Accumulating evidence indicates a link between gut barrier dysfunction and hypertension. However, it is unclear whether hypertension causes gut barrier dysfunction or vice versa and whether the gut microbiome plays a role. To understand this relationship, we first cross-sectionally examined 153 nonhuman primates [NHPs; Chlorocebus aethiops sabaeus; mean age, 16 ± 0.4 yr; 129 (84.3%) females] for cardiometabolic risk factors and gut barrier function biomarkers. This analysis identified blood pressure and age as specific factors that independently associated with microbial translocation. We then longitudinally tracked male, age-matched spontaneously hypertensive NHPs (Macaca mulatta) to normotensives (n = 16), mean age of 5.8 ± 0.5 yr, to confirm hypertension-related gut barrier dysfunction and to explore the role of microbiome by comparing groups at baseline, 12, and 27 mo. Collectively, hypertensive animals in both studies showed evidence of gut barrier dysfunction (i.e., microbial translocation), as indicated by higher plasma levels of lipopolysaccharide-binding protein (LBP)-1, when compared with normotensive animals. Furthermore, plasma LBP-1 levels were correlated with diastolic blood pressure, independent of age and other health markers, suggesting specificity of the effect of hypertension on microbial translocation. In over 2 yr of longitudinal assessment, hypertensive animals had escalating plasma levels of LBP-1 and greater bacterial gene expression in mesenteric lymph nodes compared with normotensive animals, confirming microbes translocated across the intestinal barrier. Concomitantly, we identified distinct shifts in the gut microbial signature of hypertensive versus normotensive animals at 12 and 27 mo. These results suggest that hypertension contributes to microbial translocation in the gut and eventually unhealthy shifts in the gut microbiome, possibly contributing to poor health outcomes, providing further impetus for the management of hypertension.NEW & NOTEWORTHY Hypertension specifically had detrimental effects on microbial translocation when age and metabolic syndrome criteria were evaluated as drivers of cardiovascular disease in a relevant nonhuman primate model. Intestinal barrier function exponentially decayed over time with chronic hypertension, and microbial translocation was confirmed by detection of more microbial genes in regional draining lymph nodes. Chronic hypertension resulted in fecal microbial dysbiosis and elevations of the biomarker NT-proBNP. This study provides insights on the barrier dysfunction, dysbiosis, and hypertension in controlled studies of nonhuman primates. Our study includes a longitudinal component comparing naturally occurring hypertensive to normotensive primates to confirm microbial translocation and dysbiotic microbiome development. Hypertension is an underappreciated driver of subclinical endotoxemia that can drive chronic inflammatory diseases.
Keywords: blood pressure; fecal microbiome; gut barrier dysfunction; hypertension; microbial translocation.