Abstract
Human papillomavirus (HPV) is present in a subset of head and neck squamous cell carcinomas (HNSCCs). The cell cycle regulatory Rb-E2F pathway is a major target of HPV and is perturbed by these viruses in cell culture and animal models, as well as in human tumors. In this study, we examined differences in the Rb-E2F pathway displayed by HPV-positive (HPV+) and HPV-negative (HPV-) HNSCC tumors. We created a computational approach that effectively categorizes gene expression as unchanged, downregulated, or upregulated by comparing the gene's mRNA levels in the tumor to the corresponding mRNA levels across normal tissue samples. Our findings suggest that there are three major HNSCC subtypes, defined by differences in the presence of HPV and in E2F-regulated gene expression. Most HPV+ HNSCC tumors show upregulation of E2F-regulated genes, which is consistent with inactivation of Rb by the virus-encoded E7 protein. In contrast, many HPV- HNSCCs show little or no change in the Rb-E2F pathway. However, we also identified a set of tumors that show alterations in the Rb-E2F pathway in the absence of HPV. Thus, one class of HPV- HNSCCs arise without significant alterations of the Rb-E2F pathway, while a second class of tumors appear to deregulate this pathway independently of the presence of HPV. IMPORTANCE Cancer is a complex disease that can be caused by a multitude of factors. HNSCC is complicated because some of these cancers are clearly associated with HPV, while others have no viral involvement. Determining the pathways that are commonly altered in both types of HNSCC, as well as those that are unique to viral and nonviral tumors, is important for a basic understanding of how these cancers arise and progress and critical to the development of targeted therapies. In this work, we show that all HPV-associated tumors have increased expression of E2F target genes, indicating that the tumor suppressor function of Rb is blocked. Importantly, Rb is also inhibited in a subset of nonviral tumors, suggesting that mutations present in these cancers mimic the action of the HPV E6 and E7 oncogenes.
Highlights
Human papillomavirus (HPV) is present in a subset of head and neck squamous cell carcinomas (HNSCCs)
Growth signals induce the formation of cyclin/cyclin-dependent kinase (CDK) complexes, which inactivate Rb through phosphorylation, and growth-inhibiting signals promote the expression of cyclin kinase inhibitors (CKIs), which interact with cyclin/CDK complexes and prevent them from phosphorylating Rb, inhibiting E2F-responsive genes (ERGs) expression [6, 10]
Using a P value cutoff of 1eϪ4, we found that the mRNA levels of 17/25 genes were significantly different between HPVϩ and virus-negative samples (Table S1 in Data Set S1)
Summary
Human papillomavirus (HPV) is present in a subset of head and neck squamous cell carcinomas (HNSCCs). Msphere.asm.org 1 tients, identifying genetic/clinical subtypes of the cancer based on the functionality of numerous pathways [3] They defined subtypes of HPV-positive (HPVϩ) and HPV-negative (HPVϪ) tumors, primarily based on unique mutations and copy number variants, and analyzed how these correlated with various pathways. These studies concluded that the presence of HPV represents a distinct subgroup of the cancer with its own unique genetic signatures, through its modification of the cell cycle regulatory pathway. The proteins encoded by many ERGs are involved in nucleotide synthesis, DNA replication, and cell cycle progression In some cancers, this pathway is altered so that E2F-dependent transcription occurs in an unregulated fashion [6]. We focus on the Rb-E2F/p53 pathways to identify HNSCC subtypes
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