Harsh W. Sharma scite author profile

Squamous cell carcinoma of the skin (SCC) can progress by stages: sun-damaged epidermis, with individual disordered keratinocytes; actinic keratosis (AK), spontaneously regressing keratinized patches having aberrant cell differentiation and proliferation; carcinoma in situ; SCC and metastasis. To understand how sunlight acts as a carcinogen, we determined the stage at which sunlight mutates the p53 tumour-suppressor gene and identified a function for p53 in skin. The p53 mutations induced by ultraviolet radiation and found in > 90% of human SCCs were present in AKs. Inactivating p53 in mouse skin reduced the appearance of sunburn cells, apoptotic keratinocytes generated by overexposure to ultraviolet. Skin thus appears to possess a p53-dependent 'guardian-of-the-tissue' response to DNA damage which aborts precancerous cells. If this response is reduced in a single cell by a prior p53 mutation, sunburn can select for clonal expansion of the p53-mutated cell into the AK. Sunlight can act twice: as tumour initiator and tumour promoter.

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Mutation hotspots due to sunlight in the p53 gene of nonmelanoma skin cancers.

Ziegler

Leffell

Subrahmanyam

et al. 1993

Proc. Natl. Acad. Sci. U.S.A.

657

404

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To identify the sites in the p53 tumor suppressor gene most susceptible to carcinogenic mutation by sunlight, the entire coding region of 27 basal cell carcinomas (BCCs) of the skin was sequenced. Fifty-six percent of tumors contained mutations, and these were UV-like: primarily CC -* TT or C --T changes at dipyrimidine sites. Such mutations can alter more than half of the 393 amino acids in p53, but two-thirds occurred at nine sites at which mutations were seen more than once in BCC or in 27 previously studied squamous cell carcinomas of the skin. Seven of these mutation hotspots were specific to skin cancers. Internal-cancer hotspots not located at dipyrimidine sites were not mutated in skin cancers; moreover, UV photoproducts were absent at these nucleotides.The existence of hotspots altered the process of inactivating p53 in BCC compared to other cancers: allelic loss was rare, but 45% of the point mutations were accompanied by a second point mutation on the other allele. At least one of each pair was located at a hotspot. Sunlight, acting at mutation hotspots, appears to cause mutations so frequently that it is often responsible for two genetic events in BCC development.

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Differentiation of immortal cells inhibits telomerase activity.

Sharma

Sokoloski

Perez

et al. 1995

Proc. Natl. Acad. Sci. U.S.A.

242

147

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Telomerase, a ribonucleic acid-protein complex, adds hexameric repeats of 5'-TTAGGG-3' to the ends of mammalian chromosomal DNA (telomeres) to compensate for the progressive loss that occurs with successive rounds of DNA replication. Although somatic cells do not express telomerase, germ cells and immortalized cells, including neoplastic cells, express this activity. To determine whether the phenotypic differentiation of immortalized cells is linked to the regulation of telomerase activity, terminal differentiation was induced in leukemic cell lines by diverse agents. A pronounced downregulation of telomerase activity was produced as a consequence of the differentiated status. The differentiation-inducing agents did not directly inhibit telomerase activity, suggesting that the inhibition of telomerase activity is in response to induction of differentiation. The loss of telomerase activity was not due to the production of an inhibitor, since extracts from differentiated cells did not cause inhibition of telomerase activity. By using additional cell lineages including epithelial and embryonal stem cells, downregulation of telomerase activity was found to be a general response to the induction of differentiation. These findings provide the first direct link between telomerase activity and terminal differentiation and may provide a model to study regulation of telomerase activity.The ends of eukaryotic chromosomes, called telomeres, consist of an array of tandem repeats of the hexanucleotide 5'-TTAGGG-3'. It is currently assumed that telomeres were evolved to protect the ends of chromosomes against exonucleases and ligases, to prevent the activation of DNA-damage checkpoints, and to counter the loss of terminal DNA segments that occurs when linear DNA is replicated (for a review, see refs.

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Cell cycle-dependent modulation of telomerase activity in tumor cells.

Zhu

Kumar

Mandal

et al. 1996

Proc. Natl. Acad. Sci. U.S.A.

207

124

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Telomerase is a ribonucleoprotein complex that is thought to add telomeric repeats onto the ends of chromosomes during the replicative phase of the cell cycle. We tested this hypothesis by arresting human tumor cell lines at different stages of the cell cycle. Induction of quiescence by serum deprivation did not affect telomerase activity. Cells arrested at the G1/S phase of the cell cycle showed similar levels of telomerase to asynchronous cultures; progression through the S phase was associated with increased telomerase activity. The

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Multiple Mechanisms May Contribute to the Cellular Anti-Adhesive Effects of Phosphorothioate Oligodeoxynucleotides

Khaled

Benimetskaya

Zeltser

et al. 1996

Nucleic Acids Research

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Phosphorothioate oligodeoxynucleotides complementary to the p65 (Rel A) subunit of the NF-kappaB nuclear transcriptional regulatory factor have been suggested to be sequence specific blockers of cellular adhesion. We studied the effects of Rel A antisense, Rel A sense and other phosphorothioate oligodeoxynucleotides on cellular adhesion and found that blockade of adhesion was predominately non-sequence specific. Phosphorothioate oligodeoxynucleotides bind to the extracellular matrix (ECM) of NIH 3T3 cells, and to the ECM elements laminin and fibronectin. By use of a gel mobility shift assay, the association of the A subunit of laminin with a probe 12mer phosphodiester oligodeoxynucleotide could be demonstrated. This interaction was described by a single-site binding equation (K d = 14 microM). Human Rel A antisense and sense oligodeoxynucleotides, and two synthetic persulfated heparin analogs were excellent competitors of the binding of the probe oligodeoxynucleotide to laminin. Taken together, these data indicate that oligodeoxynucleotide binding occurred at or near the heparin-binding site. Competition for 5' 32p- SdT18 (an 18mer phosphorothioate homopolymer of thymidine) binding to fibronectin with the discrete heparin analogs, as well as with SdC28, was also observed. Phosphorothioate oligodeoxynucleotides (Rel A antisense >> Rel A sense) inhibited the binding of laminin to bovine brain sulfatide, but not to its cell surface receptors on MCF-7 cells. By flow cytometric analysis we have also shown, in contrast to what was observed with laminin, that phosphorothioates a non-specifically block the specific binding of fluoresceinated fibronectin to its cell surface receptors on phorbol-12,13-myristate acetate treated Jurkat cells. Blockade of specific binding occurred in the oligodeoxynucleotide treated cells in the presence or absence of oligomer in the media.

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Harsh W. Sharma

Sunburn and p53 in the onset of skin cancer

Mutation hotspots due to sunlight in the p53 gene of nonmelanoma skin cancers.

Differentiation of immortal cells inhibits telomerase activity.

Cell cycle-dependent modulation of telomerase activity in tumor cells.

Multiple Mechanisms May Contribute to the Cellular Anti-Adhesive Effects of Phosphorothioate Oligodeoxynucleotides

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