Abstract
Studies reported a positive relationship between visit-to-visit blood pressure variability (VVBPV) and cardiovascular morbidity and mortality independently of the mean arterial blood pressure across clinical visits. The literature is scarce on the genes and biological mechanisms that regulate long-term VVBPV. We sought to identify biological pathways that regulate visit-to-visit blood pressure variability. We used phenotypic and genotype data from the Women’s Health Initiatives and Cardiovascular Health Studies. We defined VVBPV of systolic and diastolic blood pressure phenotypes as the standard deviation about the participant’s regression line with systolic and diastolic blood pressure regressed separately across visits. We imputed missing genotypes and then conducted a genome-wide association analysis to identify genomic variants related to the VVBPV and detect biological pathways. For systolic VVBPV, we identified a neurological pathway, the GABAergic pathway (P values = 1.1E − 2), and a vascular pathway, the RAP1 signaling pathway (P values = 5.8E − 2). For diastolic VVBPV, the hippo signaling (P values = 4.1E − 2), CDO myogenesis (P values = 7.0E − 2), and O-glycosylation of TSR domain-containing protein pathways (P values = 9.0E − 2) were the significant pathways. Future studies are warranted to validate these results. Further understanding of the roles of the genes regulating the identified pathways will help researchers to improve future pharmacological interventions to treat VVBPV in clinical practice.
Highlights
Epidemiological studies show that blood pressure varies; it oscillates over days, as well as months and years [1]. e variation reflects the degree of blood pressure control and its long-term burden on the cardiovascular system [2]
In the Women’s Health Initiative (WHI) study, the researchers compared the highest quintile of Visit-to-visit blood pressure variability (VVBPV) versus the lowest quintile. e hazard ratio (HR) for stroke and its 95% confidence interval (CI) were 1.46 (1.15–1.85)
In the Cardiovascular Health Study (CHS), a one-unit increase in the VVBPV increased the risk for BioMed Research International myocardial infarction by 11%: HR and its 95% CI were 1.1 (1.0–1.3)
Summary
Epidemiological studies show that blood pressure varies; it oscillates over days (short term), as well as months and years (long term) [1]. e variation reflects the degree of blood pressure control and its long-term burden on the cardiovascular system [2]. E variation reflects the degree of blood pressure control and its long-term burden on the cardiovascular system [2]. Visit-to-visit blood pressure variability (VVBPV) is associated with organ damage [2]. In the Cardiovascular Health Study (CHS), a one-unit increase in the VVBPV increased the risk for BioMed Research International myocardial infarction by 11%: HR and its 95% CI were 1.1 (1.0–1.3). Epidemiological studies have shown that hypertension and blood pressure have been considered polygenic genetic traits, which are regulated by many biological pathways. The literature has little information on the biological mechanisms that may regulate long-term blood pressure variability. We analyzed genetic data from the WHI and CHS studies to locate SNPs associated with VVBPV and discern the involved biological pathways to provide insight into the architecture of this phenotype
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