1985
DOI: 10.1007/bf00595689
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Rheogenic sodium-bicarbonate cotransport in the peritubular cell membrane of rat renal proximal tubule

Abstract: The mechanism of bicarbonate transport across the peritubular cell membrane was investigated in rat kidney proximal tubules in situ by measuring cell pH and cell Na+ activity in response to sudden reduction of peritubular Na+ and/or HCO3-. The following observations were made: 1. sudden peritubular reduction of either ion concentration produced the same transient depolarizing potential response; 2. bicarbonate efflux in response to peritubular reduction of bicarbonate was accompanied by sodium efflux; 3. sodiu… Show more

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Cited by 277 publications
(167 citation statements)
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“…The transporter was postulated to mediate net efflux of HCO3-and Na+, giving rise to transcellular transport of HCO3-. A similar process was described in monkey kidney epithelial cells (Jentsch et al, 1985), and in proximal tubular cells ofthe rat (Alpern, 1985;Yoshitomi et al, 1985) and the rabbit (Biagi & Sohtell, 1986;Sasaki et al, 1985).…”
Section: Anion Antiportsupporting
confidence: 59%
See 1 more Smart Citation
“…The transporter was postulated to mediate net efflux of HCO3-and Na+, giving rise to transcellular transport of HCO3-. A similar process was described in monkey kidney epithelial cells (Jentsch et al, 1985), and in proximal tubular cells ofthe rat (Alpern, 1985;Yoshitomi et al, 1985) and the rabbit (Biagi & Sohtell, 1986;Sasaki et al, 1985).…”
Section: Anion Antiportsupporting
confidence: 59%
“…It is still unclear whether different molecular entities are involved in the two kinds of anion antiport. Na+/HCO3-symport A number of authors have recently presented evidence for electrogenic symport of Na+ and HCO3-in a variety of cells involved in transepithelial transport of acid (Boron & Boulpaep, 1983;Alpern, 1985;Jentsch et al, 1985Jentsch et al, , 1986bYoshitomi et al, 1985;Biagi & Sohtell, 1986). This symport has been described to couple tightly the transport of one Na+ ion to two or three HCO3-ions.…”
Section: Anion Antiportmentioning
confidence: 99%
“…As characterized in many cell types, several features distinguish the Na(HCO 3 ) n cotransporter from other bicarbonate-dependant transporters.1) Na(HCO 3 ) n cotransport is not dependent on the presence of Cl Ϫ , 2) transport is inhibited by stilbenes, and 3) transport is stimulated in the presence of HCO 3 Ϫ . In the kidney, Na(HCO 3 ) n cotransport was initially localized by functional studies to the basolateral membrane of the proximal tubule where it plays an important role in mediating electrogenic basolateral bicarbonate efflux (2,21,22). Although Na ϩ -dependent and -independent Cl Ϫ /base exchangers also contribute to basolateral bicarbonate transport in the proximal tubule (23)(24)(25)(26)(27), current evidence suggests that electrogenic Na(HCO 3 ) n cotransport mediates the majority of bicarbonate efflux in this nephron segment (1).…”
mentioning
confidence: 99%
“…In proximal tubules, Na reabsorption across the brush border membrane depends on Na/H exchange driven by an electrochemical gradient created by Na/KATPase (5). Renal acidification in this segment is mediated mainly by Na/H exchange in the luminal membrane and Na-HCO3 cotransporter in the basolateral membrane (6,7). Na and HCO3 reabsorptions are mainly accomplished by active transport, which involves Na/H exchange.…”
mentioning
confidence: 99%