Envoplakin, a novel precursor of the cornified envelope that has homology to desmoplakin.

The cornified envelope is a layer of transglutaminase cross-linked protein that is deposited under the plasma membrane of keratinocytes in the outermost layers of the epidermis. We present the sequence of one of the cornified envelope precursors, a protein with an apparent molecular mass of 210 kD. The 210-kD protein is translated from a 6.5-kb mRNA that is transcribed from a single copy gene. The mRNA was upregulated during suspension-induced terminal differentiation of cultured human keratinocytes. Like other envelope precursors, the 210-kD protein became insoluble in SDS and beta-mercaptoethanol on activation of transglutaminases in cultured keratinocytes. The protein was expressed in keratinizing and nonkeratinizing stratified squamous epithelia, but not in simple epithelia or nonepithelial cells. Immunofluorescence staining showed that in epidermal keratinocytes, both in vivo and in culture, the protein was upregulated during terminal differentiation and partially colocalized with desmosomal proteins. Immunogold EM confirmed the colocalization of the 210-kD protein and desmoplakin at desmosomes and on keratin filaments throughout the differentiated layers of the epidermis. Sequence analysis showed that the 210-kD protein is homologous to the keratin-binding proteins desmoplakin, bullous pemphigoid antigen 1, and plectin. These data suggest that the 210-kD protein may link the cornified envelope to desmosomes and keratin filaments. We propose that the 210-kD protein be named "envoplakin."

Induction of tumorigenicity and lack of in vitro growth requirement for 12-O-tetradecanoylphorbol-13-acetate by transfection of murine melanocytes with v-Ha-ras.

A nontumorigenic line of murine melanocytes, Mel-ab, has been transfected with the v-Ha-ras gene under transcriptional control of the Moloney murine leukemia virus long terminal repeat. Transfectants produced rapidly growing undifferentiated melanomas in recipient mice. The inhibition of melanin production in transformed cells, observable both in vitro and in vivo, suggests that ras may affect melanocyte cytodifferentiation. Mel-ab cells require the continual presence of 12-O-tetradecanoylphorbol-13-acetate, or other activators of protein kinase C, for in vitro growth. Transfectants expressing v-Ha-ras no longer manifested this requirement and were actually growth inhibited by the addition of protein kinase C activators. These results are consistent with the notion that ras acts via the protein kinase C pathway in conferring autonomous growth on Mel-ab cells.

Malignant melanoma in ultraviolet irradiated laboratory opossums: initiation in suckling young, metastasis in adults, and xenograft behavior in nude mice.

Litters of suckling young of the laboratory opossum (Monodelphis domestica) were irradiated with UV light from sunlamps with a spectral emission peak at 302 nm (UVB) to induce melanocytic nevi. Total doses of 0.87-5.0 kJ/m2 were divided equally among up to 14 exposures during the 19 days from birth. Of 358 sucklings exposed, 217 survived to weaning, and 22 (10%) possessed a nevus when shaved and examined at or after weaning. Affected animals were then exposed 3 times/week to 125 J/m2 of UVB for up to 45 weeks to promote progression to malignancy. Nevi of 8 of the 20 chronically-exposed animals progressed to malignant melanoma with metastases to lymph node(s). Cell cultures were prepared from affected nodes to confirm that pigmented nodal cells were metastatic melanomas. One established cell line (TD15L) contained highly pigmented, dendritic, malignant melanoma cells. These cells, injected s.c. as xenogeneic grafts into athymic nude mice, remained viable in the subcutis and were moderately tumorigenic in the dermis. UVR exposure of Monodelphis sucklings is a novel, effective, and proficient way of initiating melanocytic lesions for studies on susceptibility and progression to melanoma, and the cell lines derived from these melanomas will provide promising new reagents for chemotherapy and immunotherapy investigations.

Protein kinase C down-regulation, and not transient activation, correlates with melanocyte growth.

The nontumorigenic, immortal line of murine melanocytes, Mel-ab, requires the continual presence of biologically active phorbol esters for growth (R.E. Wilson et al., Cancer Res., 49:711-716, 1989). Comparable treatments of B16 murine melanoma cells result in partial inhibition of cell proliferation. The role of protein kinase C (PKC) in the modulation of growth of cells from these two melanocytic cell lines has been investigated. Significant levels of PKC were present in quiescent Mel-ab cells as determined by Western blotting, whereas no immunoreactive protein was detected in cell extracts from either proliferating Mel-ab or B16.F1 cells. Phosphorylation of a Mr 80,000 protein, which by one- and two-dimensional gel analysis comigrated with the known Mr 80,000 protein substrate of PKC in fibroblasts, was induced in 12-O-tetradecanoylphorbol-13-acetate-stimulated quiescent Mel-ab cells but not in proliferating Mel-ab cells or B16.F1 melanoma cells. Direct measurement of PKC activity in these cells demonstrated a 10-fold greater level of activity in quiescent Mel-ab cells (262 +/- 50 pmol/min/mg SD) compared with growing cells (22.8 +/- 11.8 pmol/min/mg SD). An intermediate level of activity was detected in proliferating B16.F1 melanoma cells (148.5 +/- 20.4 pmol/min/mg SD). The subcellular distribution of PKC was dependent upon the growth state of the cells such that quiescent Mel-ab cells displayed a higher level of activity in the cytosol, whereas growing Mel-ab cells displayed greater activity in the particulate fraction. Like many other transformed lines, B16.F1 melanoma cells constitutively expressed the majority of enzyme activity in the particulate fraction. Measurement of [3H]phorbol ester binding in intact cells paralleled the PKC activation data such that quiescent Mel-ab cells displayed binding of 1612 +/- 147 cpm/10(6) cells, whereas proliferating Mel-ab and B16.F1 melanoma cells displayed binding of 652 +/- 28 and 947 +/- 81 cpm/10(6) cells, respectively. Membrane-permeant diacylglycerol analogues, which activated but did not down-regulate PKC, were devoid of growth-stimulating effects on melanocytes, even in the presence of the specific diacylglycerol kinase inhibitor, R59022. Together, these data show that PKC down-regulation, and not activation, correlates with the growth of melanocytes in culture.

Polyoma middle T abrogates TPA requirement of murine melanocytes and induces malignant melanoma.

We have transfected the polyoma middle T oncogene into an immortal murine melanocyte cell line, Mel-ab. This highly pigmented line is phorbol ester (TPA) dependent for in vitro growth, suggesting activation and/or down regulation of Protein Kinase C (PKC) is essential for mitogenesis. Moreover, cells of this line do not form tumours when injected subcutaneously into immunocompetent or immunoincompetent mice. Here we show that PyMT alone is sufficient to produce TPA-independence and transformation to the tumourigenic state in transfected Mel-ab cells. Western blot analysis shows that middle T overcomes the TPA requirement by a mechanism independent of PKC down regulation though this does appear to occur when Mel-ab cells are grown continuously in TPA. These results suggest that PyMT is not exerting its transforming effect by PKC down regulation, but conceivably at some later stage of second messenger signalling, possibly through PyMT-c-src protein kinase activity.

Isolation and characterization of mutants affecting functional domains of ColE1 RNAI.

The control of DNA replication initiation in the plasmid ColE1 is mediated by RNAI, a 108 nucleotide plasmid-encoded RNA that is entirely complementary to the 5'-terminal region of the replication primer RNA. RNAI acts in trans to inhibit primer maturation. Previously, we constructed a plasmid in which the ColE1 RNAI was separated from the primer and placed under transcriptional control of the Serratia marcesens tryptophan promoter. This plasmid provides RNAI in trans in vivo and mediates ColE1-type incompatibility. To determine the critical structural and functional domains of RNAI, we have undertaken a mutational analysis of the RNAI gene carried by this plasmid. We have selected mutants that no longer mediate ColE1-type incompatibility in trans. From the DNA sequences of 18 mutants we have identified mutations at nine new sites in RNAI. In addition, we have determined the secondary structural features of several mutant RNAI species and compared them to wild-type RNAI. Analysis of these mutations has revealed several key features of RNAI secondary structure and function. The domains of RNAI identified in this work which are essential for its function are: the single-stranded loop regions; the integrity of the double-stranded stems; and the single-stranded 5' terminus.

Localization of minoxidil sulfotransferase in rat liver and the outer root sheath of anagen pelage and vibrissa follicles.

The precise biochemical mechanism and site(s) of action by which minoxidil stimulates hair growth are not yet clear. Minoxidil sulfate is the active metabolite of minoxidil, with regard to smooth muscle vasodilation and hair growth. Formation of minoxidil sulfate is catalyzed by specific PAPS-dependent sulfotransferase(s) and minoxidil-sulfating activities have been previously reported to be present in liver and hair follicles. One of these minoxidil-sulfating enzymes has been purified from rat liver (rat minoxidil sulfotransferase, MST) and a rabbit anti-MST antibody has been prepared. Using this anti-MST antibody, we have immunohistochemically localized minoxidil sulfotransferase in the liver and anagen hair follicles from rat. In rat pelage and vibrissa follicles, this enzyme is localized within the cytoplasm of epithelial cells in the lower outer root sheath. Although the immunolocalization of MST might not necessarily correlate with the MST activity known to be present in anagen follicles, the results of this study strongly suggest that the lower outer root sheath of the hair follicle may serve as a site for the sulfation of topically applied minoxidil.

In vivo regulation of murine hair growth: insights from grafting defined cell populations onto nude mice.

The nude mouse graft model for testing the hair-forming ability of selected cell populations has considerable potential for providing insights into factors that are important for hair follicle development and proper hair formation. We have developed a minimal component system consisting of immature hair follicle buds from newborn pigmented C57BL/6 mice and adenovirus E1A-immortalized rat vibrissa dermal papilla cells. Hair follicle buds contribute to formation of hairless skin when grafted alone or with Swiss 3T3 cells, but produce densely haired skin when grafted with a fresh dermal cell preparation. The fresh dermal cell preparation represents the single cell fraction after hair follicles have been removed from a collagenase digest of newborn mouse dermis. It provides dermal papilla cells, fibroblasts, and possibly other important growth factor-producing cell types. Rat vibrissa dermal papilla cells supported dense hair growth at early passage in culture but progressively lost this potential during repeated passage in culture. Of 19 E1A-immortalized, clonally derived rat vibrissa dermal papilla cell lines, the four most positive clones supported hair growth to the extent of approximately 200 to 300 hairs per 1-2 cm2 graft area. The remaining clones were moderately positive (five clones), weakly positive (three clones), or negative (seven clones). Swiss 3T3 cells prevented contraction of the graft area but did not appear to affect the number of hairs in the graft site produced by dermal papilla cells plus hair follicle buds alone. The relatively low hair density (estimated 1-5% of normal) resulting from grafts of hair follicle buds with the most positive of the immortalized dermal papilla cell clones compared to fresh dermal cells suggests that optimal reconstitution of hair growth requires some function of dermal papilla cells partially lost during the immortalization process and possibly the contribution of other cell types present in the fresh dermal cell preparation, which is not supplied by the Swiss 3T3 cells. The current graft system, comprising hair follicle buds and immortalized dermal papilla cell clones, provides an assay for positive or negative influences on hair growth exerted by added selected cell types, growth factors, or other substances. Characterization of the phenotype of the dermal papilla cell lines, which differ in their ability to support hair growth when grafted with hair follicle buds, may provide insight into specific dermal papilla cell properties important for their function in this system.

Regulation of hair follicle development: an in vitro model for hair follicle invasion of dermis and associated connective tissue remodeling.

During embryonic development presumptive hair follicle cells of epithelial and mesenchymal origin are determined in defined body locations. This is followed by rapid proliferation of epithelial cells and associated penetration into the dermis in response to as yet undetermined signals. A collagen matrix culture system, which maintains the three-dimensional relationships of hair follicle cells to each other, was developed to study the regulation of the enlargement of immature hair follicles and the accompanying remodeling of the dermis. In studies with a heterogeneous dermis-derived preparation of murine hair follicles, ranging in size from the earliest down-growing budding cell mass to hair-forming follicles, we had previously shown that cell proliferation was stimulated by cholera toxin and epidermal growth factor, but only the epidermal growth factor-stimulated proliferation was accompanied by digestion of the collagen matrix due to release of collagenolytic enzymes. Further studies revealed that transforming growth factor-alpha also stimulated hair follicle cell proliferation and collagenase release. However, although transforming growth factor-beta inhibited the transforming growth factor-alpha-stimulated proliferation, it enhanced the release and activation of collagenases and other gelatin-degrading enzymes detectable by gelatin zymography. Stimulation of collagenolytic activity depended on the three-dimensional hair follicle structure and did not occur in monolayer cultures of hair follicle cells. Comparison of hair follicle buds with more developed dermis-derived hair follicles, plated at the same cell density (based on DNA content), suggested that a greater fraction of cells in the bud-stage follicle responded to the growth factors by release of collagenases. Possibly only the cells in the advancing portion of growing hair follicles that are closest to the dermal papilla cell cluster produce the collagenases in response to growth factors. To examine the participation of dermal papilla cells in collagenase release and activation, several immortalized rat whisker dermal papilla cell lines were co-cultured with mouse hair follicle buds. Co-culture resulted in a marked enlargement of follicles as well as activation of the 92-kDa type IV collagenase, produced by hair follicle buds, that correlated with ability of the dermal papilla cells to stimulate hair formation in grafts of hair follicle buds on nude mice. Dermal papilla cells cultured alone produced the 72-kDa type IV collagenase, which was also activated during co-culture with hair follicle buds. Thus, two activities, both relevant for hair follicle development, namely, cell proliferation and release and activation of collagenases, have been stimulated in immature hair follicle buds by either growth-factor supplementation or interaction with dermal papilla cells.(ABSTRACT TRUNCATED AT 400 WORDS)

Immortalized rat whisker dermal papilla cells cooperate with mouse immature hair follicle buds to activate type IV procollagenases in collagen matrix coculture: correlation with ability to promote hair follicle development in nude mouse grafts.

An in vivo nude mouse graft model and an in vitro collagen matrix culture system were used to study interactions of immature hair follicle buds from newborn mice with clonally derived AdE1A-12S-immortalized rat whisker dermal papilla cell lines. Of the 19 available dermal papilla cell lines, four consistently supported good hair follicle development and hair growth in grafts. Seven cell lines were clearly negative in this assay, and the remaining eight cell lines yielded poor to moderate hair growth. As a correlate to in vivo extracellular matrix remodeling accompanying hair follicle development, type IV collagenase activity in the medium from cocultures of dermal papilla cells and hair follicle buds was analyzed by gelatin zymography. Hair follicle buds cultured alone secrete primarily the 92-kDa type IV procollagenase. Cocultivation of hair follicle buds with eight of the dermal papilla cell lines resulted in activation of this proenzyme and activation of the 72-kDa and 92-kDa type IV procollagenases produced by the dermal papilla cells. Seven of these eight dermal papilla cell lines support hair growth in the graft system. In the absence of dermal papilla cells, several growth factors induced activation of the 92-kDa procollagenase secreted by hair follicle buds cultured in serum-free medium: epidermal growth factor, transforming growth factor alpha, acidic fibroblast growth factor, and keratinocyte growth factor. The current working hypothesis is that a) hair follicle epithelial cells interact with dermal papilla cells in coculture by mutual induction of growth factors and cytokines that stimulate the release and activation of matrix remodeling proteases; and b) the ability of dermal papilla cells to interact with hair follicle epithelial cells in this way may be crucial for controlled dermal matrix remodelling during HF development.

A new allogeneic model for metastatic melanoma.

Metastatic melanoma cells, clonally derived from an affected lymph node of an ultraviolet-irradiated laboratory opossum, were allografted subcutaneously into suckling young, juveniles and adults to determine their tumorigenicity and metastatic potential. All injected 1- and 3-week-old suckling young survived well beyond weaning at 8 weeks. One died 12 weeks after injection from the effects of rampant metastatic involvement, while the rest were killed 13 to 26 weeks after injection. At necropsy, most animals showed extensive primary tumour growth, many showed metastasis to nodes and/or lungs, and in some there was dissemination to distant sites including liver and spleen. Animals injected as juveniles or adults rejected the allografts. Injection of allogeneic malignant melanoma cells during early postnatal development facilitates successful, long-term allografting and metastasis without concomitant immunosuppressive agents. Developmental lack of self-recognition (immunological immaturity) or induced tolerance may be responsible. This unique model system will be useful for further metastasis studies and may be valuable for investigations of novel antineoplastic therapies.

Inhibitors of mammalian melanocyte tyrosinase: in vitro comparisons of alkyl esters of gentisic acid with other putative inhibitors.

To discover safe and effective topical skin-lightening agents, we have evaluated alkyl esters of the natural product gentisic acid (GA), which is related to our lead compound methyl gentisate (MG), and four putative tyrosinase inhibitors, utilizing mammalian melanocyte cell cultures and cell-free extracts. Desirable characteristics include the ability to inhibit melanogenesis in cells (IC50 < 100 microg/mL) without cytotoxicity, preferably due to tyrosinase inhibition. Of the six esters synthesized, the smaller esters (e.g. methyl and ethyl) were more effective enzyme inhibitors (IC50 approximately 11 and 20 microg/mL, respectively). For comparison, hydroquinone (HQ), a commercial skin "bleaching" agent, was a less effective enzyme inhibitor (IC50 approximately 72 microg/mL), and was highly cytotoxic to melanocytes in vitro at concentrations substantially lower than the IC50 for enzymatic inhibition. Kojic acid was a potent inhibitor of the mammalian enzyme (IC50 approximately 6 microg/mL), but did not reduce pigmentation in cells. Both arbutin and magnesium ascorbyl phosphate were ineffective in the cell-free and cell-based assays. MG at 100 microg/mL exhibited a minimal inhibitory effect on DHICA oxidase (TRP 1) and no effect on DOPAchrome tautomerase (TRP-2), suggesting that MG inhibits melanogenesis primarily via tyrosinase inhibition. MG and GA were non-mutagenic at the hprt locus in V79 Chinese hamster cells, whereas HQ was highly mutagenic and cytotoxic. The properties of MG in vitro, including (1) pigmentation inhibition in melanocytes, (2) tyrosinase inhibition and selectivity, (3) reduced cytotoxicity relative to HQ, and (4) lack of mutagenic potential in mammalian cells, establish MG as a superior candidate skin-lightening agent.

Analysis of Batten disease candidate genes STP and STM.

We have sequenced a large proportion of the open reading frames (ORFs) of two phenol sulphotransferase gene transcripts (STP and STM) from three patients with Batten disease. This was done using reverse transcription and PCR amplification of total RNA followed by direct sequencing of the PCR products. No mutations or changes have been observed in either gene after sequencing 93% of the STP ORF and 72% of the STM ORF. Work is in progress to finish sequencing both genes which will allow the confirmation or exclusion of these phenol sulphotransferases having a role in the development of Batten disease.

Phenol sulfotransferases: candidate genes for Batten disease.

Batten disease (juvenile-onset neuronal ceroid lipofuscinosis; JNCL) is an autosomal recessive neurodegenerative disorder, characterized by the cytosomal accumulation of autofluorescent proteolipopigments in neurons and other cell types. The Batten disease gene (CLN3) has not yet been identified, but has been mapped to a small region of human chromosome area 16p12.1-p11.2. We recently reported the fortuitous discovery that the cytosolic phenol sulfotransferase gene (STP) is located within this same interval of chromosome 16p. Since phenol sulfotransferase is expressed in neurons, can sulfate lipophilic phenolic compounds, and is mapped near CLN3, STP is considered as a candidate gene for Batten disease. YAC and cosmid cloning results have further substantiated the close proximity of STP and a highly related sulfotransferase (STM), encoding the catecholamine-preferring enzyme, to the CLN3 region of chromosome 16p. In this report, we summarize some of the recent progress in the identification of two phenol sulfotransferase genes (STP and STM) as positional candidate genes for Batten disease.

Human dehydroepiandrosterone sulfotransferase. Purification, molecular cloning, and characterization.

Human tissues possess at least four distinct forms of cytosolic ST, three of which are involved in the sulfation of steroids. DHEA-ST is responsible for the majority of hydroxysteroid and bile acid sulfation in human tissues and abundant levels of the enzyme are present in human liver and adrenal tissues. In the adult human adrenal, DHEA-ST has been localized immunologically to the zona reticularis of the adrenal cortex. No age- or gender-related differences in the expression of DHEA-ST activity in adult human liver cytosols have been reported. The cDNA encoding DHEA-ST has been isolated from a human liver cDNA library and expressed in both mammalian COS cells and E. coli. Purification and molecular characterization studies suggest a single form of DHEA-ST in human tissues. The properties of DHEA-ST expressed in either mammalian or bacterial cells are very similar to those of the native enzyme. DHEA-ST can also bioactivate a number of procarcinogens to reactive electrophilic forms. Hydroxymethyl PAHs are sulfated and bioactivated at a relatively rapid rate by DHEA-ST, whereas 1'-hydroxysafrole and N-hydroxy-2-acetylaminofluorene are bioactivated to a lesser extent.

Identification and cloning of the Mycobacterium avium folA gene, required for dihydrofolate reductase activity.

Dihydrofolate reductase is an essential bacterial enzyme necessary for the maintenance of intracellular folate pools in a biochemically active reduced state. In this report, the Mycobacterium avium folA gene was identified by functional genetic complementation, sequenced, and expressed for the first time. It has an open reading frame of 543 bp with a G + C content of 73%. The translated polypeptide sequence shows 58% identity to the consensus sequence of the conserved regions from eight other bacterial dihydrofolate reductases. Recombinant M. avium dihydrofolate reductase was expressed actively in Escherichia coli, and SDS-PAGE analysis revealed a 20 kDa species, agreeable with that predicted from the polypeptide sequence:

UV-induced melanoma. A karyotype with a single translocation is stable after allografting and metastasis.

Metastatic melanoma cell lines were derived from a lymph node of a laboratory opossum, Monodelphis domestica, which had been exposed to mid-wavelength ultraviolet radiation (UVB) initially as a suckling young, and subsequently as a shaved juvenile and adult. The melanoma cell lines were dendritic and pigmented in vitro and contained a t(6;8)(p13;q13) as the only cytogenetic abnormality. The translocation was detected in 15% of primary cultures (passage 2) from the affected lymph node and in 100% of two ring-clone-derived lines, L1 and L2. The breakpoint or resulting partial trisomy of chromosomes 8 may have played a functional role in the tumorigenesis or metastasis of the tumor. The t(6;8) served as a convenient cytogenetic marker for allogeneic grafting studies in Monodelphis. The L2 cells were allografted subcutaneously (s.c.) into genetically diverse suckling young at 3 weeks of age and resulted in the growth of invasive, pigmented, primary and metastatic lesions affecting lymph nodes, lung, and other tissues. Metastatic variant cell lines, M1 and M3, were derived from the affected lungs of two animals and both lines demonstrated the same t(6;8), without additional numerical or structural chromosomal abnormalities. The maintenance of karyotypic stability with a single translocation during in vivo tumor growth and dissemination in this new allografting model is quiet remarkable, as most human metastatic melanomas exhibit multiple structural and numerical cytogenetic abnormalities.

Cell lines derived from ultraviolet radiation-induced benign melanocytic nevi in Monodelphis domestica exhibit cytogenetic aneuploidy.

The gray short-tailed opossum, Monodelphis domestica, develops dermal melanocytic nevi (MN) after long-term chronic exposure to UVB (midwavelength ultraviolet radiation) alone. We developed cell lines from six UVB-induced dermal benign melanocytic lesion biopsies. One of the MN was determined histologically to be a benign melanoma (BM), whereas the remainder were benign melanocytic hyperplasias (MH). The cell lines were not tumorigenic when injected subcutaneously into athymic nude mice. Protein extracts prepared from these cell lines were analyzed electrophoretically on polyacrylamide gels and protease zymograms in preliminary attempts to identify protein and protease markers for pathogenesis. Cytogenetic analyses showed that half (three of six) of the MN cell lines exhibited aneuploidy involving extra copies of chromosomes 3, 5, 7, and/or 8. This result suggests that nonrandom aneuploidy can be an early event in chronic UVB induction of benign dermal melanocytic lesions. Karyotyping also showed a centromeric variant of chromosome 7 in some animals, which was confirmed to be constitutional. These Monodelphis cell lines will be valuable reagents for future studies of UVB-induced damage to mammalian skin.

Topical toremifene: a new approach for cutaneous melanoma?

The distribution of topically applied toremifene (0.5-1 mg/day for 5 days) in the ultraviolet B (UVB)-induced Monodelphis domestica opossum melanoma model was examined. The mean concentration of toremifene measured in the skin was 1200 nmol/g, or > 500 times that detected in any other tissues (blood, brain, liver, testicles, heart, uterus, eyes). In plasma, toremifene could be detected in only one animal of six (0.04 nmol/ml). Intraperitoneal administration of 0.5 mg toremifene daily for 5 days in three female animals resulted in a mean uterus concentration of 22.9 nmol/g, or 400-fold that achieved by topical administration of 0.5 mg/day in three other female Monodelphis (0.05 nmol/g). The cytostatic effect of toremifene was studied in three human melanoma cell lines and three experimental cell lines derived from UVB-induced melanocytic nevi in M. domestica. Toremifene had a cytostatic effect on all cell lines (50% growth-inhibitory concentrations, 5.8-9.6 microM). Topical toremifene administration yields high local concentration with minimal systemic distribution. In addition, toremifene has a cytostatic effect at achievable concentrations in a variety of melanomatous cell lines.

Recent advances in cutaneous melanoma oncogenesis research.

The oncogenic transformation of epidermal melanocytes produces primary cutaneous melanoma. In this article, previously published cytogenetic, biochemical, molecular biology, and cell biology studies of cutaneous melanoma oncogenesis are reviewed. A variety of laboratory animal models have been developed for studies of the induction of melanoma, including mice, the laboratory opossum Monodelphis domestica, Sinclair swine, and Xiphophorus fish. Some of the advantages and disadvantages of these animal models are presented for comparison to human melanoma. Cytogenetic and loss of heterozygosity studies over the past decade have demonstrated that human metastatic melanomas contain numerous chromosomal abnormalities, and that normal melanocytes have putative tumor suppressor genes that are presumably deleted or inactivated in transformed melanocytes to yield malignant melanoma cells. The status of research efforts to identify the putative tumor suppressor genes of human chromosomes 1p, 6q, and 9p, implicated in sporadic and familial melanoma, is presented. Furthermore, the roles of ultraviolet radiation, genetic susceptibility, dominant oncogenes, growth factors, the p53 gene, antioxidant enzymes, and DNA tumor viruses in the formation of cutaneous primary melanoma are discussed.