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Query: UNIPROT:P41181 (
collecting duct
)
5,183
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
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
The bone morphogenetic proteins, BMP-2 and OP-1, are candidates for growth factors that control renal branching morphogenesis. We examined their effects in embryonic kidney explants and in the mIMCD-3 cell model of
collecting duct
morphogenesis (mIMCD-3 cells are derived from the terminal inner medullary
collecting duct
of the SV40
mouse)
. Osteogenic protein-1 (OP-1), at a dose of 0.25 nM, increased explant growth by 30% (P = 0.001). In contrast, 100-fold greater concentrations of OP-1 (28 nM) decreased explant growth by 10% (P < 0.001). BMP-2 was entirely inhibitory (maximum inhibition of 7% at 5 nM, P < 0.0004). In an in vitro model for branching morphogenesis utilizing the kidney epithelial cell line, mIMCD-3, low doses of OP-1 (< 0.5 nM) increased the number of tubular structures formed by 28 +/- 5% (P = 0.01), whereas concentrations > 0.5 nM decreased that number by 22 +/- 8% (P = 0.02). All concentrations of BMP-2 (0.05-10 nM) were inhibitory (maximum inhibition at 10 nM of 88 +/- 3%, P < 0.0001). Stimulatory doses of OP-1 increased tubular length (P = 0.003) and the number of branch points/structure (3.2-fold increase, P = 0.0005) compared with BMP-2. To determine the molecular basis for these effects, we demonstrated that BMP-2 is bound to mIMCD-3 cells by the type I serine/threonine kinase receptor, ALK-3, and that OP-1 bound to an approximately 80-kDa protein using ligand-receptor affinity assays. To demonstrate that OP-1 can exert both stimulatory and inhibitory effects within a developing kidney, embryonic explants were treated with agarose beads saturated with 2 microM OP-1. OP-1 decreased the number of ureteric bud/
collecting duct
branches adjacent to the beads by 58 +/- 1% (P < 0.0001). In contrast, the number of branches in tissue distal to the OP-1 beads was enhanced, suggesting a stimulatory effect at lower doses of OP-1. We conclude that OP-1 and BMP-2 directly control branching morphogenesis and that the effects of OP-1 are dependent on its local concentration within developing kidney tissue.
...
PMID:BMP-2 and OP-1 exert direct and opposite effects on renal branching morphogenesis. 943 86
SLC26A7 (human)/Slc26a7 (
mouse)
is a recently identified chloride-base exchanger and/or chloride transporter that is expressed on the basolateral membrane of acid-secreting cells in the renal outer medullary
collecting duct
(OMCD) and in gastric parietal cells. Here, we show that mice with genetic deletion of Slc26a7 expression develop distal renal tubular acidosis, as manifested by metabolic acidosis and alkaline urine pH. In the kidney, basolateral Cl(-)/HCO3(-) exchange activity in acid-secreting intercalated cells in the OMCD was significantly decreased in hypertonic medium (a normal milieu for the medulla) but was reduced only mildly in isotonic medium. Changing from a hypertonic to isotonic medium (relative hypotonicity) decreased the membrane abundance of Slc26a7 in kidney cells in vivo and in vitro. In the stomach, stimulated acid secretion was significantly impaired in isolated gastric mucosa and in the intact organ. We propose that SLC26A7 dysfunction should be investigated as a potential cause of unexplained distal renal tubular acidosis or decreased gastric acid secretion in humans.
...
PMID:Deletion of the chloride transporter slc26a7 causes distal renal tubular acidosis and impairs gastric acid secretion. 1972 28
The anion exchanger Pendrin, which is encoded by SLC26A4 (human)/Slc26a4 (
mouse)
gene, is localized on the apical membrane of non-acid-secreting intercalated (IC) cells in the kidney cortical
collecting duct
(
CCD
). To examine its role in the mediation of bicarbonate secretion in vivo and the apical Cl(-)/HCO(3)(-) exchanger in the kidney
CCD
, mice with genetic deletion of pendrin were generated. The mutant mice show the complete absence of pendrin expression in their kidneys as assessed by Northern blot hybridization, Western blot, and immunofluorescence labeling. Pendrin knockout (KO) mice display significantly acidic urine at baseline [pH 5.20 in KO vs. 6.01 in wild type (WT); P < 0.0001] along with elevated serum HCO(3)(-) concentration (27.4 vs. 24 meq/l in KO vs. WT, respectively; P < 0.02), consistent with decreased bicarbonate secretion in vivo. The urine chloride excretion was comparable in WT and KO mice. For functional studies, CCDs were microperfused and IC cells were identified by their ability to trap the pH fluorescent dye BCECF. The apical Cl(-)/HCO(3)(-) exchanger activity in B-IC and non-A, non-B-IC cells, as assessed by intracellular pH monitoring, was significantly reduced in pendrin-null mice. The basolateral Cl(-)/HCO(3)(-) exchanger activity in A-IC cells and in non-A, non-B-IC cells, was not different in pendrin KO mice relative to WT animals. Urine NH(4)(+) (ammonium) excretion increased significantly, consistent with increased trapping of NH(3) in the
collecting duct
in pendrin KO mice. We conclude that Slc26a4 (pendrin) deletion impairs the secretion of bicarbonate in vivo and reduces apical Cl(-)/HCO(3)(-) exchanger activity in B-IC and non-A, non-B-IC cells in
CCD
. Additional apical Cl(-)/HCO(3)(-) exchanger(s) is (are) present in the
CCD
.
...
PMID:Deletion of the anion exchanger Slc26a4 (pendrin) decreases apical Cl(-)/HCO3(-) exchanger activity and impairs bicarbonate secretion in kidney collecting duct. 2037 74
