Hypertension. 2026 Jan 22. doi: 10.1161/HYPERTENSIONAHA.125.25364. Online ahead of print.
ABSTRACT
BACKGROUND: Plasma accumulation of the gut microbial metabolite 4-ethylphenylsulfate (4EPS), derived from dietary amino acid, tyrosine, has been associated with cardiovascular, renal, metabolic, and neurological disorders. AngII (angiotensin II) infusion increases circulating 4EPS in mice, suggesting a potential mechanistic role. We hypothesized that 4EPS modulates AngII-regulated pathophysiology and disease progression by directly inhibiting AT1R (angiotensin II type 1 receptor).
METHODS: This hypothesis was tested by combining AT1R pharmacology, cell signaling assays, ex vivo vascular studies, an AngII-induced aortic aneurysm growth model, and plasma proteomics analysis.
RESULTS: in vitro, 4EPS reduced the binding of both AngII and the antagonist candesartan to AT1R and suppressed AngII-induced calcium signaling. Ex vivo, 4EPS attenuated AngII-mediated vasoconstriction. In vivo, high-fat diet-fed ApoE-null mice coinfused with AngII and 4EPS showed significant blunting of blood pressure elevation and a marked reduction in aortic aneurysm-related mortality compared with mice infused with AngII alone. Analysis of aortic remodeling revealed increased elastin preservation and decreased thickening of the intimal and medial layers in 4EPS-treated animals. Plasma proteomics indicated alterations in actin-cytoskeletal signaling pathways consistent with reduced activation of ERK (extracellular-regulated kinase) 1/2, filamin-A, and proteins involved in vascular smooth muscle cell motility.
CONCLUSIONS: These findings identify 4EPS as a benign, endogenous AT1R antagonist that diminishes AngII-mediated hemodynamic and vascular pathology. By suppressing cytoskeletal signaling associated with vascular remodeling, 4EPS provides significant protection against hypertension and aortic aneurysm progression in mice, revealing a previously unrecognized protective role for a gut microbial metabolite in modulating renin-angiotensin system activity.
PMID:41568432 | DOI:10.1161/HYPERTENSIONAHA.125.25364