Lyndee L. Scurr scite author profile

Oncogene-induced senescence acts as a barrier against tumour formation and has been implicated as the mechanism preventing the transformation of benign melanocytic lesions that frequently harbour oncogenic B-RAF or N-RAS mutations. In the present study we systematically assessed the relative importance of the tumour suppressor proteins p53, p21Waf1, pRb and p16INK4a in mediating oncogene-induced senescence in human melanocytes. We now show that oncogenic N-RAS induced senescence in melanocytes is associated with DNA damage, a potent DNA damage response and the activation of both the p16INK4a/pRb and p53/p21Waf1 tumour suppressor pathways. Surprisingly neither the pharmacological inhibition of the DNA damage response pathway nor silencing of p53 expression had any detectable impact on oncogene-induced senescence in human melanocytes. Our data indicate that the pRb pathway is the dominant effector of senescence in these cells, as its specific inactivation delays the onset of senescence and weakens oncogene-induced proliferative arrest. Furthermore, we show that although both p16INK4a and p21Waf1 are upregulated in response to N-RASQ61K, the activities of these CDK inhibitors are clearly distinct and only the loss of p16INK4a weakens senescence. We propose that the ability of p16INK4a to inhibit the cyclin D-dependent kinases and DNA replication, functions not shared by p21Waf1, contribute to its role in senescence. Thus, in melanocytes with oncogenic signalling only p16INK4a can fully engage the pRb pathway to alter chromatin structure and silence the genes that are required for proliferation.

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Oncogene-Induced Senescence Does Not Require the p16INK4a or p14ARF Melanoma Tumor Suppressors

Haferkamp

Scurr

Becker

et al. 2009

Journal of Investigative Dermatology

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Oncogene-induced senescence is considered to act as a potent barrier to cell transformation, and has been seen in vivo during the early stages of tumor development. Human nevus cells frequently express oncogenic N-RAS or B-RAF, and are thought to be permanently growth arrested. Many studies have suggested that the p16(INK4a) and, to a lesser extent, the p14ARF tumor suppressor proteins act as critical triggers of oncogene-induced senescence in nevi, and thus these proteins represent major inhibitors of progression to melanoma. There have also been reports, however, showing that p16(INK4a) and/or p14ARF is not sufficient to execute the oncogene-induced senescence program. In this study, we examined the impact of melanoma-associated N-RAS(Q61K) on melanocyte senescence and utilized RNA-interference vectors to directly assess the individual contribution of human p14ARF and p16(INK4a) genes to the N-RAS-induced senescence program. We formally show that cultured human melanocytes can initiate an effective oncogene-mediated senescence program in the absence of INK4a/ARF-encoded proteins. Our data are consistent with observations showing that senescent nevus cells do not always express p16(INK4a), and highlight the need to thoroughly explore INK4a/ARF-independent molecular pathways of senescence in human melanocytes.

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P53 in human melanoma fails to regulate target genes associated with apoptosis and the cell cycle and may contribute to proliferation

et al. 2011

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BackgroundMetastatic melanoma represents a major clinical problem. Its incidence continues to rise in western countries and there are currently no curative treatments. While mutation of the P53 tumour suppressor gene is a common feature of many types of cancer, mutational inactivation of P53 in melanoma is uncommon; however, its function often appears abnormal.MethodsIn this study whole genome bead arrays were used to examine the transcript expression of P53 target genes in extracts from 82 melanoma metastases and 6 melanoma cell lines, to provide a global assessment of aberrant P53 function. The expression of these genes was also examined in extracts derived from diploid human melanocytes and fibroblasts.ResultsThe results indicated that P53 target transcripts involved in apoptosis were under-expressed in melanoma metastases and melanoma cell lines, while those involved in the cell cycle were over-expressed in melanoma cell lines. There was little difference in the transcript expression of P53 target genes between cell lines with null/mutant P53 compared to those with wild-type P53, suggesting that altered expression in melanoma was not related to P53 status. Similarly, down-regulation of P53 by short-hairpin RNA (shRNA) had limited effect on P53 target gene expression in melanoma cells, whereas there were a large number of P53 target genes whose mRNA expression was significantly altered by P53 inhibition in melanocytes. Analysis of whole genome gene expression profiles indicated that the ability of P53 to regulate genes involved in the cell cycle was significantly reduced in melanoma cells. Moreover, inhibition of P53 in melanocytes induced changes in gene expression profiles that were characteristic of melanoma cells and resulted in increased proliferation. Conversely, knockdown of P53 in melanoma cells resulted in decreased proliferation.ConclusionsThese results indicate that P53 target genes involved in apoptosis and cell cycle regulation are aberrantly expressed in melanoma and that this aberrant functional activity of P53 may contribute to the proliferation of melanoma.

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Lyndee L. Scurr

The relative contributions of the p53 and pRb pathways in oncogene-induced melanocyte senescence

Oncogene-Induced Senescence Does Not Require the p16INK4a or p14ARF Melanoma Tumor Suppressors

P53 in human melanoma fails to regulate target genes associated with apoptosis and the cell cycle and may contribute to proliferation

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