Inhibition of Na+/H+ exchange (NHE) subtypes has been investigated in a study of the mouse fibroblast L cell line (LAP1) transfected with human (h) NHE1, rabbit (rb) NHE2, rat (rt) or human (h) NHE3 as well as an opossum kidney cell line (OK) and porcine renal brush-border membrane vesicles (BBMV). S3226 ¿3-[2-(3-guanidino-2-methyl-3-oxo-propenyl)-5-methyl-phenyl]-N-isopro pylidene-2-methyl-acrylamide dihydro-chloride¿ was the most potent and specific NHE3 inhibitor with an IC50 value of 0.02 micromol/l for the human isoform, whereas its IC50 value for hNHE1 and rbNHE2 was 3.6 and approximately = 80 micromol/l, respectively. In contrast, amiloride is a weak NHE3 inhibitor (IC50>100 micromol/l) with a higher affinity to hNHE1 and rbNHE2. Cariporide (4-isopropyl-3-methylsulphonyl-benzoyl-guanidine methane-sulphonate), which has an IC50 for NHE3 of approximately 1 mmol/l, is a highly selective NHE1 inhibitor (0.08 micromol/l). Therefore, S3226 is a novel tool with which to investigate the physiological and pathophysiological roles of NHE3 in animal models.
Na(+)/H(+) exchanger NHE3 is expressed in the luminal membrane of proximal tubule and thin and thick ascending limb of Henle's loop. To further define its role, the novel NHE3 inhibitor S3226 was employed in micropuncture experiments in nephrons with superficial glomeruli of anesthetized rats. Microperfusion of proximal convoluted tubule with S3226 revealed a dose-dependent inhibition of reabsorption (IC(50) of 4-5 microM) with a maximum inhibition of 30% for fluid and Na(+). During microperfusion of Henle's loop (last superficial proximal to first superficial distal tubular loop), no effect of S3226 (10 or 30 microM) on the reabsorption of fluid or Na(+) was observed. Finally, S3226 (30 microM) left the tubuloglomerular feedback response unaltered as determined by the fall in proximal tubular stop-flow pressure in response to increasing loop of Henle perfusion rate. These studies indicate that NHE3 significantly contributes to fluid and Na(+) reabsorption in proximal convoluted tubule. NHE3 appears not to significantly contribute to fluid or Na(+) reabsorption in the loop of Henle (including the S3 segment of proximal tubule) or macula densa control of nephron filtration.
Hypercapnia as well as lowered intracellular pH (pHi) increase the bioelectric activity of CO2/H+-sensitive neurones (VLNcs) of the ventrolateral medulla oblongata. Here we describe that immunoreactive Na+/H+ exchanger (NHE3) is present in ventrolateral neurones from medullary organotypic cultures (obex level). To test whether VLNcs can be acidified and thereby activated by inhibition of NHE3, we used the novel high-affinity NHE3-inhibitors S1611 and S3226. Both drugs raised the firing rates of VLNcs to at least 150% of the control values, and depolarized membrane potential by up to 15 mV at concentrations (0.5-1 micromol/l) suitable for selective inhibition of NHE3. The changes in bioelectric activity strongly resembled the responses to hypercapnia (PCO2: 60-100 mmHg). In BCECF-AM-loaded cultures a subfraction of ventrolateral VLNcs was found to be intracellularly acidified by 0.05-0.1 pH units following treatment with S1611; the time course of this acidification was similar to that evoked by hypercapnia. All drug effects were sustained and readily reversible upon washing. Non-CO2/H+-responsive medullary neurones as well as hippocampal CA3 neurones were unaffected by up to 20 micromol/l S1611. It is concluded that the selective inhibition of NHE3 acidifies and activates CO2/H+-sensitive neurones within the ventrolateral medulla oblongata.
These results demonstrate that an intravenous administration of S3226 acutely improves GFR and kidney function and structure in both treated groups. In addition, in a separate set of studies S3226 significantly decreased post-occlusion renal pHi values. Thus, the inhibition of NHE3 with S3226 may be beneficial in treatment of ischemic ARF.
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