Abstract
BackgroundHuman papilloma virus infection is known to influence oropharyngeal cancer (OPC) risk, likely via sexual transmission. However, sexual behaviour has been correlated with other risk factors including smoking and alcohol, meaning independent effects are difficult to establish. We aimed to evaluate the causal effect of sexual behaviour on the risk of OPC using Mendelian randomization (MR).MethodsGenetic variants robustly associated with age at first sex (AFS) and the number of sexual partners (NSP) were used to perform both univariable and multivariable MR analyses with summary data on 2641 OPC cases and 6585 controls, obtained from the largest available genome-wide association studies (GWAS). Given the potential for genetic pleiotropy, we performed a number of sensitivity analyses: (i) MR methods to account for horizontal pleiotropy, (ii) MR of sexual behaviours on positive (cervical cancer and seropositivity for Chlamydia trachomatis) and negative control outcomes (lung and oral cancer), (iii) Causal Analysis Using Summary Effect estimates (CAUSE), to account for correlated and uncorrelated horizontal pleiotropic effects, (iv) multivariable MR analysis to account for the effects of smoking, alcohol, risk tolerance and educational attainment.ResultsIn univariable MR, we found evidence supportive of an effect of both later AFS (IVW OR = 0.4, 95%CI (0.3, 0.7), per standard deviation (SD), p = < 0.001) and increasing NSP (IVW OR = 2.2, 95%CI (1.3, 3.8) per SD, p = < 0.001) on OPC risk. These effects were largely robust to sensitivity analyses accounting for horizontal pleiotropy. However, negative control analysis suggested potential violation of the core MR assumptions and subsequent CAUSE analysis implicated pleiotropy of the genetic instruments used to proxy sexual behaviours. Finally, there was some attenuation of the univariable MR results in the multivariable models (AFS IVW OR = 0.7, 95%CI (0.4, 1.2), p = 0.21; NSP IVW OR = 0.9, 95%CI (0.5 1.7), p = 0.76).ConclusionsDespite using genetic variants strongly related sexual behaviour traits in large-scale GWAS, we found evidence for correlated pleiotropy. This emphasizes a need for multivariable approaches and the triangulation of evidence when performing MR of complex behavioural traits.
Highlights
Human papilloma virus infection is known to influence oropharyngeal cancer (OPC) risk, likely via sexual transmission
We performed a number of sensitivity analyses: (i) Mendelian randomization (MR) methods to account for horizontal pleiotropy, (ii) MR of sexual behaviours on positive and negative control outcomes, (iii) Causal Analysis Using Summary Effect estimates (CAUSE), to account for correlated and uncorrelated horizontal pleiotropic effects [29], (iv) multivariable MR analysis to account for the effects of smoking, alcohol, risk tolerance and educational attainment
Univariable Mendelian Randomization Using 139 single-nucleotide polymorphisms (SNPs) robustly and independently associated with at first sex (AFS) (Additional file 1), there was evidence of a protective effect of later AFS on OPC (IVW Odds ratio (OR) = 0.4, 95%confidence intervals (CI) (0.3, 0.7), per standard deviation (SD), p = < 0.001) which was consistent across methods robust to horizontal pleiotropy (MR-Egger, weighted median and weighted mode) (Table 1 & Additional file 2: Fig. S1A)
Summary
Human papilloma virus infection is known to influence oropharyngeal cancer (OPC) risk, likely via sexual transmission. While using tobacco products and consuming alcohol are well-established risk factors across all HNSC C subsites, oral human papilloma virus (HPV) infection has been identified as another risk factor, within the oropharyngeal subsite [3,4,5,6]. In developed countries such as the USA, 60–70% of oropharyngeal cancer (OPC) cases are reported to be HPV-positive [7], compared to only around 5% of all oral cancer (OC) cases. Antibodies against HPV oncoproteins may be potential biomarkers for OPC, with case-control studies demonstrating an association with seropositivity for late (L1) and early (E1, E2, E4, E6, E7) HPV16 proteins [11,12,13,14]
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