Кардиоваскулярная терапия и профилактика (Dec 2023)
Genogeographic technologies of a population biobank as a tool for assessing selection effects (using the example of pharmacogenetic biomarkers of cardiovascular diseases)
Abstract
Significant differences between the gene pools of Russian peoples require the development of ethno- regional adapted pharmacogenetic tests and the identification of priority regions for their implementation.Aim. To develop a genogeographic technology to identify selection effects using the example of biomarkers that are significant for pharmacotherapy of patients with cardiovascular diseases (CVD), using a population biobank and the Pharmacogenetics of Populations of Russia and Adjacent Countries database.Material and methods. Deoxyribonucleic acid (DNA) samples from the Biobank of Northern Eurasia from 20 metapopulations of the indigenous population of the European Russia were studied using two following data sets: 24 pharmacogenetic markers of CVDs (3170 samples); 1 276 191 polymorphic DNA markers of the autosomal genome (1293 samples). For each data set, estimates of interpopulation variability in the gene pool are provided — the difference between these estimates characterizes the selection pressure on each of the 24 CVD biomarkers. A genogeographic atlas has been created, the maps of which demonstrate the selection pressure on each biomarker according to the degree of deviation from the selective- neutral variability of the gene pool.Results. Twenty-four CVD biomarkers are divided into three following classes: those close to selective- neutral variability, those subject to stabilizing and differentiating selection. For each of the 24 CVD biomarkers, genogeographic maps were created that reveal selection effects in each of the 20 metapopulations. Most maps have identified populations that are under differential selection pressure and therefore a priority for the implementation of ethno- regionally adapted pharmacogenetic protocols.Conclusion. Pharmacogenetic markers and populations under differential selection require the development of ethno- regionally adapted pharmacogenetic tests. The created cartographic atlas of selection can serve as the basis for pharmacogenetic studies carried out using genogeographic methods.
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