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HPV-16 E7 Reveals a Link between DNA Replication Stress, Fanconi Anemia D2 Protein, and Alternative Lengthening of Telomere–Associated Promyelocytic Leukemia Bodies

¹ Biochemistry and Molecular Genetics Graduate Program, and Departments of ² Pathology and ³ Microbiology and Molecular Genetics, University of Pittsburgh School of Medicine; ⁴ Molecular Virology Program, University of Pittsburgh Cancer Institute, Pittsburgh, Pennsylvania; and ⁵ Division of Hematology and Oncology, Cincinnati Children's Hospital Medical Center, Cincinnati, Ohio

Requests for reprints: Stefan Duensing, Molecular Virology Program, University of Pittsburgh Cancer Institute, Hillman Cancer Center, Research Pavilion Suite 1.8, 5117 Centre Avenue, Pittsburgh, PA 15213. Phone: 412-623-7719; Fax: 412-623-7715; E-mail: duensing{at}pitt.edu.

Key Words: HPV-16 E7 • FANCD2 • ALT • APB • replication stress • telomere • cancer

Expression of the high-risk human papillomavirus (HPV-16) E7 oncoprotein extends the life span of primary human keratinocytes and partially restores telomere length in the absence of telomerase. The molecular basis of this activity is incompletely understood. Here, we show that HPV-16 E7 induces an increased formation of alternative lengthening of telomeres (ALT)–associated promyelocytic leukemia bodies (APBs) in early passage primary human keratinocytes as well as HPV-negative tumor cells. This activity was found to require sequences of HPV-16 E7 involved in degradation of the retinoblastoma tumor suppressor protein as well as regions in the COOH terminus. HPV-16 E7–induced APBs contained ssDNA and several proteins that are involved in the response to DNA replication stress, most notably the Fanconi anemia D2 protein (FANCD2) as well as BRCA2 and MUS81. In line with these results, we found that FANCD2-containing APBs form in an ATR-dependent manner in HPV-16 E7–expressing cells. To directly show a role of FANCD2 in ALT, we provide evidence that knockdown of FANCD2 rapidly causes telomere dysfunction in cells that rely on ALT to maintain telomeres. Taken together, our results suggest a novel link between replication stress and recombination-based telomere maintenance that may play a role in HPV-16 E7–mediated extension of host cell life span and immortalization. [Cancer Res 2008;68(23):9954–63]