Abstract

ABSTRACT Fanconi anemia (FA) is a rare genetic disorder caused by defects in DNA damage repair. FA patients often develop squamous cell carcinoma (SCC) at sites where high-risk human papillomaviruses (HPVs) are known to cause cancer, including the cervix. However, SCCs found in human FA patients are often HPV negative, even though the majority of female FA patients with anogenital cancers had preexisting HPV-positive dysplasia. We hypothesize that HPVs contribute to the development of SCCs in FA patients but that the continued expression of HPV oncogenes is not required for the maintenance of the cancer state because FA deficiency leads to an accumulation of mutations in cellular genes that render the cancer no longer dependent upon viral oncogenes. We tested this hypothesis, making use of Bi-L E7 transgenic mice in which we temporally controlled expression of HPV16 E7, the dominant viral oncogene in HPV-associated cancers. As seen before, the persistence of cervical neoplastic disease was highly dependent upon the continued expression of HPV16 E7 in FA-sufficient mice. However, in mice with FA deficiency, cervical cancers persisted in a large fraction of the mice after HPV16 E7 expression was turned off, indicating that these cancers had escaped from their dependency on E7. Furthermore, the severity of precancerous lesions also failed to be reduced significantly in the mice with FA deficiency upon turning off expression of E7. These findings confirm our hypothesis and may explain the fact that, while FA patients have a high frequency of infections by HPVs and HPV-induced precancerous lesions, the cancers are frequently HPV negative.Importance Fanconi anemia (FA) patients are at high risk for developing squamous cell carcinoma (SCC) at sites where high-risk human papillomaviruses (HPVs) frequently cause cancer. Yet these SCCs are often HPV negative. FA patients have a genetic defect in their capacity to repair damaged DNA. HPV oncogenes cause an accumulation of DNA damage. We hypothesize, therefore, that DNA damage induced by HPV leads to an accumulation of mutations in patients with FA deficiency and that such mutations allow HPV-driven cancers to become independent of the viral oncogenes. Consistent with this hypothesis, we found that cervical cancers arising in HPV16 transgenic mice with FA deficiency frequently escape from dependency on the HPV16 oncogene that drove its development. Our report provides further support for vaccination of FA patients against HPVs and argues for the need to define mutational profiles of SCCs arising in FA patients in order to inform precision medicine-based approaches to treating these patients.

Highlights

  • Fanconi anemia (FA) is a rare, recessive, autosomal disease associated with bone marrow failure, acute myelogenous leukemia (AML), and squamous cell carcinoma (SCC), the latter arising at sites known to be associated with human papillomaviruses (HPVs)-driven cancers, the female reproductive tract and the head/neck region [1]

  • To examine if HPV16 E7 increases the incidence of cervical cancer, Bi-L E7 and K14-tTA transgenic mice were crossed to FancD2 heterozygous mice to generate Bi-L E7/ FancD2ϩ/Ϫ and Bi-L E7/FancD2ϩ/Ϫ mice

  • Mice were treated with 17␤-estradiol, which synergizes with HPV oncogenes, for 10 months

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Summary

Introduction

Fanconi anemia (FA) is a rare, recessive, autosomal disease associated with bone marrow failure, acute myelogenous leukemia (AML), and squamous cell carcinoma (SCC), the latter arising at sites known to be associated with HPV-driven cancers, the female reproductive tract and the head/neck region [1]. These genes encode proteins that assemble at sites of damaged DNA at stalled replication forks [5] This leads to the monoubiquitination of the “ID” complex composed of FANCI and D2 proteins [6]. We have shown previously that K14E7 transgenic mice, which constitutively express the HPV16 E7 oncogene in stratified squamous epithelium, develop cervical cancer when treated with estrogen [11, 13]. We have shown, using Bi-L E7 transgenic mice in which the HPV16 E7 is under the control of a tetracycline-regulated transcription factor, that cervical cancers require the continued expression of HPV16 E7 in FA pathwaysufficient mice [18] This dependency on E7 was observed even in the context of constitutive expression of HPV16 E6, the second viral oncogene expressed in HPV-associated cancers [19]. HPV16-associated cancers on the FA pathway-sufficient background are addicted to the E7 oncogene

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