Gut bacteria contribute to rodent hypertension via modulation of colonic serotonin and gut vagal 5ht3aRs

Abstract

Hypertension is associated with gut dysbiosis and autonomic dysfunction in humans and rodent models. While hypertension-associated gut dysbiosis elevates blood pressure in rodents, the precise mechanisms are unknown. In our model gut dysbiosis-induced hypertension, fecal matter transplant from hypertensive SHR reduced colonic serotonin and relative expression of serotonergic 5ht3a receptors (5ht3aRs) on vagal afferents in the control WKY rats. To investigate the role of serotonergic gut vagal axis in regulation of blood pressure, in a cre-dependent manner we first overexpressed channelrhodopsin 2 in the 5ht3aR-expressing gut-projecting vagal afferents (NG5ht3Ar) in 5ht3aR Cre rats. Acute bilateral optic stimulation of NG5ht3Ar produced an immediate decrease in blood pressure and heart rate. Conversely, chronic ablation of NG5ht3Ar by cre-dependent expression of caspase elevated blood pressure in 5ht3aR Cre rats. This effect was potentiated both by the infusion of low dose of angiotensin II and exposure to acute restraint stress separately. On the other hand, overexpression of 5ht3aRs in NG5ht3Ar reduced blood pressure in the SHR, the effect that was further potentiated by dietary tryptophan supplementation. Altogether, these data propose that hypertension-associated microbiota contribute to rodent hypertension via modulation of colonic serotonin and gut vagal 5ht3aRs. NIHR01HL152162. This is the full abstract presented at the American Physiology Summit 2024 meeting and is only available in HTML format. There are no additional versions or additional content available for this abstract. Physiology was not involved in the peer review process.