The mechanism through which cutaneous papillomaviruses induce lesions is largely unknown. Ectopic expression of the DeltaNp63alpha isoform highly increased the viral promoter activity. The co-expression of c-Jun mediated and increased the DeltaNp63alpha activity by binding to the AP-1 site in an enhancer region of the HPV 20 URR. This strong activation by DeltaNp63alpha is diminished in the presence of wtp53 and abolished by the simultaneous expression of "hot-spot" mutant p53 R248W. We demonstrate that c-Jun is responsible for the viral promoter activation through its direct interaction with both DeltaNp63alpha and wtp53. The downregulation by p53 mutant R248W is accompanied by reduced protein levels of DeltaNp63alpha and phosphorylated c-Jun. The data presented in this study provide insight into a possible mechanism through which these cellular proteins may modulate a cutaneous papillomavirus genome to induce viral replication, latent infection or malignant transformation.
We previously reported a rare germline variant (c.1-6531) that resulted in allele–specific expression (ASE) of death-associated protein kinase 1 (DAPK1) and predisposition to chronic lymphocytic leukemia (CLL). We investigated a cohort of CLL patients lacking this mutation for the presence of ASE of DAPK1. We developed a novel strategy that combines single-nucleotide primer extension (SNuPE) with MALDI-TOF mass spectrometry, and detected germline DAPK1 ASE in 17 out of 120 (14.2%) CLL patients associated with a trend towards younger age at diagnosis. ASE was absent in 63 healthy controls. Germline cells of CLL patients with ASE showed increased levels of DNA methylation in the promoter region, however, neither genetic nor further epigenetic aberrations could be identified in the DAPK1 5′ upstream regulatory region, within distinct exons or in the 3′-UTR. We identified B-lymphoid malignancy related cell line models harboring allelic imbalance and found that allele-specific methylation in DAPK1 is associated with ASE. Our data indicate that ASE at the DAPK1 gene locus is a recurrent event, mediated by epigenetic mechanisms and potentially predisposing to CLL.
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