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Query: UMLS:C0027960 (
mole
)
21,279
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
1. A method of measuring the permeability of the pancreas by determining the apparent reflexion coefficient (sigmaA) is described, in the isolated pancreas secreting maximally under the influence of secretin. The principle is to add a non-electrolyte to the perfusate which will create an osmotic gradient (RTsigmadeltaC) counter to that of active transport and reduce the secretion rate. This is compared with the effect of an equal concentration (0.1 M) of sucrose (RTdeltaC; sigma = 1). The apparent reflection coefficient is obtained by dividing the percentage reduction in the secretion rate due to the test molecule with that due to sucrose. 2. Sucrose when added to the perfusate inhibits pancreatic secretion. For every 10 mM increase in sucrose concentration, the secretion rate was inhibited by 7.1%. It has been estimated that an osmotic gradient of 131 m-osmole/kg water will cause zero flow rate. This is a measure of the pressure required to counteract the local osmotic gradient set up by active transport, it is equivalent to about 3.4 atm. 3. Non-electrolytes with molecular volumes greater than about 85 cm3
mole
-1 are relatively impermeable, below this value they enter the pancreatic juice with increasing ease as the molecular volume decreases. 4. SigmaA for a number of compounds has been measured: urea 0.17; ethanediol 0.27; thiourea 0.51; glycerol 0.69; creatinine 0.81; erythritol 0.91; arabinose 0.96; xylose 0.98; sorbitol 0.98. 5. The addition of non-electrolytes to the perfusate had effects on pancreatic secretion which were a function of sigmaA. For molecules with sigmaA lying between 0.81 and 1.0 an osmotic load of 0.1 M increased both the concentration of sodium plus potassium and the concentration of chloride plus bicarbonate by about 50 m-
mole
/l. Whereas the cation change is almost exclusively one of sodium that of the anions was preferentially an increase in chloride. For compounds with sigmaA lying between 0 and 0.81 the concentration of sodium plus potassium was proportional to sigmaA. 6. A number of compounds have been described which inhibit pancreatic secretion, other than by an osmotic effect. These include acetaldehyde, thioglycerol, nicotinamide, ribose, dihydroxyacetone, and glyceraldehyde. 7. It is concluded that the pancreas is more permeable than the gall-bladder of rabbit, fish and bullfrog, the
proximal tubule
of the kidney of rat and the small intestine of bullfrog, but is probably similar to that of small intestine of guinea-pig and man.
...
PMID:The permeability of the secretin stimulated exocrine pancreas to non-electrolytes. 65 May 9
Water transport mechanisms in rabbit proximal convoluted cell membranes were examined by measurement of: osmotic (Pf) and diffusional (Pd) water permeabilities, inhibition of Pf by mercurials, and activation energies (Ea) for Pf. Pf was measured in PCT brush border (BBMV) and basolateral membrane (BLMV) vesicles, and in viable PCT cells by stopped-flow light scattering; Pd was measured in PCT cells by proton NMR T1 relaxation times using Mn as a paramagnetic quencher. In BLMV, Pf (0.019 cm/sec, 23 degrees C) was inhibited 65% by 5 mM pCMBS and 75% by 300 microM HgCl2 (KI = 42 microM); Ea increased from 3.6 to 7.6 kcal/
mole
(15-40 degrees C) with 300 microM HgCl2. In BBMV, Pf (0.073 cm/sec, 23 degrees C, Ea = 2.8 kcal/
mole
, less than 33 degrees C and 13.7 kcal/
mole
, greater than 33 degrees C) was inhibited 65% with HgCl2 with Ea = 9.4 kcal/
mole
(15-45 degrees C). Mercurial inhibition in BLMV and BBMV was reversed with 10 microM mercaptoethanol. Viable PCT cells were isolated from renal cortex by Dounce homogenization and differential seiving. Impedence sizing studies show that PCT cells are perfect osmometers (100-1000 mOsm). Assuming a cell surface-to-volume ratio of 25,000 cm-1, Pf was 0.010 +/- 0.002 cm/sec (37 degrees C) and Pd was 0.0032 cm/sec. Pf was independent of osmotic gradient size (25-1000 mOsm) with Ea 2.5 kcal/
mole
(less than 27 degrees C) and 12.7 kcal/
mole
(greater than 27 degrees C). Cell Pf was inhibited 53% by 300 microM HgCl2 (23 degrees C) with Ea 6.2 kcal/
mole
. These findings indicate that cell Pf is not restricted by extracellular or cytoplasmic unstirred layers and that cell Pf is not flow-dependent. The high BLMV and BBMV Pf, inhibition by HgCl2, low Ea which increases with inhibition, and the measured Pf/Pd greater than 1 in cells in the absence of unstirred layers provide strong evidence for the existence of water channels in
proximal tubule
brush border and basolateral membranes. These channels are similar to those found in erythrocytes and are likely required for rapid PCT transcellular water flow.
...
PMID:Evidence for water channels in renal proximal tubule cell membranes. 359 63
The static head method for determining the charge stoichiometry (the number of moles of charge translocated per
mole
of substrate) of a coupled transport system is presented. The method involves establishing experimental conditions under which a membrane potential exactly balances the thermodynamic driving force of a known substrate gradient. The charge stoichiometry can then be calculated from thermodynamic principles. In contrast to the usual steady-state method for determining charge stoichiometry in cell suspensions and vesicle preparations, the static head method is applicable to systems which are not capable of maintaining a constant membrane potential over time. The charge stoichiometries of two renal sodium coupled D-glucose transporters previously identified in brush-border membrane vesicle preparations from the outer cortex (early
proximal tubule
) and outer medulla (late
proximal tubule
) are determined. The charge stoichiometries of these transporters are in good agreement with their sodium/glucose coupling ratios arguing against the possibility that glucose transport is coupled to ions other than sodium in these membranes.
...
PMID:The static head method for determining the charge stoichiometry of coupled transport systems. Applications to the sodium-coupled D-glucose transporters of the renal proximal tubule. 653 96
The renal phosphate (Pi)-transporting capacity normally increases, due to increased carrier system affinity, during the third postnatal week in rats. However, the tubular Pi reabsorption of rat pups born from gentamicin-treated mothers does not increase during this period. This study determines whether exposure to gentamicin in utero selectively alters the postnatal maturation of the carrier affinity for Pi. Pi and glucose transports by
proximal tubule
brush-border membrane (BBM) were studied. The maximal rate of uptake (Vmax) of Na-Pi cotransport was significantly lower (536 +/- 169 pmol.mg protein-1.10 s-1; n = 6, P < 0.01) in gentamicin-exposed rats than in controls (1,021 +/- 167 pmol.mg protein-1.10 s-1, n = 6), whereas the Michaelis constant (Km) values were the same. Gentamicin exposure had no effect on plasma parathyroid hormone concentration or on BBM glucose transport activity. The total phospholipid content of BBM, their phospholipid composition, cholesterol content, and cholesterol-to-total phospholipid
mole
ratio were unaltered, suggesting that membrane fluidity was unchanged. The Vmax of BBM alkaline phosphatase was lower in gentamicin-exposed rats than in controls.
...
PMID:Effect of fetal exposure to gentamicin on phosphate transport in young rat kidney. 828 14
It is generally assumed that phosphate (Pi) effluxes from
proximal tubule
cells by passive diffusion across the basolateral (BL) membrane. We explored the mechanism of BL Pi efflux in
proximal tubule
-like OK cells grown on permeable filters and then loaded with 32P. BL efflux of 32P was significantly stimulated (P < 0.05) by exposing the BL side of the monolayer to 12.5 mM Pi, to 10 mM citrate, or by acid-loading the cells, and was inhibited by exposure to 0.05 mM Pi or 25 mM HCO3; by contrast, BL exposure to high (8.4) pH, 40 mM K+, 140 mM Na gluconate (replacing NaCl), 10 mM lactate, 10 mM succinate, or 10 mM glutamate did not affect BL 32P efflux. These data are consistent with BL Pi efflux from
proximal tubule
-like cells occurring, in part, via an electro-neutral sodium-sensitive anion transporter capable of exchanging two moles of intracellular acidic H2PO4- for each
mole
of extracellular basic HPO4= or for citrate.
...
PMID:Basolateral phosphate transport in renal proximal-tubule-like OK cells. 1219 5
Oxygen tension in the kidney is mostly determined by O
2
consumption (Qo
2
), which is, in turn, closely linked to tubular Na
+
reabsorption. The objective of the present study was to develop a model of mitochondrial function in the
proximal tubule
(PT) cells of the rat renal cortex to gain more insight into the coupling between Qo
2
, ATP formation (G
ATP
), ATP hydrolysis (Q
ATP
), and Na
+
transport in the PT. The present model correctly predicts in vitro and in vivo measurements of Qo
2
, G
ATP
, and ATP and P
i
concentrations in PT cells. Our simulations suggest that O
2
levels are not rate limiting in the proximal convoluted tubule, absent large metabolic perturbations. The model predicts that the rate of ATP hydrolysis and cytoplasmic pH each substantially regulate the G
ATP
-to-Qo
2
ratio, a key determinant of the number of Na
+
moles actively reabsorbed per
mole
of O
2
consumed. An isolated increase in Q
ATP
or in cytoplasmic pH raises the G
ATP
-to-Qo
2
ratio. Thus, variations in Na
+
reabsorption and pH along the PT may, per se, generate axial heterogeneities in the efficiency of mitochondrial metabolism and Na
+
transport. Our results also indicate that the G
ATP
-to-Qo
2
ratio is strongly impacted not only by H
+
leak permeability, which reflects mitochondrial uncoupling, but also by K
+
leak pathways. Simulations suggest that the negative impact of increased uncoupling in the diabetic kidney on mitochondrial metabolic efficiency is partly counterbalanced by increased rates of Na
+
transport and ATP consumption. This model provides a framework to investigate the role of mitochondrial dysfunction in acute and chronic renal diseases.
...
PMID:A model of mitochondrial O
2
consumption and ATP generation in rat proximal tubule cells. 3179 Mar 2
