Influence of peritubular protein on solute absorption in the rabbit proximal tubule. A specific effect on NaCl transport.

Berry, Christine; Cogan, Martin G.

doi:10.1172/jci110282

Cited by 49 publications

(33 citation statements)

References 47 publications

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“…Thus, it is quite possible that, although paraceilular permeability was unchanged, the cellular entry step could be affected by VE in a way so as to reduce Na entry into the cell leading to an apparem reduction in pump activity itself as measured by Ac^a-The results presented here do, however, prove that paracellular permeability changes through increased backleak do not account for the reduction in measured Na transport with HTF under our volume-expanded conditions. Similar lack of change in measured (Imai and Kokko, 1972) and indirectly derived (Berry and Cogan, 1981) P^^, was found in the rabbit isolated tubule on removal of albumin from the bath as a model for volume expansion. Those authors argued that because, under net volume flux conditions (1 -* b), net flux is only a small proportion of b -* 1 backflux, small but unmeasurable changes in Pfsj^ (reflecting paracellular backflux) could still account for the reduced net Na transport they found.…”

Section: Resultssupporting

confidence: 70%

“…In the rabbit in vitro isolated tubule preparation reducing bath protein concentrations, a model frequently equated with volume expansion experiments, did not result in a change of transepithelial p.d. although both Na and volume fluxes were decreased (Berry and Cogan, 1981;Imai and Kokko, 1972). Allhough we did not measure transepithelial p.d.…”

Section: Resultsmentioning

confidence: 96%

“…Wesson et ai, 1950) or both luminal and peritubular sides (Wesson et ai, 1950), whereas others have found tbat peritubular hypotonieity in the Necturus (Bentzel, 1974;Bentzel and Reezek, 1978;Berry and Boulpaep, 1975;Boulpaep, 1972) and in the rat (Seely, 1973) increased PN;, while hypertonicity decreased it. Most, but not all (Berry and Cogan, 1981;Imai and Kokko, 1972), of these studies employed indirect methods to assess pNa. such as electrophysiological means (Berry and Boulpaep, 1975;Boulpaep, 1972;Seely, 1973;Ussing and Windhager, 1964;Windhager et ai, 1967) or the expanding droplet technique (Bentzel, 1974;Bentzel and Reczek, 1978;Berry and Boulpaep, 1975;Boulpaep, 1972).…”

Section: Resultsmentioning

confidence: 99%

“…Others, however, have shown that it is an increase in osmolality that leads to an increase in frogskin or Necturus proximal tubular Na permeability (Ussing and Windhager, 1964;Windhager, Boulpaep and Giebisch, 1967). Others, still, have found no change in paracellular permeability in the rabbit in vitro isolated tubule preparation following removal of proteinoncotic forces from the bath (Imai and Kokko, 1972;Berry and Cogan, 1981).…”

Section: Introductionmentioning

confidence: 97%

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ACUTE VOLUME EXPANSION: RAT PROXIMAL TUBULAR Na TRANSPORT INHIBITION BY AUTOLOGOUS TUBULAR FLUID WITHOUT CHANGES IN Na PERMEABILITY

Willis

Chan

1985

Aust J Exp Biol Med

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Summar>. Sodium permeability (PUN*) ^"^ steady state transepithelial conceniraiion differences of Na (Ac*j,) were measured in stationary droplets in proximal tubules of rais in both Ihe non-expanded (NE) and subsequent mannitol-saline volume-expanded (VE) state. The lest solutions for tubular injection were either an anificial tubular soluiion (AS) in group 1 rats or harvested proximal tubular fluid (HTF) in a second group of rats (group li)-/ic^, (mmol.kg-'HjO) was significantly reduced (p<0-001) with HTF in Ihe VE state (121 ± 0 8 SEM) when compared to HTF in the NE stale (17-8 ± 1 -8) and AS in boih NE (17-4 ± 1 -0) and VE (18-2 ± 1 -0). P;.\, calculated from Ihe half-lime of disappearance of "Na from the droplets, when using paired experimenis were 8-1 ± 1-7x10'mm^sec 'and7-3 ± 1-8 with HTF in NE and subsequent VE and 8-6 ± 1-1 and 7-7 ± 0-8 with AS in NE and VE. These permeability resulls did not differ from each other significantly. In these experiments with zero net Na and water fluxes, ihe 32% reduction of Acjg, cannot be accounted for by an increased backleak of Na. since Pi;^, would have had to increase by 32%. These resulls therefore provide strong evidence for a facior present in proximal tubular fluid consequent upon VE which inhibits Na transport without altering transcpithctial P,^,, bui do nol exclude an effect of such a factor on the cellular Na entry step or ihe Na pump itself.

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Section: Resultssupporting

confidence: 70%

Section: Resultsmentioning

confidence: 96%

Section: Resultsmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 97%

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ACUTE VOLUME EXPANSION: RAT PROXIMAL TUBULAR Na TRANSPORT INHIBITION BY AUTOLOGOUS TUBULAR FLUID WITHOUT CHANGES IN Na PERMEABILITY

Willis

Chan

1985

Aust J Exp Biol Med

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“…These authors therefore postulated that the decreased fractional bicarbonate reabsorption seen in volume-expanded states was related to changes in filtered load rather than to changes in peritubular protein concentration. In agreement with this proposal, Berry and Cogan using the isolated perfused rabbit PCT, found that bath protein removal did not inhibit bicarbonate absorption despite a significant depression in NaCl and volume absorption (18).…”

Section: Resultssupporting

confidence: 61%

Effects of extracellular fluid volume and plasma bicarbonate concentration on proximal acidification in the rat.

Alpern¹,

Cogan²,

Rector³

1983

J. Clin. Invest.

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103

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A B S T R A C T The effects of systemic bicarbonate concentration and extracellular fluid volume status on proximal tubular bicarbonate absorption, independent of changes in luminal composition and flow rate, were examined with in vivo luminal microperfusion of rat superficial proximal convoluted tubules. Net bicarbonate absorption and bicarbonate permeability were measured using microcalorimetry. From these data, net bicarbonate absorption was divided into two parallel components: proton secretion and passive bicarbonate diffusion.The rate of net bicarbonate absorption was similar in hydropenic and volume-expanded rats when tubules were perfused with 24 mM bicarbonate, but was inhibited in volume-expanded rats when tubules were perfused with 5 mM bicarbonate. Volume expansion caused a 50% increase in bicarbonate permeability, which totally accounted for the above inhibition. The rate of proton secretion was unaffected by volume expansion in both studies.The rate of net bicarbonate absorption was markedly inhibited in alkalotic expansion as compared with isohydric expansion. Bicarbonate permeabilities were not different in these two conditions, and the calculated rates of proton secretion were decreased by >50% in alkalosis. Net bicarbonate absorption was stimulated in acidotic rats compared to hydropenic rats. This stimulation was attributable to a 25% increase in the rate of proton secretion.We conclude that (a) proton secretion is stimulatedPortions of this study were presented at the 13th, 14th, and 15th Annual Meetings of the American Society of Nephrology and were published in abstract

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Evaluation of Function in Single Segments of Isolated Renal Blood Vessels, Nephrons, and Collecting Ducts

Welling

Edwards

1992

Comprehensive Physiology

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The sections in this article are: Glomerulus and Vessels Mammalian Nonmammalian Proximal Tubule Mammalian Nonmammalian Thin Limbs of Henle's Loop Mammalian Thick Ascending Limbs of Henle's Loop Mammalian Nonmammalian Distal Convoluted and Connecting Segments Mammalian Nonmammalian Collecting Tubules and Ducts Mammalian Nonmammalian

show abstract

Influence of peritubular protein on solute absorption in the rabbit proximal tubule. A specific effect on NaCl transport.

Cited by 49 publications

References 47 publications

ACUTE VOLUME EXPANSION: RAT PROXIMAL TUBULAR Na TRANSPORT INHIBITION BY AUTOLOGOUS TUBULAR FLUID WITHOUT CHANGES IN Na PERMEABILITY

ACUTE VOLUME EXPANSION: RAT PROXIMAL TUBULAR Na TRANSPORT INHIBITION BY AUTOLOGOUS TUBULAR FLUID WITHOUT CHANGES IN Na PERMEABILITY

Effects of extracellular fluid volume and plasma bicarbonate concentration on proximal acidification in the rat.

Evaluation of Function in Single Segments of Isolated Renal Blood Vessels, Nephrons, and Collecting Ducts

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