Human Melanoma Cell Lines Show Little Relationship Between Expression of Pigmentation Genes and Pigmentary Behaviour In Vitro

Several laboratories are pursuing the question of whether the expression of pigment genes can be used as a useful marker for tumour progression. However, many melanoma tumours are amelanotic in vivo. The purpose of this study was to examine the relationship between the expression of tyrosinase-related genes [tyrosinase, tyrosinase-related protein-1 (TRP-1) and tyrosinase-related protein-2 (TRP-2)] and pigmentation of melanoma cells. Fourteen cutaneous melanoma cell lines were examined for visible pigment, melanin content, and dopa oxidase activity and findings were related to the previously determined expression of the three tyrosinase-related genes in these cells in culture. Four of the cell lines were also stimulated with α-MSH, isobutylmethylxanthine, and forskolin to examine the relationship between induced pigmentation and upregulation of pigmentation genes. There was no simple correlation between pigmentation gene expression and dopa oxidase activity or total melanin content of the 14 melanoma cell lines in culture. In the majority of cells, there was no appreciable pigment, whereas, in contrast, half of the cells showed significant dopa oxidase activity. Upregulation of dopa oxidase activity was achieved by α-MSH in two out of four cell lines examined in detail and with IBMX in three out of four of these cell lines. IBMX increased tyrosinase gene expression in all four cell lines; α-MSH was without effect; and TRP-1 and TRP-2 expression were largely unaffected by IBMX or α-MSH. Modest changes in morphology were noted in response to IBMX. Overall, however, human melanoma cell lines were, with two exceptions, amelanotic in culture despite the fact that 10 out of the 14 lines expressed tyrosinaserelated genes. We conclude that measurable pigmentation is not a necessary consequence of the expression of pigmentation genes. An implication of this work is that amelanotic tumours in vivo may nevertheless be positive for tyrosinase-related genes.     

Mechanistic Aspects of the Control of Tyrosinase Activity

There is now much evidence suggesting that there are multiple control points in the process of melanin production. The most fundamental process of melanogenesis is centered on the oxidative activity of the enzyme tyrosinase. Tyrosinase is a highly unusual enzyme in that it apparently catalyses two processes, i.e., the oxidation of tyrosine and the dehydrogenation of dihydroxyphenylalanine (Dopa), at the same active site. The reactions involved account for the unusual kinetics of tyrosine oxidation and suggest biochemical mechanisms whereby the activity of the enzyme and the process of melanogenesis may be modified. It is proposed that the oxidative engine of melanogenesis resides in an oxidation/reduction cycle involving Dopa and dopaquinone and that this can be modified by processes that result in the removal of dopaquinone or Dopa from the reaction system.     

Tyrosinase involved in betalain biosynthesis of higher plants

A tyrosine-hydroxylating enzyme was partially purified from betacyanin-producing callus cultures of Portulaca grandiflora Hook. by using hydroxyapatite chromatography and gel filtration. It was characterized as a tyrosinase (EC 1.14.18.1 and EC 1.10.3.1) by inhibition experiments with copper-chelating agents and detection of concomitant o-diphenol oxidase activity. The tyrosinase catalysed both the formation of L-(3,4-dihydroxyphenyl)-alanine (Dopa) and cyclo-Dopa which are the pivotal precursors in betalain biosynthesis. The hydroxylating activity with a pH optimum of 5.7 was specific for L-tyrosine and exhibited reaction velocities with L-tyrosine and D-tyrosine in a ratio of 1:0.2. Other monophenolic substrates tested were not accepted. The enzyme appeared to be a monomer with an apparent molecular mass of ca. 53 kDa as estimated by gel filtration and SDS-PAGE. Some other betalain-producing plants and cell cultures were screened for tyrosinase activity; however, activities could only be detected in red callus cultures and plants of P. grandiflora as well as in plants, hairy roots and cell cultures of Beta vulgaris L. subsp. vulgaris (Garden Beet Group), showing a clear correlation between enzyme activity and betacyanin content in young B. vulgaris plants. We propose that this tyrosinase is specifically involved in the betalain biosynthesis of higher plants. Received: 14 July 1998 / Accepted: 23 October 1998     

Demonstration of Monophenoloxidase Activity of Tyrosinase after Electrophoresis

The improved method presented here for localizing monophenoloxidase activity of tyrosinase (E.C. 1.14.18.1.) after electrophoresis is based on the transfer of electrons from the monophenolic substrate, tyrosine methyl ester, to an artificial acceptor, phenazine methosulfate, and subsequent reduction of nitro blue tetrazo-lium into a violet formazan. This method is rapid, sensitive and versatile compared to the standard method. The electron transferred from mono-phenol can be accepted directly by nitro blue tetrazolium; although the background of the gel is clear, the sensitivity is decreased. The mono-phenol-PMS-NBT method is suitable for both plant and animal samples. This method can also be used for histochemical demonstration of monophenoloxidase activity.     

A Rapid Method for Detection of Tyrosinase Activity in Electrophoresis

This rapid and sensitive method for localizing tyrosinase in polyacrylamide slab gels is based on the condensation of Bestthorn's hydrazone (3 methyl-4-benzothiazolinone hydrazone hydrochloride) with the quinone obtained by enzymatic oxidation of phenol. Both monophenolase and diphenolase activities are localized by this method.     

Hlad Immobilization in Polyacrylamide Gels

The immobilization of horse liver alcohol dehydrogenase in a cross-linked acrylamide-N,N¹-methylenebisacrylamide copolymer gel is described. The influence of monomer concentration, the degree of cross-linking and the polymerization technique on enzyme entrapment is studied. A bead-polymerization process produced the most useful and stable immobilized enzyme preparations.     

Hlad Immobilization in Polyacrylamide Gels

The immobilization of horse liver alcohol dehydrogenase in a cross-linked acrylamide-N,N¹-methylenebisacrylamide copolymer gel is described. The influence of monomer concentration, the degree of cross-linking and the polymerization technique on enzyme entrapment is studied. A bead-polymerization process produced the most useful and stable immobilized enzyme preparations.     

Role of Base Composition in the Electrophoresis of Microbial and Crab DNA in Polyacrylamide Gels

Intramolecular heterogeneity of eukaryotic nuclear DNA is shown by main-band and satellite DNAs. The function of the latter is uncertain, but they migrate more slowly in electrophoresis; this seems to be determined by base composition.     

Effect of Amphotericin B on Dopachrome Tautomerase Activity and Other Melanogenic Parameters in Cultured B16/F10 Melanoma Cells

The antifungal reagent Fungizone (amphotericin B and deoxycholate) caused an activation in dopachrome tautomerase and dopa oxidase activities of B16/F10 melanoma cells at the routine concentration (2.5 μg/ml) used for preventing molds and yeast growth in cultures of animal cells. However, higher amphotericin B concentrations caused a significant cell death and the inhibition of enzymatic activities. At the optimal concentration of Fungizone, the enzymatic activities and melanin content were augmented as incubation time increased. The detergent sodium deoxycholate alone exerted no effect on these melanogenic parameters, eliminating the possibility that this detergent was partially responsible for melanogenic modifications produced by Fungizone. After withdrawal of Fungizone from the reaction medium, the recovery of melanogenic parameters to normal values was slower for DCT than for tyrosinase. The behavior of dopa oxidase was very similar to that reported by Johnson and Bagnara (Pigment Cell Res. 3, 173–175) for tyrosine hydroxylase.     

Entrapping of Tyrosinase in a System of Reverse Micelles

The enzymatic activity of tyrosinase was studied both in aqueous and organic media. In the latter case tyrosinase was entrapped in a system of reverse micelles of Aerosol OT in octane. At hydration degree 25, when the inner cavity of the reverse micelles was comparable with the size of a tetrameric tyrosinase form known for aqueous solutions, an optimum level of catalytic activity was observed. Another peak of catalytic activity of tyrosinase was observed at hydration degree 12, when the size of the inner cavity of the reverse micelles was consistent with a monomeric form of tyrosinase. Thus, the system of reverse micelles can be exploited as a medium for the investigation of the monomeric form of tyrosinase, which is unstable in aqueous solution.     

Tyrosinase inactivation in its action on dopa

Under aerobic or anaerobic conditions, tyrosinase undergoes a process of irreversible inactivation induced by its physiological substrate l-dopa. Under aerobic conditions, this inactivation occurs through a process of suicide inactivation involving the form oxy-tyrosinase. Under anaerobic conditions, both the met- and deoxy-tyrosinase forms undergo irreversible inactivation. Suicide inactivation in aerobic conditions is slower than the irreversible inactivation under anaerobic conditions. The enzyme has less affinity for the isomer d-dopa than for l-dopa but the velocity of inactivation is the same. We propose mechanisms to explain these processes.     

Tyrosinase activity in ionic liquids

Activity of mushroom tyrosinase was studied in three ionic liquids, 1-butyl-3-methylimidazolium hexafluorophosphate ([BMIm][PF₆]), 1-butyl-3-methylimidazolium tetrafluoroborate ([BMIm][BF₄]) and 1-butyl-3-methylimidazolium methylsulfate ([BMIm][MeSO₄]), and was compared to that in chloroform. Kinetic parameters of the enzyme were determined and the results indicate that the enzyme in ionic liquids basically follows the same catalytic mechanism as in water, and that the ionic liquids may affect the enzyme activity by direct interacting with the enzyme and thus hindering the E–S binding due to their high hydrophilicity and polarity.     

Tyrosinase Protein Is Expressed Also in Some Neural Crest Derived Cells Which Are Not Melanocytes

Some neural crest cells give rise to pigment cells in early ontogenesis. We tested here whether tyrosinase-a key enzyme in melanogenesis—was present in some nonpigment neural crest derivatives in adult hamsters. Interestingly enough, inactive tyrosinase protein was detected, using indirect immunofluorescence, in the satellite cells of spinal ganglia and Schwann cells of sciatic and facial nerves in normal adult animals. The results of cell blotting from spinal ganglia were similar to the fluorescence findings. Thus, our results seem to support the hypothesis that Schwann cells, satellite cells of spinal ganglia, and melanocytes may be more intimately related developmentally than other neural-crest-derived cells. Moreover, since we detected tyrosinase protein in cells which normally do not produce melanosomes, it could be deduced that, during the melanocyte's differentiation from its cell precursor, the expression of tyrosinase protein might precede the point when melanosomes begin to differentiate from known cytoplasmic structures.     

Tyrosinase activity in reversed micelles

The hydroxylase and oxidase activities of mushroom tyrosinase were studied in both sodium di-2-ethylhexylsulfosuccinate (AOT)/isooctane and cetyltrimethylammonium bromide (CTAB)/hexane/chloroform reversed micelles. The enzyme presented its highest activity when the water to surfactant molar ratio (W ₀) was 20 for both systems. When entrapped in the AOT reversed micelles, the enzyme activity decreased with the increase in AOT concentration at a constant W ₀, and the enzyme not only presented a higher reaction rate related to its oxidase activity but also a shorter lag period related to its hydroxylase activity. The relation between water activity and W ₀ revealed that enzyme activity in reversed micelles was more related to the size of the micelles which was determined by W ₀ and less to the water activity. Tyrosinase in CTAB reversed micelles showed potential for the analysis of o-diphenols.     

Probing into the role of conserved N-glycosylation sites in the Tyrosinase glycoprotein family

N-linked glycosylation has a profound effect on the proper folding, oligomerization and stability of glycoproteins. These glycans impart many properties to proteins that may be important for their proper functioning, besides having a tendency to exert a chaperone-like effect on them. Certain glycosylation sites in a protein however, are more important than other sites for their function and stability. It has been observed that some N-glycosylation sites are conserved over families of glycoproteins over evolution, one such being the tyrosinase related protein family. The role of these conserved N-glycosylation sites in their trafficking, sorting, stability and activity has been examined here. By scrutinizing the different glycosylation sites on this family of glycoproteins it was inferred that different sites in the same family of polypeptides can perform distinct functions and conserved sites across the paralogues may perform diverse functions.     

Tyrosinase Activity Discovered in Trametes spp

A total of 54 strains of white rot fungi belonging to 12 closely related species of genera Trametes,Coriolopsis, Cerrena and Lenzites were tested for tyrosinase activity. In the majority of the strains preliminary spot test using p-cresol gave mostly negative results, the activity being detected only in four strains of three different Trametes species (Trametes cervina, T. hirsuta, T. versicolor). The tyrosinase activity of these strains (one strain of T. cervina, T. hirsuta H3, T. hirsuta H7 and T. versicolor V14) was then confirmed spectrophotometrically. Tyrosinase activity has not yet been described in any Trametes species.     

α-MSH and Melanogenesis in Normal Human Adult Melanocytes

Normal human skin melanocytes do not pigment consistently to α-melanocyte stimulating hormone (α-MSH) in culture. The aim of this study was to establish media conditions in which to obtain a reproducible melanogenic response to α-MSH in these cells. Twenty-five media of varying mitogen composition were examined. As previously noted by other workers, melanocyte morphology and proliferation are greatly affected by media composition. However, under the majority of media conditions that supported melanocyte survival and proliferation, cells did not respond to α-MSH with any consistent increase in dopa oxidase activity or melanin content. In only one medium condition, where basic fibroblast growth factor (bFGF) was the sole mitogen present, α-MSH induced both an increase in dopa oxidase activity (at 48%) and in melanin content (of 283%).