Comparing the drug target effects of Cholesteryl ester transfer protein (CETP) on cardiovascular diseases in East Asian and European populations

Abstract

Abstract Introduction Cholesteryl ester transfer protein (CETP) is a drug target originally evaluated for raising HDL-C, for efficacy against coronary heart disease (CHD). Previous attempts to develop a licensed drug compound inhibiting CETP have heterogeneous CHD effects, which are likely attributable to the developed compound rather than CETP itself. Currently, novel CETP inhibitors are being pursued for the treatment of CHD. Drug target Mendelian randomization studies, leveraging genetic evidence, have shown that on-target CETP inhibition reduces CHD risk in individuals of European ancestries. However, similar MR studies conducted in East Asian ancestries have failed to show a CHD effect, questioning the value of pharmacological inhibition of CETP in this population. Purpose In this study, we compared drug target MR effects of CETP inhibition in Europeans and East Asians, focusing on cardiovascular efficacy outcomes, and relevant safety outcomes. Methods We used ancestry-specific GWAS summary statistics for Europeans (n=1,320,016) and East Asians (n=146,492) from the Global Lipids Genetics Consortium, taking variants from within and around ±50 kbp of the CETP locus. Colocalization was employed to determine potential trans-ancestry signals between CETP variants for HDL-C and LDL-C. Subsequently, drug target MR was used to estimate ancestry-specific effects of on-target CETP inhibition on 11 plasma biomarkers and 15 clinical outcomes between East Asian and European populations. Differences between ancestries were evaluated using interaction tests. Results There was strong support (posterior probability: 99.8%) of a shared causal CETP variant affecting HDL-C in both populations. Given the absence of a LDL-C signal in East Asians, similar colocalization was not observed for LDL-C. Employing drug target MR scaled to a standard deviation increase in HDL-C, we found that lower CETP had more pronounced decreasing effects in Europeans on LDL-C, LP[a], systolic blood pressure and pulse pressure (interaction p-values >1.9×10-3). Nevertheless, lower CETP protected against CHD, angina, intracerebral haemorrhage, and heart failure in both ancestries, for example for CHD (OR, 0.89; 95%CI, 0.84-0.94) in East Asians, compared to Europeans (OR, 0.95; 95%CI, 0.92-0.99, interaction p-value: 0.05). Exploring potential safety outcomes, lower CETP was protective against pneumonia in Europeans and East Asians (interaction p-value=0.53) and had a potential harmful effect on asthma and chronic kidney disease in East Asians (interaction p-value > 1.9×10-3). Conclusion In conclusion, on-target and sufficiently potent CETP inhibition is anticipated to prevent cardiovascular diseases in both European and East Asian populations.