is produced predominantly. Expression of the silver protein was similarly not observed in hair bulbs of the pheomelanic mice.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Modulation of melanogenic protein expression during the switch from eu- to pheomelanogenesis. 767 50

Within mammalian melanocytes, melanin biosynthesis is controlled by three enzymes structurally related: tyrosinase and two tyrosinase related proteins, TRP1 and TRP2. These melanosomal enzymes are integral membrane proteins with a carboxyl tail oriented to the cytoplasm, a single membrane-spanning helix and the bulk of the protein located inside the melanosome. Their solubilization is usually carried out by treatment of melanosomal preparations with non-ionic detergents, but, so far, no comparative study of the effect of the detergents employed on the properties of the solubilized proteins has been reported. We have compared the effect of the detergents Brij-35, Nonidet P-40, Tween-20, sodium deoxycholate and Triton X-114 on several properties of the melanogenic enzymes, including the solubilization yield, stability, electrophoretic behaviour and accessibility of epitopes located in the carboxyl tail to specific antibodies. Our data indicate that not only the total amount of enzymes solubilized, but also their relative proportions in the solubilized preparations depend on the detergent used. The non-ionic detergents apparently interact strongly with the melanogenic enzymes, affecting their mobility in SDS-PAGE, and might induce different conformations of the carboxyl tail. Complete replacement of lipids by the detergents results in a decreased stability that can be partially reversed by the addition of endogenous lipids. This treatment also produces a noticeable activation of the tyrosinase isoenzymes, which is higher for TRP1 than for tyrosinase. Taken together, these data show that the transmembrane and carboxyl fragments of the proteins of the tyrosinase family might modulate the stability and activity of the melanogenic enzymes.
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PMID:Effect of detergents and endogenous lipids on the activity and properties of tyrosinase and its related proteins. 772 17

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 melanogenic functions, the brown locus encodes TRP1 (tyrosinase-related protein-1), and the slaty locus encodes TRP2, another tyrosinase related-protein. TRP2 functions as DOPAchrome tautomerase, an enzyme that preserves the carboxylic acid content of melanins, which would be spontaneously lost in its absence, while TRP1 is able to oxidize the DHICA produced by TRP2. In this study we have used three different systems (immune-affinity purified melanogenic enzymes, mutant melanocytes, and transfected cells) to examine the enzymatic interactions of these proteins, and their stabilization in a complex which significantly increases their physiological half-life. When extrapolated to the melanocyte, our results demonstrate the catalytic functions of these proteins and suggest how they might stably interact within a melanogenic complex in the melanosome to regulate the quantity and quality of melanin synthesized.
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PMID:The tyrosinase gene family--interactions of melanogenic proteins to regulate melanogenesis. 778 79

The effect of melanocyte-stimulating hormone (MSH) on the differentiation of mammalian melanocytes has been widely studied since the early 1950s. There have been many reports about the stimulatory effect of MSH on melanin production and specifically on the activity of tyrosinase, the critical enzyme in the melanogenic pathway. However, few and variable results have been obtained concerning the effect of this hormone on the regulation of DOPAchrome tautomerase (TRP2), another melanogenic enzyme which functions later in the melanogenic pathway, or on other melanogenic activities, such as TRP1. In this study, we show that the MSH-induced stimulation of tyrosinase is accompanied by no significant change in the synthesis or catalytic activities of other melanogenic enzymes such as TRP1 or TRP2. This in turn elicits a dramatic increase in melanin production accompanied by a significant decrease in the incorporation of carboxylated precursors into that melanin biopolymer, although the biological implication of that is still unclear.
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PMID:Melanin biosynthesis patterns following hormonal stimulation. 790 53

Dopachrome tautomerase (DCT) catalyzes the conversion of L-dopachrome into 5,6-dihydroxyindole-2-carboxylic acid through the melanogenic biosynthetic pathway. This enzyme, also named TRP2, belongs to the family of the tyrosinase related proteins. The three members of the family contain two highly conserved metal-binding sites with three histidines on each. Tyrosinase has copper at its active site. It was assumed that although DCT might have copper in those metal binding sites, its active site could be related to other two putative iron-binding sites located in different positions. Based on apoDCT preparation with cyanide and reconstitution experiments, we propose that DCT have zinc instead of copper at the two metal-binding sites and that those sites actually correspond to the active site. The involvement of zinc, which cannot undergo redox reactions, accounts for the reaction that DCT catalyzes, a tautomerization versus the copper-mediated oxidations catalyzed by tyrosinase.
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PMID:Dopachrome tautomerase is a zinc-containing enzyme. 798 Jun 2

Slaty (slt), an autosomal recessive mutation that arose in YZ57/Ch mice, results in the dilution of coat color and premature hair loss. Recently, a gene encoding a homologue of the melanogenic enzyme tyrosinase (termed tyrosinase related protein 2 or TRP2) was cloned and was subsequently mapped to the slaty locus on chromosome 14. TRP2 was shown to function in melanogenesis as DOPAchrome tautomerase by means of the catalytic activity of the immunopurified protein and in slaty mutant skin samples. In this study, we generated an expression vector of a murine TRP2 encoding cDNA and are able to confirm its activity as DOPAchrome tautomerase. We further demonstrate that the slaty mutation dramatically decreases the catalytic function of the protein.
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PMID:Functional analysis of the slaty gene product (TRP2) as dopachrome tautomerase and the effect of a point mutation on its catalytic function. 804 19

Using antibodies that recognize either tyrosinase, tyrosinase-related protein-1 (TRP1), or tyrosinase-related protein-2 (TRP2, DOPAchrome tautomerase), the quantities of those melanogenic enzymes were analyzed in five melanoma cell lines that possess various degrees of melanin production. All cells except JB/MS-W increased melanin production four to 30 times after 4 d of melanocyte-stimulating hormone (MSH) treatment. Melanin production by JB/MS-W cells was always under background, with or without MSH treatment. There was a positive correlation between quantities and synthetic rates of those melanogenic enzymes and their melanin formation or DOPAchrome tautomerase activities. The activity of a heat-resistant melanogenic inhibitory factor was also analyzed. The results showed, surprisingly, that pigmented cells showed higher levels of melanogenic inhibitors activity. Tyrosinase activity was increased dramatically whereas the level of melanogenic inhibitor was remarkably decreased following MSH treatment. Interestingly, melanogenic inhibitor derived from JB/MS-W cells suppressed not only tyrosinase but also DOPAchrome tautomerase, another enzyme functional in melanin production. These results clearly suggest that melanin production is regulated by a subtle balance between the activities of these enzymes and other factors such as the melanogenic inhibitor.
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PMID:Pigment production in murine melanoma cells is regulated by tyrosinase, tyrosinase-related protein 1 (TRP1), DOPAchrome tautomerase (TRP2), and a melanogenic inhibitor. 842 35

Dopachrome tautomerase (DCT; EC 5.3.3.12) catalyses the conversion of L-dopachrome into 5,6-dihydroxyindole-2-carboxylic acid in the mammalian eumelanogenic biosynthetic pathway. This enzyme, also named TRP2, belongs to a family of three metalloenzymes termed the tyrosinase-related proteins (TRPs). It is well known that tyrosinase has copper in its active site. However, the nature of the metal ion in the active site of DCT is under discussion. Whereas theoretical predictions based on similarity between the protein sequences of the TRPs suggest the presence of copper, the different inhibition pattern of DCT with some metal chelators compared with that of tyrosinase suggests that the nature of the metal ion could differ. Direct estimations of the metal content in purified DCT preparations show the presence of around 1.5 Zn atoms/molecule and the absence of copper. Apoenzyme preparation by treatment of DCT with cyanide or o-phenanthroline followed by reconstitution experiments of tautomerase activity in the presence of different ions confirmed that the metal cofactor for the DCT active site is zinc. Our results are consistent with Zn2+ chelation by the highly conserved histidine residues homologous to the histidines at the classical copper-binding sites in tyrosinase. This finding accounts for the reaction catalysed by DCT, i.e. a tautomerization, versus the copper-mediated oxidations catalysed by tyrosinase. Based on the predicted tetrahedrical coordination of the zinc ions in the enzyme active site, a molecular mechanism for the catalysis of L-dopachrome tautomerization is proposed. From the present data, the existence of additional ligands for metal ions other than zinc in the DCT molecule, such as the proposed cysteine iron-binding sites, cannot be completely ruled out. However, if such sites exist, they could be subsidiary binding sites, whose function would be likely to stabilize the protein.
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PMID:Molecular mechanism for catalysis by a new zinc-enzyme, dopachrome tautomerase. 857 77

Melanogenesis is a multistep biochemical process resulting in the formation of melanin in pigment cells in the skin and the eye. Three melanogenic factors, tyrosinase, TRP1, and TRP2 participate in the pathway. Here, the regulation of gene expression of these melanocyte-specific markers is shortly reviewed.
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PMID:Melanogenic factors: regulation of gene expression. 871 17

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