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Drug
Enzyme
Compound
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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)
It has been shown previously that N-acetyl-4-S-cysteaminylphenol (N-Ac-4-S-CAP) is a
tyrosinase
substrate and a potent depigmenting agent of dark skin and black hair. The present study evaluated the depigmenting potency of an acetyl derivative of N-Ac-4-S-
CAP
, N-2,4-acetoxyphenyl thioethyl acetamide (NAP-TEA) in the skin and hair. We tested for (i) in vitro metabolites in the skin after topical application, and (ii) in vivo depigmenting potency in the skin and hair. We found that NAP-TEA was stable in water, but was converted to N-Ac-4-S-
CAP
after topical application to human skin. Therefore, although NAP-TEA was not a
tyrosinase
substrate, it could react with
tyrosinase
after being converted to N-Ac-4-S-
CAP
by O-deacetylation in vivo. NAP-TEA produced marked depigmentation of dark skin (Yucatan pig) after daily topical application. When given by intraperitoneal injection, it resulted in complete loss of hair colour (white) grown at the epilated site in adult C57 black mice after daily administration for 10 days, and incomplete loss of coat colour (silver grey) in newborn C57 black mice after a single administration. The depigmentation of the skin and hair was reversible. Split-dopa preparation and electron microscopy indicated that this depigmentation is primarily related to (i) a marked decrease in the number of functioning melanocytes and melanized melanosomes, (ii) a decrease in the number of melanosomes transferred to keratinocytes, and (iii) selective degeneration/inactivation of melanocytes, and deposition of melanin-like material in the Golgi cisternae, coated vesicles and melanosomes, where
tyrosinase
is reported to be located. We propose the NAP-TEA is converted in vivo to N-Ac-4-S-
CAP
which, via interaction with
tyrosinase
, causes reversible depigmentation of the skin and hair.
...
PMID:The in vivo melanocytotoxicity and depigmenting potency of N-2,4-acetoxyphenyl thioethyl acetamide in the skin and hair. 757 78
Rational chemotherapy of malignant melanoma could be developed by taking advantage of the presence of melanogenic enzymes in melanoma cells. 4-S-Cysteaminylphenol (4-S-CAP) has been evaluated for melanocytotoxicity and antimelanoma effect. Although 4-S-
CAP
is selectively toxic to pigmented melanoma cells, it is not potent enough when applied as a single agent. To increase the efficacy of 4-S-
CAP
, we synthesized 4-S-cysteaminylcatechol (4-S-CAC), an activated form of 4-S-
CAP
, and compared its biochemical properties and antimelanoma effects with those of the isomers 3-S-cysteaminylcatechol (3-S-CAC) and 2-S-cysteaminyl-hydroquinone (2-S-CAH). 4-S-CAC was found to be a better substrate for melanoma
tyrosinase
than was L-3,4-dihydroxyphenylalanine, the natural catecholic substrate. 3-S-CAC was a poor substrate, whereas 2-S-CAH was not a substrate. 4-S-CAC was the most cytotoxic to three lines of melanoma cells in vitro, followed by 2-S-CAH and 3-S-CAC. When applied i.p. for 9 days at a dose of 100 mg/kg, 4-S-CAC.HCl, increased by 46-52% the life span of C57BL/6 mice inoculated i.p. with B16 melanoma; this effect was comparable to that of a 50 mg/kg dose of 5-(3,3-dimethyltriazenyl)-1H-imidazole-4-carboxamide. 3-S-CAC was marginally effective, whereas 2-S-CAH was toxic to the host. This systemic toxicity of 2-S-CAH reflected its susceptibility to autoxidation. Growth of B16 melanoma cells inoculated s.c. was significantly inhibited by i.p. administration of 4-S-CAC.HCl (200 mg/kg) for 5 days (P < 0.05). These results suggest that 4-S-CAC is a potent antimelanoma agent, the effect of which is mostly mediated through
tyrosinase
oxidation.
...
PMID:Antimelanoma effect of 4-S-cysteaminylcatechol, an activated form of 4-S-cysteaminylphenol. 778 Sep 75
In order to develop a new chemotherapeutic agent based on exploitation of the specific metabolic pathway of malignant melanoma, a phenolic thioether, N-acetyl-4-S-cysteaminylphenol (NA-CAP), the substrate of melanin-forming enzyme,
tyrosinase
was developed. Our previous in vivo studies have clearly shown that this compound has a significant and selective melanocytotoxicity and antimelanoma effect. This study further examined the specificity of the antimelanoma effect of NA-
CAP
through the study of biodistribution and accumulation of NA-
CAP
in B16F10 melanoma-bearing mice. We also tested the antimelanoma effect of NA-
CAP
by combination treatment with buthionine sulfoximine on the growth of in vitro culture cells and in vivo B16F10 melanoma lung colonies. We found a selective accumulation of 14C-labeled NA-
CAP
into s.c. transplants and lung colonies of melanoma grown in C57BL mice. This accumulation was mediated by selective covalent binding of NA-
CAP
to the melanoma tissues. The combination of NA-
CAP
and buthionine sulfoximine significantly increased the chemosensitivity of B16F10 melanoma cells in vitro and reduced the number of in vivo melanoma lung colonies. We conclude that NA-
CAP
acts as an alkylating agent to melanoma tissue and that the combination of buthionine sulfoximine enhances the therapeutic index of this potent melanoma-specific drug through the depletion of tissue glutathione.
...
PMID:Selective in vivo accumulation of N-acetyl-4-S-cysteaminylphenol in B16F10 murine melanoma and enhancement of its in vitro and in vivo antimelanoma effect by combination of buthionine sulfoximine. 816 94
4-S-Cysteaminylphenol (4-S-CAP) and the corresponding catechol 4-S-cysteaminylcatechol (4-S-CAC) have been evaluated for melanocytotoxicity. It was shown recently that
tyrosinase
oxidation of these substrates produces a violet pigment, dihydro-1,4-benzothiazine-6,7-dione (BQ). In this study we examined whether BQ is the ultimate toxic metabolite produced in melanoma cells from 4-S-
CAP
/4-S-CAC. Biochemical experiments showed that (1) BQ was formed by autoxidation of 4-S-CAC as well as by
tyrosinase
oxidation of 4-S-
CAP
/4-S-CAC, (2) BQ reacted rapidly with thiols such as reduced glutathione (GSH), and (3) BQ inhibited the activity of alcohol dehydrogenase, an SH enzyme. In vitro experiments showed that (1) the cytotoxicity of 4-S-CAC was mostly prevented by catalase and superoxide dismutase, (2) BQ was highly cytotoxic to B16 melanoma cells (IC50 being 3.9 microM as compared with 507 microM for 4-S-CAP), (3) BQ was metabolized rapidly to a GSH adduct in melanoma cells, and (4) the same GSH adduct was also formed upon incubation of melanoma cells with 4-S-
CAP
, the reaction being
tyrosinase
dependent. In vivo experiments showed that intratumoral administration of BQ (0.5 micromol) inhibited the subcutaneous growth of B16 melanoma nearly as effectively as 4-S-
CAP
/4-S-CAC (20 micromol). These results indicate that BQ is the ultimate toxic metabolite produced by
tyrosinase
oxidation of 4-S-
CAP
/4-S-CAC. BQ deprives melanoma cells of GSH and may inactivate SH enzymes essential for DNA synthesis and cell proliferation by covalent binding through their cysteine residues, thereby exerting melanocytotoxicity. Cytotoxicity of 4-S-CAC depends mostly on autoxidation producing BQ and active oxygens.
...
PMID:Dihydro-1,4-benzothiazine-6,7-dione, the ultimate toxic metabolite of 4-S-cysteaminylphenol and 4-S-cysteaminylcatechol. 926 Aug 70
4-S-Cysteaminylphenol (4-S-CAP), a phenolic thioether, has been evaluated for melanocytotoxicity. We have recently shown that dihydro-1,4-benzothiazine-6,7-dione (benzothiazine BQ) is the ultimate toxic metabolite produced by
tyrosinase
oxidation of 4-SCAP. In this study we compared the antimelanoma effects of 4-SCAP and its two homologues, alpha-methyl-4-S-cysteaminylphenol (alpha-Me-4-SCAP) and 4-S-homocysteaminylphenol (4-S-Homo-CAP). Biochemical experiments showed that upon
tyrosinase
oxidation alpha-Me-S-
CAP
and 4-S-Homo-
CAP
also produced homologues of BQ which reacted rapidly with reduced glutathione (GSH) and also inhibited alcohol dehydrogenase, an SH enzyme. In vitro experiments showed that 4-S-
CAP
and its two homologues were taken up into B16-F1 melanoma cells at comparable rates but that 4-S-Homo-
CAP
was least effective in GSH deprivation, which was reflected in the low cytotoxicity of this phenol, and that the cytotoxicity of the phenols was
tyrosinase
dependent, as proved by the negligible effects on B16-G4F cells which have a much lower
tyrosinase
activity. In vivo experiments showed that direct intratumoral administration of these phenols inhibited the subcutaneous growth of B16 melanoma, with 4-S-Homo-
CAP
being the least effective, and that indirect Intraperitoneal administration of 4-S-
CAP
inhibited melanoma growth much more effectively than the two homologues. These results indicate that 4-S-
CAP
is the most promising antimelanoma agent among the three phenols examined.
...
PMID:Comparison of antimelanoma effects of 4-S-cysteaminylphenol and its homologues. 961 Aug 62
Sulfur-containing tyrosine analogs such as 4-S-cysteaminylphenol (4-S-CAP) and its N-acetyl derivative, N-acetyl-4-S-
CAP
, are
tyrosinase
substrates and can cause selective cytotoxicity or cell death of melanocytes and melanoma cells. It is not clear, however, if the cytotoxicity derives from a cytostatic or cytocidal effect. The latter can also be either apoptotic or necrotic. This paper summarizes our attempt to clarify the nature of melanocytotoxicity and cell death by using a new derivative of 4-S-
CAP
, N-propionyl-4-S-
CAP
(NPr-CAP). The i.p. administration of NPr-
CAP
caused marked depigmentation of black hair follicles in C57 mice. At 12 h postadministration of NPr-
CAP
, follicular melanocytes showed histochemical and morphologic features indicative of apoptosis by TdT-mediated dUTP-biotin nick end labeling (TUNEL) staining and electron microscopy. The agarose gel electrophoresis of DNA from drug-treated melan a2 cells, an immortal melanocyte line of C57 black mice, showed the nucleosomal DNA ladder pattern. NPr-
CAP
caused irreversible cytotoxicity in melan a2 and the effect was inhibited by a
tyrosinase
inhibitor, phenylthiocarbamide. The
tyrosinase
-mediated cytotoxicity of NPr-
CAP
was further confirmed by the decreased viability of COS 7 monkey-kidney cells, which expressed a level of high
tyrosinase
activity through transfection of human
tyrosinase
cDNA. NPr-
CAP
, however, also transiently inhibited the proliferation of melan c cells, a control
tyrosinase
-negative albino melanocyte line, and vector-transfected COS 7 cells. Thus, the major process of NPr-
CAP
-mediated melanocytotoxicity involves cytocidal apoptosis associated with active
tyrosinase
. In addition, there is transient, nontyrosinase-mediated cytostatic cytotoxicity.
...
PMID:Sulfur containing tyrosine analogs can cause selective melanocytotoxicity involving tyrosinase-mediated apoptosis. 1053 87
Melanogenesis provides a unique target for the development of antitumour agents specific for malignant melanoma. Among the anti-melanoma compounds we have examined, 4-S-cysteaminylphenol (4-S-CAP), a phenolic amine, was found to have the most promising anti-melanoma effects. To further improve its efficacy as an anti-melanoma agent, we synthesized the R- and S-enantiomers (99% enantiomer excess) of alpha-methyl- 4-S-cysteaminylphenol (alpha-Me-4-S-CAP) and alpha-ethyl- 4-S-cysteaminylphenol (alpha-Et-4-S-CAP) by coupling 4-hydroxythiophenol with the oxazolines obtained from the (R)- and (S)-enantiomers of 2-amino-1-propanol and 2-amino-1-butanol, respectively. The enantiomers of alpha-Me-4-S-
CAP
and alpha-Et-4-S-
CAP
were found to be better substrates for
tyrosinase
than the natural substrate, L-tyrosine. In vitro experiments showed that all four enantiomers were highly cytotoxic to pigmented B16-F1 melanoma cells, the effect being 70-fold and 160-fold greater than that on non-pigmented B16-G4F melanoma cells and 3T3 fibroblasts, respectively. The cytotoxic effect against B16-F1 cells was completely inhibited by phenylthiourea, a
tyrosinase
inhibitor, or by N-acetyl-L-cysteine, which increases the intracellular reduced glutathione (GSH) level. 4-S-
CAP
and the enantiomers were taken up into B16-F1 cells at comparable rates, but showed varying rates of GSH depletion that were inversely correlated to the cytotoxicity. These results suggest that the use of enantiomers would increase the efficacy of
tyrosinase
-dependent cytotoxic phenols.
...
PMID:Synthesis and selective in vitro anti-melanoma effect of enantiomeric alpha-methyl- and alpha-ethyl-4-S-cysteaminylphenol. 1464 24
Melanogenesis appears to be a unique target to develop anti-tumour agents specific for malignant melanoma. Among the anti-melanoma compounds that we have examined, 4-S-cysteaminylphenol (4-S-CAP), a phenolic amine, was found to have the most promising anti-melanoma effects. To further improve the efficacy as anti-melanoma agents, we have recently synthesized enantiomers of alpha-Me-4-S-
CAP
and alpha-Et-4-S-
CAP
. The enantiomers were found to be good substrates for
tyrosinase
. In vitro experiments showed that the enantiomers were highly cytotoxic to B16-F1 melanoma cells, and the cytotoxic effect was proved to be
tyrosinase
-dependent. In the present study, in vivo cytotoxicity experiments showed that i.p. administration of R-alpha-Me-4-S-
CAP
and S-alpha-Et-4-S-
CAP
(and 4-S-CAP) strongly inhibited the subcutaneous growth of B16 melanoma in mice, while the corresponding enantiomers were much less effective. Similarly, i.p. treatment with R-alpha-Me-4-S-
CAP
or S-alpha-Et-4-S-
CAP
, but not with 4-S-
CAP
, caused strong depigmentation of follicular melanocytes in C57BL black mice. Among 4-S-
CAP
and the enantiomers, only R-alpha-Et-4-S-
CAP
caused a moderate decrease in blood pressure in spontaneously hypertensive rats. These results confirm that the use of enantiomers increases the efficacy of
tyrosinase
-dependent cytotoxic phenolic amines.
...
PMID:Comparison of in vivo anti-melanoma effect of enantiomeric alpha-methyl- and alpha-ethyl-4-S-cysteaminylphenol. 1505 40
Tyrosine analogs are good candidates for developing melanoma chemotherapies because melanogenesis is inherently toxic and expressed uniquely in melanocytic cells. The sulfur homolog of tyrosine, 4-S-cysteaminylphenol (4-S-CAP), was shown to be a substrate of melanoma
tyrosinase
and can cause selective cytotoxicity of melanocytes and melanoma cells. Previously, in order to improve the adsorption of magnetite nanoparticles to target cell surfaces, and generate heat in an alternating magnetic field (AMF) for cancer hyperthermia, we produced hyperthermia using magnetite cationic liposomes (MCL) that have a positive charge at the liposomal surface. In the present study, we constructed 4-S-
CAP
-loaded MCL (4-S-CAP/MCL), which act as a novel modality, combining melanoma-specific chemotherapy by 4-S-
CAP
with intracellular hyperthermia mediated by MCL. The 4-S-
CAP
/MCL exerted 4-S-
CAP
-mediated anticancer effects on B16 melanoma cells in vitro and in vivo. Moreover, after intratumoral injection of 4-S-
CAP
/MCL in vivo, the melanoma nodules were heated to 45 degrees C under an AMF. Significantly higher therapeutic effects were observed in mice treated with the combination therapy mediated by 4-S-
CAP
/MCL plus AMF irradiation compared with mice treated with 4-S-
CAP
/MCL alone (without AMF) or mice treated with hyperthermia alone (MCL + AMF irradiation). These results suggest that this novel therapeutic tool is applicable to the treatment of malignant melanoma.
...
PMID:4-S-Cysteaminylphenol-loaded magnetite cationic liposomes for combination therapy of hyperthermia with chemotherapy against malignant melanoma. 1727 32
Crosslinking enzymes are frequently used in bioprocessing of dairy products. The aim of this study was to examine the effects of enzymatic crosslinking on IgE binding, allergenicity and digestion stability of beta-casein (CN). beta-CN was crosslinked by transglutaminase,
tyrosinase
, mushroom
tyrosinase
/caffeic acid and laccase/caffeic acid. The IgE binding to beta-CN was compared in vitro by
CAP
inhibition assay, ELISA inhibition as well as ex vivo by basophil activation assay. Crosslinked CNs were digested by simulated gastric fluid for 15 and 60 min and obtained digests analyzed for their ability to inhibit IgE binding by
CAP
inhibition assay and SDS-PAGE. The ability of crosslinked CNs to activate basophils was significantly reduced in seven patients in the case of CN crosslinked by laccase and moderately reduced in the case of
tyrosinase
/caffeic acid crosslinked CN (in two cow's milk allergy patients tested with different allergen concentrations). The response to various crosslinked CNs differed individually among patients' sera tested by ELISA inhibition assay. The presence of caffeic acid hampered digestion by pepsin, and this effect was most pronounced for the
tyrosinase
/caffeic acid crosslinked CN. The laccase/caffeic acid and mushroom
tyrosinase
/caffeic acid had the highest potential in mitigating IgE binding and allergenicity of the beta-CN out of all investigated enzymes. The presence of a small phenolic compound also increased digestion stability of beta-CN.
...
PMID:Digestibility and allergenicity assessment of enzymatically crosslinked beta-casein. 2020 91
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