Inhibition of retinoblastoma protein translation by UVB in human melanocytic cells and reduced cell cycle arrest following repeated irradiation.

In human melanocytes and a human melanoma cell line (MM96L), the level of the retinoblastoma gene product (pRB) detected by Western blotting transiently decreased to 55% and 70% of controls respectively 9-12 h after a noncytostatic exposure (75 Jm-2) to UVB (280-315 nm) and to 2% and 14% 48 h after a cytostatic exposure (300 Jm-2). The pRB levels in fibroblasts and HeLa showed minimal loss, and under some conditions increased compared with unirradiated cells. Equitoxic doses of gamma radiation, cisplatin or the antimetabolite deoxyinosine had little effect on pRB levels. UVC (254 nm) was less inhibitory compared with equitoxic UVB. No loss of pRB mRNA was found in MM96L after UVB, nor was pRB protein stability significantly affected. Synthesis of new pRB in MM96L 24 h after UVB was 16% of controls, suggesting that loss of pRB results from a UVB-specific inhibition of translation. Compared with HeLa cells and fibroblasts, MM96L cells exhibited reduced cycle arrest if irradiated when pRB was depleted by a previous UVB exposure. These results suggest a mechanism whereby down-regulation of pRB translation by UVB may play a role in genesis of melanoma.

Tumor selectivity and transcriptional activation by azelaic bishydroxamic acid in human melanocytic cells.

Azelaic bishydroxamic acid (ABHA), a potent differentiating agent for lymphoid cells, was selectively toxic for 5 human tumor cell lines and transformed human melanocytes and keratinocytes (dose for 37% survival, D37, 30-100 microg/mL) compared with normal cells (melanocytes, fibroblasts; D37 > 300 microg/mL). Dendritic morphology was the only indicator found for increased differentiation, markers for the pigmentation pathway being unchanged or inhibited by ABHA. In contrast to hexamethylene bisacetamide and azelaic acid, ABHA significantly increased the HIV LTR, SV40 and c-fos promoter activities during a 24 hr treatment. Metallothionein promoter activity was enhanced by 5 hr treatment with ABHA in a sensitive melanoma cell line (MM96L) but was inhibited in a more resistant line (HeLa); c-fos promoter activity was inhibited in HeLa during this time. Transcription from a p53 binding response element was inhibited in MM96L by a 24 hr ABHA treatment but enhanced in HeLa. ABHA may represent a structural prototype for designing more potent and selective anti-melanoma agents.

An animal model for human melanoma.

Experimental animal models that are directly relevant to human melanoma are lacking. We propose the Angora goat as a potentially useful field model with experimental potential and to this end have examined the prevalence and site distribution of all skin cancers in 28 Angora goat herds in Queensland, Australia. The prevalence of benign melanocytic lesions (lentigines) and their experimental induction by sunlight were also investigated. Among 1731 goats over 2 years of age, 139 malignant skin tumors were excised from 95 affected animals. The prevalence of squamous cell carcinoma (SCC) was 3.8% and of melanoma, 2.2%. Main site of occurrence of melanoma (83%) was the dorsal surface of the ear; in contrast SCC occurred mostly (84%) on the perineum. Lentigines were darker and more prevalent on the exposed compared with the unexposed surface of the ear in Angoras, analogous to the higher prevalence of nevi on the exposed compared with the less exposed inner surface of the arm in humans. Lentigines, which were also found on the perineum though lighter in color than on the dorsal ear, were absent in young animals under 3 months but were numerous in 1-3 year olds. Furthermore in an experimental substudy eight goats, having one flank repeatedly shorn and the contralateral flank left unshorn, revealed consistently more solar lentigines on the shorn flank (P < 0.05) when both sides were examined after 9 months. Histopathological examination of paired skin biopsies from five of these goats also showed more abundant pigmentation in skin from the exposed, as compared with the unexposed flank. These findings indicate that sunlight induces tumors and lentigines in goats in a highly site-specific manner. The Angora goat model may suggest paradigms for explaining the site differences observed for human melanoma and may also be useful in the future clarification of molecular changes following carcinogenic levels of sun exposure.

Biphasic response of the metallothionein promoter to ultraviolet radiation in human melanoma cells.

Because metallothionein (MT) is elevated and may be protective in UV-irradiated skin, we have studied the effects of UV and other agents on MT transcription using the sheep MT 1A promoter, linked to the beta-galactosidase gene and stably transfected into human cell lines. beta-galactosidase reporter activity was inducible by adding Zn2+ ions to the medium (100 microM for 2-4 h). Two differentiating agents, butyric acid and azelaic bishydroxamic acid (ABHA), significantly increased the response to Zn2+ in a melanoma cell line (MM96L-gal). UVB (280-315 nm) had two distinct, time-dependent effects. During the first 4 h after irradiation, high doses of UVB inhibited induction by Zn2+, an effect that was made more acute by simultaneous exposure to the differentiating agents. These changes in reporter activity were not due to alterations in Zn2+ transport into the cell. The UVB-depressed MT response subsequently recovered and by 24 h was double the control, yet remained sensitive to ABHA. Reporter activity in transfected HeLa cells differed from that in MM96L, being depressed 4 and 24 h after UVB and insensitive to ABHA at both times. Galactosidase reporter activity driven by non-MT promoters was not affected by these treatments. Dependence of MT transcriptional activity on UV-related DNA damage could be inferred because equitoxic UVC (254 nm) affected the response to Zn2+ in a similar fashion, whereas UVA, cisplatin and a methylating agent had no effect. The MT response was partly dependent on the PKC signal transduction pathway because it was inhibited by phorbol ester in HeLa, and by bisindolyl maleimide in HeLa and MM96L. The biphasic MT transcriptional response may model a signal transduction pathway that gives an early, depressed response to acute UV damage, with exacerbation by concurrent differentiation stimuli, but switches to a positive, cell-specific and potentially protective response at later times.

UVB-specific regulation of gene expression in human melanocytic cells: cell cycle effects and implication in the generation of melanoma.

Analysis of the expression of a number of known genes in cultured human cells has revealed UVB-induced changes that may be specific for melanocytic cells. The response of c-fos, p53 and HIV-LTR reporter constructs to UVB and UVC was reduced in MM96L melanoma cells compared to HeLa. Cell cycle arrest produced by UVA, gamma radiation, cisplatin or the antimetabolite deoxyinosine differed from that of UVB. Cell cycle analysis after multiple doses of UVB raised the possibility that UVB-induced pRb depletion could result in increased mutation and thus enhanced tumourigenesis of irradiated melanocytes in skin subjected to a defined pattern of UVB exposure. To extend the analysis of gene expression in cultured melanocytic cells to uncharacterised genes, promoter trap cell clones containing unknown genes 'tagged' by a beta-galactosidase reporter construct were generated from MM96L cells. Altered gene expression in clones treated with a panel of DNA-damaging agents was quantitated by measurement of beta-galactosidase activity. Of the clones containing 'tagged' endogenous promoters induced by UVB, 52% were induced only by UVB and not by other DNA-damaging agents (cisplatin, N-methyl-N-nitro-nitrsoguanidine, fotemustine). One third of the clones were also activated by TPA suggesting that general DNA damage responses involving PKC are activated less frequently than unique pathways of gene activation. Overall, 60% of the 50 clones that responded to the panel of agents were induced by only one of the agents, indicating that a high proportion of genes are induced by agent-specific mechanisms. In the long term, promoter trapping may allow the full repertoire of UVB-inducible genes to be characterised.

Analysis of grape ESTs: global gene expression patterns in leaf and berry.

Analysis of 2479 ESTs from Vitis vinifera berry tissue and 2438 from leaf revealed that 1% of the ESTs match to known Vitis proteins, 72% to plant proteins, 11% to non-plant, and 16% had no match (P[N]>0.5). The levels of redundancy were similar in the leaf and berry libraries. Only 12% of the genes matched by the ESTs were common to both libraries indicating marked differences in the genes expressed in the two tissues. The abundance of transcripts with predicted cellular roles in leaf and berry were estimated by classifying the primary BLAST matches to known proteins (score >80) into functional categories. Thirty-six percent of the leaf transcripts were involved in photosynthesis, compared to 3% in the berry. This is a much higher proportion of transcripts involved with a function limited to specialized cells, than was found when transcripts of 33 human tissues were compared using a similar approach, suggesting plant cells may involve their cellular machinery to a greater extent in specialized activities than animal cells. Relatively enhanced expression of specific transcription factors, and genes involved in defense, detoxification, stress response, proteolysis, trafficing, and signal transduction, suggests berry tissue is actively engaged in responding to environmental stimuli.