Optimization of the tyrosinase mRNA probe to detect circulating melanocytes with reverse transcription and polymerase chain reaction

It was recently suggested that reverse transcription polymerase chain reaction (RT-PCR)-based detection of tyrosinase messenger RNA (mRNA) in peripheral blood is useful in the early detection of circulating tumor cells, since tyrosinase is thought to be a melanocyte-specific marker. However, the sensitivity of detection of these cells in circulation is controversial, some authors reporting 0% effectiveness, others obtaining 100% efficacy. We developed a modification of a technique to process blood samples to detect tyrosinase mRNA, and tested the method with 50 samples from as many patients with histologically confirmed malignant melanoma in different stages. Whole blood was processed by discarding the plasma and extracting RNA from density gradient-isolated peripheral blood lymphocytes. The RNA samples were tested with a sensitive nested primer RT-PCR assay. Sensitivity was tested using RNA extracted from SK-mel-1 human melanoma cells diluted serially with peripheral blood obtained from healthy control subjects. A lymph node from a patient with confirmed disseminated melanoma served as the positive control. Our technique was able to detect tyrosinase mRNA in samples from the 37 patients with progressive metastatic melanoma. The test detected tyrosinase mRNA from both the melanoma cell line and the positive lymph node. Our method to extract RNA from whole blood improves the specificity and sensitivity of tyrosinase mRNA detection by RT-PCR. The test should be of use in determining the prognosis of patients with melanoma, and in deciding when to initiate early treatment in patients with malignant melanoma.

Normal tyrosine transport and abnormal tyrosinase routing in pink-eyed dilution melanocytes

The pink-eyed dilution phenotype in mice arises from mutations in the p gene; in humans, analogous mutations in the P gene result in oculocutaneous albinism type 2. Although the molecular mechanisms which underlie this phenotype remain obscure, it has been postulated that mutations in p result in defective tyrosine transport into murine melanosomes, resulting in hypopigmentation and diminished coat color. However, we previously reported no difference in melanosomal tyrosine transport in unpigmented, melanoblast-like pink-eyed dilution (pcp/pcp), and in pigmented (melan-a) murine melanocytes. In this study, we utilized melan-p1 cells, more differentiated pink-eyed dilution (pcp/p25H) melanocytes which can be induced to produce melanin, to characterize the melanogenic lesion(s) more definitively. Uptake of [3H]tyrosine into melan-a melanosomes did not differ significantly from uptake into melanosomes derived from melan-p1 melanocytes, further arguing against its critical role as a tyrosine transporter. Pink-eyed dilution melanocytes incubated in high tyrosine concentrations became extremely pigmented as they became confluent and secreted large amounts of black material into the medium. Total cellular tyrosinase activity in melan-p1 melanocytes was significantly higher than that in melan-a melanocytes (which are wild-type at the p locus), but the localization of tyrosinase to melanosomes was impaired in melan-p1 melanocytes compared to melan-a melanocytes. These results indicate that mechanisms other than deficient tyrosine transport are involved in the pink-eyed dilution phenotype and that this protein may serve a chaperone-like or stabilizing function in melanocytes.

A di-leucine-based motif in the cytoplasmic tail of LIMP-II and tyrosinase mediates selective binding of AP-3

Among the various coats involved in vesicular transport, the clathrin associated coats that contain the adaptor complexes AP-1 and AP-2 are the most extensively characterized. The function of the recently described adaptor complex AP-3, which is similar to AP-1 and AP-2 in protein composition but does not associate with clathrin, is not known. By monitoring surface plasmon resonance we observed that AP-3 is able to interact with the tail of the lysosomal integral membrane protein LIMP-II and that this binding depends on a DEXXXLI sequence in the LIMP-II tail. Furthermore, AP-3 bound to the cytoplasmic tail of the melanosome-associated protein tyrosinase which contains a related EEXXXLL sequence. The tails of LIMP-II and tyrosinase either did not interact, or only interacted poorly, with AP-1 or AP-2. In contrast, the cytoplasmic tails of other membrane proteins containing di-leucine and/or tyrosine-based sorting signals did not bind AP-3, but AP-1 and/or AP-2. This points to a function of AP-3 in intracellular sorting to lysosomes and melanosomes of a subset of cargo proteins via di-leucine-based sorting motifs.

Effect of arbutin on melanogenic proteins in human melanocytes

The inhibitory effect of arbutin, a naturally occurring beta-D-glucopyranoside derivative of hydroquinone, on melanogenesis was studied biochemically by using human melanocytes in culture. Cells were cultured in the presence of different concentrations of arbutin. The maximum concentration of arbutin that was not inhibitory to growth of the cells was 100 micrograms/ml. At that concentration, melanin synthesis was inhibited significantly by approximately 20% after 5 days, compared with untreated cells. This phenotypic change was associated with the inhibition of tyrosinase and DHICA polymerase activities, and the degree of inhibition was dose dependent. No significant difference in DOPAchrome tautomerase (DT) activity was observed before or after arbutin treatment. Western blotting experiments revealed there were no changes in protein content or in molecular size of tyrosinase, TRP-1 or TRP-2, indicating that inhibition of tyrosinase activity by arbutin might be due to effects at the post-translational level.

Modifications of the antioxidant enzymes in relation to chromosome imbalances in human melanoma cell lines

Five human melanoma cell lines were investigated for their antioxidant activities. These metabolic data were correlated with cytogenetic analysis giving the relative numbers of chromosomes or chromosomal segments carrying the gene encoding for each enzyme. Particular attention was focused on the expression of superoxide dismutase 2 (SOD2), whose gene, located on the long arm of chromosome 6 (6q), has been proposed as a tumour suppressor gene. The activity of glutathione peroxidase (GPX), glutathione reductase (GSR) and catalase appeared to be unrelated to the relative number of 3q, 8p and 11p arms which, respectively, carry their encoding genes. GPX activity paralleled that of total SOD activity, and GSR variations followed those of GPX, suggesting possible metabolic regulation. Both the activity and the amount of SOD1 immunoreactive protein correlated with the number of chromosomes 21, suggesting a gene dosage effect. The three cell lines with deletions of the 6q arm had lower SOD2 activity and less immunoreactive protein than the two cell lines without 6q deletion. In addition, they demonstrated high thymidine kinase and thymidylate synthetase activities, which are directly linked to the cell proliferation rate. These results strengthen the hypothesis that SOD2 has a function as a tumour suppressor gene, but also suggest that the expression of other antioxidant enzymes might be altered in human melanomas.

Effect of prostaglandin A1 on proliferation and telomerase activity of human melanoma cells in vitro

Previous studies have shown that cyclopentenone prostaglandins are endowed with antitumour activity in various murine and human tumour models. In the present investigation four human melanoma cell lines were treated with graded concentrations (4-16microg/ml) of prostaglandin A1 (PGA1) for 24 or 48 h in vitro. At the end of the treatment, cell proliferation (measured in terms of DNA synthesis) and telomerase activity were determined. The results showed that PGA1 induced concentration-dependent inhibition of DNA synthesis at 48 h but not at 24 h in SK-MEL-28 cells. In contrast, marked inhibition of telomerase activity was detected after only 24 h of PGA1 treatment. Moreover, after 48h of treatment with the agent, inhibition of telomerase was more pronounced than inhibition of cell proliferation. Additional studies performed with three freshly generated melanoma cell lines confirmed that PGA1 produced early inhibition of cell growth accompanied by marked impairment of telomerase activity. These results suggest that PGA1 could be of potential value as antitumour agent, on the basis of two distinct mechanisms: direct cytostatic/cytotoxic effects on melanoma cells, and inhibitory activity on a tumour-associated enzymatic function (i.e. telomerase) that is responsible for cancer cell immortality.

Mechanisms of melanogenesis inhibition by tumor necrosis factor-alpha in B16/F10 mouse melanoma cells

The inflammatory cytokine tumor necrosis factor-alpha (TNF-alpha) is present in the dermal and epidermal layers of normal skin [Kilgus, O., Payer, E., Schreiber, S., Elbe, A., Strohal, R. & Stingl, G. (1993) J. Invest. Dermatol. 100, 674-680]. Its local concentrations are modified by several stimuli, including wound healing and ultraviolet irradiation. Moreover, TNF-alpha inhibits melanogenesis in normal melanocytes [Swope, V., Abdel-Malek, Z., Kassem, L. & Norlund, J. (1991) J. Invest. Dermatol. 96, 180-185], and is, therefore, a potential autocrine/paracrine regulator of pigmentation. We have analyzed the mechanisms of this effect using B16/F10 melanoma cells as a model. Nanomolar concentrations of TNF-alpha inhibit the tyrosine hydroxylase and dopa oxidase activities of B16/F10 melanocytes, to less than 30% control levels, without effects on tyrosinase-related protein 2/dopachrome tautomerase (TRP2/DCT). The 50% inhibition was obtained at 1 nM TNF-alpha and 48 h treatment. The effect of TNF-alpha was noticeable after 6 h treatment, and maximal after 24 h. This inhibition is explained by decreased intracellular levels of tyrosinase and tyrosinase-related protein 1 (TRP1), but not of TRP2/DCT as detected by Western blotting. Northern-blot experiments showed that the inhibitory effect is partially explained by a reduced accumulation of the corresponding mRNAs, that dropped to about 50% of control values (48 h treatment, 5 nM TNF-alpha). Moreover, the tyrosine hydroxylase and dopa oxidase activities decreased more rapidly in TNF-alpha-treated cells than in control cells, under conditions of inhibition of protein synthesis. This suggests a TNF-mediated reduction of tyrosinase half-life. However, the possibility of an inhibitory post-translational modification of the enzyme induced by TNF cannot be ruled out. Therefore, the inhibitory effect of TNF-alpha on tyrosinase and TRP-1 results from combined effect on mRNA levels and enzymatic activity or protein stability.

Manipulation of disulfide bonds differentially affects the intracellular transport, sorting, and processing of neuroendocrine secretory proteins

To investigate if the prevention of disulfide bond formation affects the intracellular transport, sorting, and processing of a distinct set of neuroendocrine proteins in the regulated secretory pathway, we have treated Xenopus intermediate pituitaries with the thiol-reducing agent dithiothreitol. Pulse-chase incubations in combination with immunoprecipitation analysis were used to monitor the fates of the prohormone proopiomelanocortin (POMC), prohormone convertase PC2 and its helper protein 7B2, as well as secretogranin III. Manipulation of the disulfide bonds in POMC and proPC2 blocked their transport to the trans-Golgi network and strongly inhibited their processing. Reduction of the single disulfide bond in 7B2 did not disturb its transport and cleavage, but caused its missorting to the constitutive secretory pathway. Moreover, the liaison between proPC2 and 7B2 was prevented. Dithiothreitol did not affect transport, sorting, and cleavage of secretogranin III, which lacks disulfide bonds. When the reducing agent was washed away, POMC processing, proPC2 maturation, and the association between proPC2 and 7B2 were reestablished. Collectively, our findings indicate that manipulation of disulfide bonds differentially affects the fates of neuroendocrine proteins during their transit through the secretory pathway.

Ultrastructural and functional study of the liver pigment cells from Rana esculenta L

A study of the liver pigment cells of Rana esculenta L. has been performed on both liver in toto and cells in culture. Ultrastructural and cytochemical analyses showed a close relationship between this visceral pigment cell system and the cells of hepatic macrophage lineage. Like the latter, the liver pigment cells present phagocytic activity, in the sinusoids and in vitro, and give a positive response to tests for peroxidase and lipase. The liver pigment cells are isolated, together with the Kupffer cells, from the sinusoidal cell fraction of the liver. In culture, they maintain their melanogenetic ability, demonstrated by the presence of dopaoxidase activity in the soluble, membranous, and melanosome fractions. Analysis of the cultures showed that as culture time increased, so did melanosome dopaoxidase activity, the number of pigmented fields, and the level of pigmentation of the cells. The values of dopaoxidase activity of the pigment cells in culture show the same seasonal oscillations as the system in toto, indicating that the cells maintain an internal clock, at least in the first 72 h of culture. There is evidence that the pigment cells are macrophages which can express a melanogenetic function. Our results and other experimental data provide a basis for hypothesizing that the pigment cells in Rana esculenta L. liver may derive from, or have a common origin with, the Kupffer cells.

Melanoma-cell toxicity of cystemustine combined with O6-benzyl-N2-acetylguanosine

Cystemustine (N'-(2-chloroethyl)-N-(2-(methylsulphonyl)ethyl)-N'-nitrosourea) is a new chloroethylnitrosourea (CENU) being used in phase II clinical trials of disseminated melanoma. Clinical results show that tumour regression has only been observed in 25% of melanomas treated by CENUs. Tumour resistance to CENU is known to be mainly due to a DNA repair protein, O6-methylguanine-DNA methyltransferase (MGMT). The poor remission rate of melanoma with CENUs is attributed to the fact that metastases contain high MGMT levels. Previously, we have shown that O6-benzyl-N2-acetylguanosine (BNAG), an MGMT inhibitor, can be combined with cystemustine by intravenous administration, and increases the antitumour effect of cystemustine in resistant human melanoma. In the work presented here, we investigated the in vitro pharmacological effect of this combination on the DNA of human melanoma cells (M3Dau cells). A quantitative polymerase chain reaction (QPCR) assay was used to measure DNA damage in a fragment (2.7 kb) of the hprt gene. The results show that treatment with BNAG enhances the number of lesions in the DNA of cystemustine-treated resistant malignant melanocytes, which may account for the high tumour-cell toxicity of the combination of cystemustine and BNAG.

In situ and in vitro expression of protein kinase C alpha in human melanocytes

Protein kinase C (PKC) is a multigene family of at least 12 isoforms involved in the transduction of extracellular signals. We investigated whether PKC-alpha, a major isoform known to be relatively abundant in brain tissue, is increased in human melanocytes relative to keratinocytes in vitro and in situ. Immunohistochemical staining for PKC-alpha in frozen neonatal human foreskin exhibited intermittent 2-3 + staining along the basal cell layer consistent with melanocytes, and 0-1 + staining of keratinocytes (on a scale of 0-3). Microscopic densitometry of the intermittent cellular staining was at least 3-fold greater than that of adjacent keratinocyte cell cytoplasm. Sequential frozen sections revealed similar intermittent cell staining with PKC-alpha and Mel-5 (tyrosinase related protein-1), known to specifically react with melanocytes. Northern blot analysis with a specific cDNA probe for PKC-alpha showed strong PKC-alpha mRNA expression in cultured melanocytes, whereas PKC-alpha mRNA in cultured non-stratifying keratinocytes was expressed at low levels. Western blot analysis revealed a prominent PKC-alpha band at approximately 80 kDa in melanocytes as opposed to a weak band in keratinocytes. Densitometry of the northern and western blots revealed that melanocytes had at least 10-fold more PKC-alpha mRNA and approximately 6-fold more PKC-alpha protein expression than keratinocytes. Total PKC activity measured in vitro revealed that melanocytes had 5-fold more activity than keratinocytes. The marked difference in melanocyte and keratinocyte expression of PKC-alpha provides further evidence for cell type specificity in the balance of PKC-alpha expression and may implicate differential PKC isoform signaling pathways in neuro-ectodermally derived cells.

Metal ligand-binding specificities of the tyrosinase-related proteins

The production of pigment in mammalian melanocytes requires the interaction of at least 3 melanogenic enzymes, which regulate the type and amount of melanins produced. All 3 known enzymes belong to the TRP gene family and share many common structural features, including two metal binding domains thought to be important to their catalytic functions. This study used radiolabeled metal ligand binding with autoradiography as well as reconstitution protocols to analyze the binding of metal cations to these enzymes. The results demonstrate that all 3 enzymes are capable of binding divalent metal cations; copper is bound to tyrosinase but not to TRP1 or TRP2. TRP2 requires zinc as its metal ligand, and small amounts of iron bound to TRP2; TRP1 did not bind copper, zinc or iron. Clearly, the specific binding of different metals by the TRPs is responsible for their distinct catalytic functions in melanogenesis.

Candida albicans suppresses transcription of melanogenesis enzymes in cultured melanocytes

Human skin can be colonized by different yeasts that may have an impact on skin pigmentation. In order to study this effect normal human melanocytes were cultured with different yeasts. Reverse transcription polymerase chain reaction (RT-PCR) analysis gives evidence that Candida albicans suppresses the transcription of melanogenesis enzymes.

Beta-lactoglobulin suppresses melanogenesis in cultured human melanocytes

The effects of whey proteins from bovine milk on melanogenesis in cultured human melanocytes were examined. Among the major protein components of milk whey including beta-lactoglobulin (BLG), alpha-lactalbumin, serum albumin, and IgG, only BLG exhibited the depigmenting effect at a concentration of 1 mg/ml. Also, BLG suppressed the activity of tyrosinase in these cells. Retinol, to which BLG is known to bind, slightly increased the pigmentation of the cells at concentrations in the range of 1-100 nM, and retinoic acid, a metabolite of retinol, exhibited a strong pigmentation-promoting effect within the same concentration range. Treatment of the cells with 1 mg/ml BLG completely abrogated the pigmentation induced by these A vitamins. These results demonstrate a novel biological activity of BLG and suggest that this activity is dependent on its ability to bind retinol.

Activation of the receptor tyrosine kinase Kit is required for the proliferation of melanoblasts in the mouse embryo

The development of neural crest-derived melanocytes, as well as haematopoietic and germ cells, is affected by mutations of the Kit and Mgf genes, which lead to dominant spotting (W) or steel (Sl) phenotypes. Mgf codes for the ligand of the receptor tyrosine kinase encoded by the Kit locus. KitW-v, a point mutation exerting a dominant negative effect, causes a substantial reduction in tyrosine kinase activity of the Kit receptor and leads to a characteristic pigmentation phenotype, namely dilute coat colour and a white ventral and head spot with reduced pigmentation of the feet and tail in the heterozygous animal, as well as slight anaemia. Homozygous animals lack coat pigmentation and are severely anaemic and infertile. Dct is a marker for cells of the melanoblast lineage. In order to study these cells in detail we have generated transgenic mouse lines carrying the lacZ reporter under the control of the Dct promoter and have used the embryonic expression of the reporter to identify early melanoblasts before they begin to produce pigment. Our transgenic lines have simplified the study of melanoblasts in the mouse embryo, and by crossing our mice with KitW-v mutants we have been able to identify the midgestation stages at which melanoblasts rely critically on Mgf/Kit interactions. We conclude that the survival of immature melanoblasts depends crucially upon Kit signalling up until E11, and later in development Kit plays a vital role in melanoblast proliferation. Our data do not describe a dependence upon Kit for melanoblast migration or differentiation.

Comparison of TRPs from murine and human malignant melanocytes

Most of our knowledge of the mammalian tyrosinase related protein (TRP) activities is derived from studies using murine melanoma models, such as B16 or Cloudman S-91 melanocytes. Owing to the high degree of homology between the murine and human enzymes, it has been assumed that their kinetic behaviour could be similar. However, the protein sequences at the metal binding sites of the murine and human enzymes show some differences of possible functional relevance. These differences are more significant in the metal-A site than in the metal-B site. By using three human melanoma cell lines (HBL, SCL, and BEU), we have studied the catalytic abilities of the human melanogenic enzymes in comparison to those obtained for the counterpart murine enzymes isolated from B16 melanoma. We have found that TRP2 extracted from all cell lines show dopachrome tautomerase activity, although the activity levels in human malignant melanocytes are much lower than in mouse cells. Reconstitution experiments of the human enzyme indicate that TRP2 has Zn at its metal binding-sites. Although mouse tyrosinase does not show DHICA oxidase activity, and this step of the melanogenesis pathway is specifically catalyzed by mouse TRP1, the human enzyme seems to recognize carboxylated indoles. Thus, human tyrosinase could display some residual DHICA oxidase activity, and the function of human TRP1 could differ from that of the murine protein. Attempts to clarify the nature of the metal cofactor in TRP1 were unsuccessful. The enzyme contains mostly Fe and Cu, but the reconstitution of the enzymatic activity from the apoprotein with these ions was not possible.

Melanin formation in the inner ear is catalyzed by a new tyrosine hydroxylase kinetically and structurally different from tyrosinase

Detergent solubilized extracts of the cochleae of adult gerbils (Meriones unguiculatus) contain a tyrosine hydroxylase activity measurable by the radiometric method of Pomerantz. This activity is not related to Fenton-type reactions, since it is not inhibited by free radical scavengers and is heat and protease sensitive. It does not appear to be related to a peroxidase (EC 1.11.1.7) since it is neither dependent on H2O2, nor inhibited by catalase (EC 1.11.1.6). The involvement of a tyrosine hydroxylase (EC 1.14.16.2) related to catecholamine synthesis is also unlikely, since the activity is highly sensitive to 2-mercaptoethanol and is not increased by addition of tetrahydrobiopterin. The activity in crude inner ear extracts displayed an unusual maturation behaviour, with a slow activation upon aging at 4 degrees C. Fully active enzyme displayed Michaelis-Menten kinetics, with a Km for L-tyrosine of 47 microM. Cochlear tyrosine hydroxylase, but not melanoma tyrosinase (EC 1.14.18.1), was inhibited by o-phenanthroline, and was not dependent on L-DOPA as cofactor for full enzymatic activity. Crude extracts were also able to catalyze L-DOPA oxidation and melanin formation from either L-tyrosine or L-DOPA. The tyrosine hydroxylase, DOPA oxidase and melanin formation activities most probably resided in the same molecule, as suggested by inhibition studies. A tyrosine hydroxylase and melanin formation activity with identical properties was found in primary cultures of stria vascularis melanocytes. Immunochemical evidence confirmed the absence of either the tyrosinase encoded for by the albino locus, or the tyrosinase isoenzyme TRP1, encoded for by the brown locus. Conversely, an immunorreactive band of molecular weight 70 kDa was specifically recognized by a tyrosinase polyclonal antiserum in Western blot experiments. These results prove that melanogenesis in the cochlea, and likely in other extracutaneous locations such as the brain, is catalyzed by enzymatic systems different from, but related to tyrosinase.

Qualitative and quantitative catalog of tyrosinase alternative transcripts in normal murine skin melanocytes as a basis for detecting melanoma-specific changes

The decline in cell differentiation commonly associated with malignant progression may be due in part to an increase in alternative splicing of the pre-mRNAs of tissue-specific genes. As a necessary basis for investigating this possibility in a murine model of cutaneous melanoma, the complete qualitative and quantitative inventory of alternative transcripts was sought for the tyrosinase gene in normal mouse skin melanocytes, as this gene plays a key role in melanization. Of 111 alternative mRNAs predicted from known splice sites in the gene, 19 isoforms were detected, and their abundances determined, through a systematized protocol involving splice junction-specific probes, exon-specific restriction enzymes, and quantitative RT-PCR with an RNA internal standard. No unpredicted tyrosinase transcripts were discovered. Two of the transcripts, each involving an intra-exonic deletion and present at relatively low abundance in normal skin, were subsequently found to be consistently upregulated in melanomas.

Aberrant retention of tyrosinase in the endoplasmic reticulum mediates accelerated degradation of the enzyme and contributes to the dedifferentiated phenotype of amelanotic melanoma cells

The loss of tyrosinase, the key enzyme in melanin synthesis, has been implicated in the dedifferentiation of malignant melanocytes. The presence of tyrosinase transcripts and antigenic peptides in melanoma tumors prompted us to investigate whether the basis for the loss of the enzyme was proteolytic degradation. Toward this aim, we followed the kinetics of synthesis, degradation, processing, chaperone binding, inhibitor sensitivity, and subcellular localization of tyrosinase in normal and malignant melanocytes. We found that, in amelanotic melanoma cell lines, tyrosinase failed to reach the melanosome, the organelle for melanin synthesis, because it was retained in the endoplasmic reticulum (ER) and then degraded. Tyrosinase appeared mostly as a 70-kDa core-glycosylated, endoglycosidase H-sensitive, immature form bound to the ER chaperone calnexin and had a life-span of only 25% of normal. Maturation and transit from the ER to the Golgi compartment was facilitated by lowering the temperature of incubation to 31 degrees C. Several proteasome inhibitors caused the accumulation of an approximately 60-kDa tyrosinase doublet that was more prominent in malignant than in normal melanocytes and promoted, to various degrees, the maturation of tyrosinase in melanoma cells and the translocation of the enzyme to melanosomes. The appearance of ubiquitinated tyrosinase after treatment of normal melanocytes with N-acetyl-L-leucinyl-L-leucinal-L-norleucinal reinforced our notion that some tyrosinase is normally degraded by proteasomes. Proteolysis of tyrosinase by proteasomes is consistent with the production of antigenic tyrosinase peptides that are presented to the immune system by major histocompatibility complex class I molecules.

The regulation of tyrosinase gene transcription

Tyrosinase is one of the key enzymes essential for melanogenesis. The control of its activity rests in part at the level of transcriptional regulation. The 5' promoter regions of the human, mouse, chicken, quail, snapping turtle, and frog tyrosinase sequences have been isolated and the mechanisms regulating the activity of these sequences are beginning to be elucidated. This review provides an update on the following aspects of tyrosinase gene regulation: basal promoter elements that determine the site of transcription initiation for RNA polymerase II; the cis-acting elements and DNA-binding factors that mediate melanocyte-specific expression of the tyrosinase gene; promoter elements involved in the temporal control of tyrosinase gene expression; additional elements that may be required to achieve wild-type levels of gene expression; and specific elements that may be required for modulation of tyrosinase gene expression in response to humoral factors or external stimuli that are known to influence the amounts of melanin synthesized by fully differentiated melanocytes. The wild type expression of tyrosinase is the result of the interaction of many different factors and it is becoming evident that certain elements and factors play more than one role in this process.

Isolation of a cDNA encoding a tyrosine kinase expressed in murine skin

Tyrosine phosphorylation is widely recognized as playing an important role in cell differentiation, proliferation and carcinogenesis. We used the polymerase chain reaction (PCR) method to identify protein tyrosine kinases that were expressed in the skin. Mixed oligonucleotide probes were used to amplify and screen neonatal murine skin mRNA for clones encoding amino acid contiguities, the conservation of which is characteristic of the protein tyrosine kinase family. When the PCR products were sequenced, a novel clone encoding protein tyrosine kinase, PTK70, was identified. A full-length cDNA was isolated from a mouse thymus cDNA library. The nucleotide and deduced amino acid sequence showed that it featured src-homology (SH) 2 domain, SH3 domain and kinase domain like other src family protein tyrosine kinases, but lacked the N-terminal myristylation site and C-terminal tyrosine residue. Although the mRNA of PTK70 was detected in various tissues ubiquitously, the degree of its expression differed among tissues. Murine skin is one in which PTK70 was expressed strongly, with its expression being much stronger in the epidermis and in the cell line derived from murine keratinocytes than in those from melanoma or fibroblast cell lines. These evidences suggest that PTK70 may be involved in proliferation or differentiation of keratinocytes in the skin.

Comparative action spectrum for ultraviolet light killing of mouse melanocytes from different genetic coat color backgrounds

The photobiology of mouse melanocyte lines with different pigment genotypes was studied by measuring colony-forming ability after irradiation. The cell lines were wild-type black (melan-a) and the mutants brown (melan-b) and albino (melan-c). Four lamps emitting various UV wavelengths were used. These were germicidal (UVC, 200-280 nm), 82.3% output at 254 nm, TL01 (UVB, 280-320 nm), 64.2% at 310-311 nm, FS20, broadband with peak output at 312 nm and Alisun-S (UVA, 320-400 nm), broadband with peak output at 350-354 nm. Appropriate filtration reduced the contaminating UVC to nonlethal levels for the longer waverange lamps. Wild-type melan-a was resistant to UVC and UVA compared to the other two cell lines, but the differences were small. The melan-c cell line was more resistant to UVB and markedly more resistant to FS20 than the pigmented lines. With the exception of FS20 responses, melan-b was more sensitive than melan-a to killing by the various UV lamps. There were more pyrimidine dimers (cyclobutane dimers and 6-4 photoproducts) produced in melan-a than in melan-c cells by UVC, UVB and FS20 lamps. Unlike melan-c, melan-a and melan-b showed a strong free radical signal of melanin character with a detectable contribution of pheomelanin-like centers. The contribution of pheomelanin was higher in melan-b than in melan-a, while the total melanin content in these two cell lines was comparable. The abundant melanin granules of wild-type melan-a melanocytes were well melanized and ellipsoidal, whereas those of melan-b melanocytes tended to be spherical. In the albino line (melan-c) the melanocytes contained only early-stage melanosomes, all of which were devoid of melanin. The results indicate that pigment does not protect against direct effect DNA damage in the form of pyrimidine dimers nor does it necessarily protect against cell death. High pigment content is not very protective against killing by UVC and UVA, and it may photosensitize in UVB the very wavelength range that is of greatest concern with respect to the rising incidence in skin cancer, especially melanoma. It is clear from these studies that, in pigment cells, monochromatic results cannot predict polychromatic responses and that cell death from solar irradiations is a complex phenomenon that depends on more than DNA damage.

Subcellular localization and function of melanogenic enzymes in the ink gland of Sepia officinalis

The ink gland of the cuttlefish Sepia officinalis has traditionally been regarded as a convenient model system for investigating melanogenesis. This gland has been shown to contain a variety of melanogenic enzymes including tyrosinase, a dopachrome-rearranging enzyme and peroxidase. However, whether and to what extent these enzymes co-localize in the melanogenic compartments and interact is an open question. Using polyclonal antibodies that recognize the corresponding Sepia proteins, we have been able to demonstrate that peroxidase has a different subcellular localization pattern from tyrosinase and dopachrome-rearranging enzyme. Whereas peroxidase is located in the rough endoplasmic reticulum and in the matrix of premelanosomes and melanosomes, tyrosinase and dopachrome-rearranging enzyme are present in the rough endoplasmic reticulum-Golgi transport system, at the level of trans-Golgi cisternae, trans-Golgi network and coated vesicles, and in melanosomes on pigmented granules. These results fill a longstanding gap in our knowledge of the melanin-producing system in Sepia and provide the necessary background for dissection at the molecular level of the complex interaction between melanogenic enzymes. Moreover, the peculiar and complex organization of melanin in an invertebrate such as Sepia officinalis is surprising and could provide the basis for understanding the process in more evolved systems such as that of mammals.