Activation of a Tip60/E2F1/ERCC1 network in human lung adenocarcinoma cells exposed to cisplatin.

The Tip60 and E2F1 proteins are key players of the cellular response induced by genotoxic stresses. Here, new insights into the involvement of both proteins during the DNA damage response are provided. We show that Tip60 interacts with E2F1 and promotes its acetylation. We identify the lysine residues 120/125 of the E2F1 protein as the prime target sites of Tip60 and show that acetylation at these sites promotes the accumulation of E2F1. Importantly, we demonstrate that cisplatin induces the accumulation of E2F1 in a Tip60-dependent manner. However, and in contrast to PCAF and p300, Tip60 is not required for the induction of apoptosis in cisplatin-treated cells. Instead, Tip60 and E2F1 are involved in the upregulation of the excision repair cross-complementation group 1 protein expression, an enzyme involved in the repair of cisplatin-induced DNA lesions. These findings identify Tip60 as a direct regulator of E2F1 and support their cooperative role in DNA repair.

A transcriptomic analysis of human centromeric and pericentric sequences in normal and tumor cells.

Although there is now evidence that the expression of centromeric (CT) and pericentric (PCT) sequences are key players in major genomic functions, their transcriptional status in human cells is still poorly known. The main reason for this lack of data is the complexity and high level of polymorphism of these repeated sequences, which hampers straightforward analyses by available transcriptomic approaches. Here a transcriptomic macro-array dedicated to the analysis of CT and PCT expression is developed and validated in heat-shocked (HS) HeLa cells. For the first time, the expression status of CT and PCT sequences is analyzed in a series of normal and cancer human cells and tissues demonstrating that they are repressed in all normal tissues except in the testis, where PCT transcripts are found. Moreover, PCT sequences are specifically expressed in HS cells in a Heat-Shock Factor 1 (HSF1)-dependent fashion, and we show here that another independent pathway, involving DNA hypo-methylation, can also trigger their expression. Interestingly, CT and PCT were found illegitimately expressed in somatic cancer samples, whereas PCT were repressed in testis cancer, suggesting that the expression of CT and PCT sequences may represent a good indicator of epigenetic deregulations occurring in response to environmental changes or in cell transformation.

Loss of histone H4K20 trimethylation occurs in preneoplasia and influences prognosis of non-small cell lung cancer.

PURPOSE: Epigenetic modifications of histone have crucial roles in the control of gene activity, nuclear architecture, and genomic stability. In this respect, they may contribute to the development and progression of cancer. We investigated whether epigenetic changes of histone H4 are involved in lung carcinogenesis. EXPERIMENTAL DESIGN: Epigenetic modifications of histone H4 were studied by immunohistochemistry in normal lung and 157 lung carcinoma using antibodies specifically recognizing the acetylated (Ac) lysines 5 (K5), K8, K12, K16, and trimethylated (me3) K20 residues of histone H4. Western blotting was used to validate the immunohistochemistry results. H4K20me3 was also studied in 17 preneoplastic lesions. Expression of the Suv4-20h1/2 trimethyltransferases was analyzed by quantitative reverse transcription-PCR in a subset of tumor samples. RESULTS: As compared with normal lung, cancer cells displayed an aberrant pattern of histone H4 modifications with hyperacetylation of H4K5/H4K8, hypoacetylation of H4K12/H4K16, and loss of H4K20 trimethylation. Alteration of H4K20 trimethylation was frequent in squamous cell carcinoma (67%) and was observed in early precursors lesions in which the level of H4K20me3 staining strongly decreased with disease progression. In adenocarcinoma, the down-regulation of H4K20me3 was less frequent (28%) but allowed the identification of a subgroup of stage I adenocarcinoma patients with reduced survival (P = 0.007). Loss of H4K20 trimethylation was associated with decreased expression of Suv4-20h2, a specific H4K20 trimethyltransferase involved in telomere length maintenance. CONCLUSIONS: Our findings indicate an important role of histone H4 modifications in bronchial carcinogenesis and highlight H4K20me3 as a candidate biomarker for early detection of and therapeutic approaches to lung cancer.

Lung cancer: a modified epigenome.

Epigenetic is the study of heritable changes in gene expression that occur without changes in DNA sequence. This process is important for gene expression and genome stability and its disruption is now thought to play a key role in the onset and progression of numerous tumor types. The most studied epigenetic phenomena includes post-translational modifications in DNA and histone proteins as well as microRN As expression. As epigenetic aberrations are potentially reversible, their correction has emerged as a potential strategy for the treatment of cancer. This review highlights the roles of chromatin epigenetic modifications and of microRN As expression in lung tumorigenesis and discusses the emerging epigenetic therapies which are being developed for the treatment of lung cancer.