Mutational and functional analysis of HPV-16 URR derived from Korean cervical neoplasia

Abstract

Objective: The YY1 mutation has been suggested as one of the indicators that explains development of cervical neoplasia by episomal-type HPV. To extend this hypothesis, we examined whether a mutation(s) in the YY1 site is functionally related to the invasiveness of cervical neoplasia and the physical status of HPV DNA.

Methods: The URR sequences were obtained by PCR amplification of HPV-16 genome from CIN and invasive cancer patients and cloned into pUC18 for sequencing and into pBLCAT8+ for functional CAT assay.

Results: Our previous data classified HPV-infected patients into three groups: 3 cancer cases carrying episomal HPV DNA; 12 cancer cases carrying integrated HPV DNA; 12 CIN cases carrying episomal HPV DNA. The specific variants in HPV-16 URR were found in Korean women: G-->A transition at nt 7520 (100%, 27/27), A-->C transition at nt 7729 (70%; 19/27), and G-->A transition at nt 7841 (78%; 21/27). Selective mutations were observed at the YY1 binding sites of HPV-16 URR in the 3 patients with invasive cervical cancer who have the episomal forms of HPV-16 DNA: A-->C transition at nt 7484 and G-->A transition at nt 7488 (YY1-binding site 2; from 7481 to 7489). Additionally, C-->T transition at nt 7785 (YY1-binding site 3; from 7781 to 7790) was found in 2 of 3 patients. No YY1 site mutations were detected in the 12 CIN patients and in the HPV-integrated invasive cancer patients. To determine whether these mutations have effects on the expression of HPV E6/E7 genes driven by URR, the transient transfection assay was employed using URR-CAT reporter plasmid. The relative activities of three URR mutants from episomal HPV-16 DNA of cervical cancers were two- to fourfold higher than that of the HPV-16 URR prototype. In contrast, the URRs from integrated HPV-16 DNA in cervical cancer and from episomal HPV-16 DNA in CIN, where no mutation of the YY1 binding site was detected, showed similar levels of promoter activity to that of the URR prototype.

Conclusions: Our results support the hypothesis that the mutation at the YY1 binding site is functionally related to the development of cervical neoplasia caused by episomal HPV-16 DNA in Korean cervical cancer patients. Thus, mutation in the YY1 site of episomal HPV-16 URR may play a corresponding role of HPV integration in the progression of cervical cancer.