Proteome-wide associations of pulse pressure in the UK Biobank

Abstract

Abstract Introduction Large artery stiffness (LAS) significantly contributes to the burden of cardiovascular morbidity and mortality, and is marked by an increased pulse pressure (PP)(1). Therapeutically targeting LAS may help in mitigating cardiovascular disease and other comorbidities. Purpose We aimed to investigate the proteomic associations of PP, and their putative causal role using Mendelian randomization (MR). Methods We first investigated associations between baseline circulating protein levels for 2,941 protein analytes measured using Olink technology, and PP in the UK Biobank (N=54,219). Regression analyses were adjusted for age, sex, mean arterial pressure, body mass index and stroke volume. Next, we conducted two-sample MR analyses to evaluate associations between genetically-predicted plasma protein levels and PP, for 1,820 proteins with available genetic instruments. We conducted inverse-variance weighted MR as our main analysis, and genetic colocalization analyses as sensitivity. We used a 5% false discovery rate (FDR) threshold to account for multiple comparisons. Results After correction for multiple comparisons, measured levels of 61 out of 2,923 proteins were significantly associated with PP (Figure 1). Genetically-predicted levels for 58 proteins were significantly associated with PP after FDR correction (Figure 2). At nominal significance, 31 proteins were concordantly associated with PP in both analyses, and 19 had consistent directions of effect, including natriuretic peptide B (NPPB, βobservational=0.04, Standard Error (SE)=0.009, PFDR<0.001), thrombospondin-2 (THBS2, βobservational=0.05, SE=0.009, PFDR<0.001), paraoxonase-2 (PON2, βobservational=-0.03, SE=0.008, PFDR<0.001), and sclerostin (SOST, βobservational=-0.03, SE=0.009, PFDR<0.001). NPPB was concordant in direction of effect and met an FDR-corrected significance threshold. Conclusions Our study identifies multiple novel proteins with a putative causal effect on PP. Our findings identify NPPB with a high level of statistical confidence, which could have important implications given the current availability of FDA-approved medications to boost NPPB effects. Our findings will lead to further investigations regarding the biology and clinical role of the identified candidate therapeutic targets.