#2683 Targeted antibiotic modulation of the gut microbiome ameliorates hypertensive kidney damage

Abstract

Abstract Background and Aims High blood pressure is associated with measurable inflammation, which precedes and promotes damage to the heart and kidneys. Microbiome-derived metabolites, particularly indole metabolites, modulate inflammation and host physiology, partially through aryl hydrocarbon receptor (AhR) signaling. To better understand the potential of a microbiome-targeting therapeutic approach to achieve organ protection in hypertension, we used narrow-spectrum antibiotics without enteral absorption to specifically deplete gram-negative or -positive bacteria in double transgenic rats (dTGR). Method Four-week-old dTGR (transgenic for human renin and angiotensinogen) were treated with oral Vancomycin (Vanco), Polymyxin B (Poly) or Vehicle (Veh) for 3 weeks. Seven-week-old SD rats were included as healthy controls. Microbiome, clinical and immune phenotype were analyzed by shotgun metagenomic sequencing, echocardiography, telemetric blood pressure (BP) measurement, clinical chemistry, bulk RNAseq and flow cytometry. Results Hypertensive kidney damage was ameliorated in Vanco treated dTGR, as assessed by renal Lcn2 expression, blood urea nitrogen and albuminuria. Vanco treated dTGR had significantly decreased cardiac hypertrophy. Poly treatment showed no effect. BP levels for both antibiotic treatments were not significantly different from Veh, despite a significantly improved endothelium-dependent and -independent vasorelaxation in isolated mesenteric arteries in both treated groups. Surprisingly, Vanco treatment led to a massive increase of gram-positive Lactobacilli and associated gene abundance for the production of indole lactic acid (ILA, via araT). We could previously show that ILA inhibits differentiation of pathological Th17 cells through AhR modulation. In line, Vanco treatment reduced the increased number of pathological Th17 in the kidney and intestine of dTGR. Poly treatment did not alter the inflammatory signature. Conclusion Modulation of the intestinal microbiome by narrow-spectrum antibiotics affects hypertensive organ damage. Our data underscores the importance of the gut microbiome in modulating hypertensive organ damage and helps to identify potential therapeutic strategies in the microbiome. Ongoing experiments investigate pro- and postbiotic therapeutic approaches and their AhR dependency.