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Query: UNIPROT:P41181 (
collecting duct
)
5,183
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
Mechanisms of Na+ entry across the luminal membrane of the rabbit connecting tubule (CNT) and cortical
collecting duct
(
CCD
) were investigated in vitro by analyzing factors that block the ouabain-induced tubular swelling. In the CNT and
CCD
, cell swelling caused by 100 microM ouabain added to the bath was completely blocked by luminal Na+ removal, suggesting that the main factor inducing cell swelling is Na+ entry through the luminal membrane. Trichlormethiazide (100 microM) and amiloride (10 microM) inhibited the swelling in CNT when applied in combination to the lumen, but not when given separately. The swelling was also inhibited by Cl- omission from the lumen in the presence of amiloride. By contrast, no effect was noted when furosemide (100 microM), 4-acetamide-4'-isothiocyanatostilben-2,2'-disulfonic acid (1 mM) or 5-(N-ethyl-N-isopropyl)amiloride (100 microM) was added to the lumen in the presence of amiloride, indicating the absence of any influence of the Na(+)-K(+)-2Cl- cotransporter and the parallel Na+/H+, Cl-/HCO3- exchanger. The cell swelling in the
CCD
was blocked by luminal addition of amiloride alone with no effect from trichlormethiazide. In CNT, when the ouabain-induced cell swelling was prevented by both diuretics, addition of parathyroid hormone (
PTH
, 3 nM) to the bath induced cell swelling, suggesting that another Na+ entry pathway is newly generated by
PTH
. These results demonstrate that ouabain-induced cell swelling depends on Na+ entry across the luminal membrane. In the CNT, the pathways include an amiloride-sensitive Na+ channel, thiazide-sensitive Na(+)-Cl- cotransport and a
PTH
-stimulated Na+ pathway, whereas the
CCD
has only the amiloride-sensitive Na+ channel.
...
PMID:Ouabain-induced cell swelling in rabbit connecting tubule: evidence for thiazide-sensitive Na(+)-Cl- cotransport. 140 55
There is convincing evidence to suggest that there are direct effects of adrenergic agents on renal tubules. During the last several years, considerable progress has been made in determining the type of adrenoceptors present in renal tubular cells through the use of radioligand binding and signal transduction methods. The receptor data are summarized in table 6. Almost all major nephron segments seem to have alpha 1- and alpha 2-adrenoceptors. However, there are few data describing the subtypes of alpha 1- or alpha 2-adrenoceptors in these segments. beta-Adrenoceptors are present in the CNT and collecting ducts of almost all species and in the thick ascending limbs of rats and mice. Adrenergic mediated signal transduction has been examined in some nephron segments, but virtually nothing is known about the relationship between the generation of adrenoceptor-mediated second messengers and changes in phosphorylation/activity of transport proteins (ion channels, ion pumps) in different types of renal tubular cells. There is general agreement that gluconeogenesis in the PCT is mediated by alpha 1-adrenoceptors through the PI and Ca2+ messenger system. Evidence also indicates that the increase in Na+ transport associated with renal nerve stimulation or adrenergic agonists in the PCT or the loop of Henle is mediated by alpha 1-adrenoceptors. Adrenergic agents modulate the effect of other hormones, such as
PTH
and vasopressin, on renal tubule transport by a decrease in cAMP, and this effect is mediated by alpha 2-adrenoceptors. There may be some interaction between the two alpha subtype-mediated effects in some nephron segments. beta-Adrenergic agonists stimulate cAMP formation in the PST, thick ascending limb (rat and mouse), CNT, and
collecting duct
segments. The physiological role of the beta-adrenoceptors in the PST is not known. beta-Adrenergic agonists stimulate sodium reabsorption by activation of the basolateral Cl- channel in the thick ascending limbs of rat and mice. The activation of beta-adrenoceptors in the CNT and CCD increases Cl- reabsorption and HCO3- secretion by stimulation of Cl/HCO3 exchange in the apical membrane of type B intercalated cell. The antikaliuretic effect of beta-adrenergic agonists is probably due to the stimulation of K+ reabsorption in type A intercalated cells in the CCD and OMCD. In the case of cholinergic drugs, the data in the literature are consistent with a model in which cholinergic agents increase papillary blood flow, resulting in the washout of the hypertonic medullary interstitium. This leads to a decrease in water abstraction out of the descending limb of Henle's loop.(ABSTRACT TRUNCATED AT 400 WORDS)
...
PMID:Actions of adrenergic and cholinergic drugs on renal tubular cells. 155 26
In order to investigate the pathogenesis of medullary nephrocalcinosis, rabbit inner medullary
collecting duct
cells were grown in media containing different Ca++,
PTH
and pH levels. It was found that high Ca++ (7.8mM) only reduced growth slightly and that crystalline deposits were found under the cells. This suggests that high Ca++ is not severely toxic to the cells but can lead to deposition of calcium beneath the basement membrane.
PTH
did not effect cell growth even in the presence of high Ca++ implying that it has an indirect effect on tubular cells in medullary nephrocalcinosis associated with hyperparathyroidism. In renal tubular acidosis these cells are subjected to a persistently high urinary pH and low interstitial pH. Raising the pH reduced the cell growth in normal Ca++ medium whereas lowering the pH increased cell growth in vitro. Our results show that nephrocalcinosis is not due to the direct effect of raised pericellular Ca++ or
PTH
alone and that persistently alkaline tubular fluid may play a role.
...
PMID:An in vitro model of nephrocalcinosis using rabbit inner medullary collecting tubular cell culture. 273 Jun 43
We recently reported a novel intracellular mechanism of Na-K-adenosinetriphosphatase (Na-K-ATPase) regulation in the cortical
collecting duct
(
CCD
) by agents that increase cell adenosine 3',5'-cyclic monophosphate (cAMP), which involves stimulation of protein kinase A (PKA) and phospholipase A2 (PLA2). We now determined whether this mechanism also operates in other nephron segments. In the medullary thick ascending limb (MTAL) dopamine, the DA1 agonist fenoldopam, forskolin, or dibutyryl-cAMP inhibited Na-K-ATPase activity, similar to results in
CCD
. In both segments this effect was blocked by 20-residue inhibitory peptide (IP20), a peptide inhibitor of PKA, but not by staurosporine, a protein kinase C (PKC) inhibitor. PKC activators phorbol 12-myristate 13-acetate, phorbol 12,13-dibutyrate, and 1,2-myristate 13-acetate, phorbol 12,13-dibutyrate, and 1,2-dioctanoylglycerol had no effect on Na-K pump activity in either
CCD
or MTAL. In contrast, all three PKC activators inhibited pump activity in the proximal convoluted tubule (PCT), an effect reproduced only by dopamine or by parathyroid hormone [
PTH
-(1-34)]. In PCT the pump inhibition by dopamine or
PTH
-(1-34) was abolished by staurosporine but not by IP20. The PLA2 inhibitor mepacrine prevented the effect of all agents, and arachidonic acid produced a dose-dependent pump inhibition in each of the three segments studied. We conclude that intracellular mechanisms of Na-K-ATPase regulation differ along the nephron, as they involve activation of PKA in
CCD
and MTAL and of PKC in PCT. These two pathways probably share a common mechanism in stimulating PLA2, arachidonic acid release, and production of eicosanoids in both the proximal and distal nephron.
...
PMID:Different mechanisms of renal Na-K-ATPase regulation by protein kinases in proximal and distal nephron. 821 99
