In:
Hypertension, Ovid Technologies (Wolters Kluwer Health), Vol. 79, No. Suppl_1 ( 2022-09)
Abstract:
Afferent renal nerve pathways likely play a role in salt sensitive hypertension. We recently reported that high salt diet (HS) impairs these afferent renal pathways in rats. Now we tested the hypothesis that during HS a decrease in sensitivity of renal afferent neurons is prevented by the SGLT2 inhibitor empagiflozin.Respective groups of rats were put on HS containing 8% NaCl or a normal diet. Two groups (HS, controls) received empagiflozin 20 mg/kg BW/day orally. Renal neurons were retrogradely labeled with DiI. In culture, labeled dorsal root ganglion neurons (DRG Th11-L2) with renal afferents were investigated electrophysiologically using current clamp mode to assess action potential generation during current injection. Neurons were characterized as tonic highly active ( 〉 5 action potentials, AP) and phasic less active neurons (≤ 5 AP upon stimulation. )In neurons from rats on HS, the relation of tonic highly active neurons to less active phasic neurons shifted consistently towards phasic units (63,8% tonic neurons in controls vs. 42%* on HS, *p 〈 0.05, z-test). However, continuous treatment with empagiflozin preserved the proportion of tonic neurons as in controls (67,9% on HS with concomitant administration of empagiflozin). In controls, empagiflozin did not affect the proportion of tonic to phasic neurons (63,8% tonic neurons in controls vs. 67,9% on HS & empagliflozin, p=0.7, z-test). Blood pressure and heart rate were not altered by HS and/or treatment with any chosen dose of empagiflozin.In rats, chronically elevated sodium intake (8% NaCl) reduced the sensitivity and stimulability of renal afferent DRG neurons. Under these circumstances, concomitant treatment with the SGLT2 inhibitor empagiflozin preserved the function of renal afferent DRG neurons. SGLT 2 inhibitors may help to treat dysfunction of renal innervation in cardiovascular disease.
Type of Medium:
Online Resource
ISSN:
0194-911X
,
1524-4563
DOI:
10.1161/hyp.79.suppl_1.074
Language:
English
Publisher:
Ovid Technologies (Wolters Kluwer Health)
Publication Date:
2022
detail.hit.zdb_id:
2094210-2
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