Abstract
ObjectiveTo investigate the associations of TP53 R72P and MDM2 T309G SNPs with HPV infection status, HPV oncogenic risk and HIV infection status.DesignCross-sectional study combining two groups (150 HIV-negative and 100 HIV-positive) of women.MethodsData was collected using a closed questionnaire. DNA was extracted from cervical samples. HPV infection status was determined by nested-PCR, and HPV oncogenic risk group by Sanger sequencing. Both SNPS were genotyped by PCR-RFLP. Crude and adjusted associations involving each exposure (R72P and T309G SNPs, as well as 13 models of epistasis) and each outcome (HPV status, HPV oncogenic risk group and HIV infection) were assessed using logistic regression.ResultsR72P SNP was protectively associated with HPV status (overdominant model), as well as T309G SNP with HPV oncogenic risk (strongest in the overdominant model). No epistatic model was associated with HPV status, but a dominant (R72P over T309G) protective epistatic effect was observed for HPV oncogenic risk. HIV status was strongly associated (risk factor) with different epistatic models, especially in models based on a visual inspection of the results. Moreover, HIV status was evidenced to be an effect mediator of the associations involving HPV oncogenic risk.ConclusionsWe found evidence for a role of R72P and T309G SNPs in HPV status and HPV oncogenic risk (respectively), and strong associations were found for an epistatic effect in HIV status. Prospective studies in larger samples are warranted to validate our findings, which point to a novel role of these SNPs in HIV infection.
Highlights
Infection susceptibility variabilityamong individuals is observable in many infectious diseases
We found evidence for a role of R72P and T309G SNPs in HPV status and HPV oncogenic risk, and strong associations were found for an epistatic effect in HIV status
Considering the roles of R72P and T309G SNPs in p53 apoptosis and regulation and the evidence for a role of p53 pathway in HPV and HIV biology, we aimed to investigate the association of these SNPs with HPV infection status, HPV oncogenic risk and HIV infection status
Summary
Infection susceptibility variabilityamong individuals is observable in many infectious diseases. These findings are currently being incorporated into therapeutic approaches [2,3], evidencing that understanding the genetic basis ofviral infection susceptibility have practical implications for human health In this regard, several genome-wide association studies (GWAS) have been conducted to investigate the roles of host genetics inHIV load and/or disease progression [4,5,6,7,8,9,10,11,12,13,14], and, more recently, some GWAS focused on genetic factors associated with HIV acquisition in different populations [15,16,17,18,19,20]. Such attempts indicate the importance given to host genetics regarding HIV pathogenesis
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