UNIPROT:P41181 - FACTA Search

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Query: UNIPROT:P41181 (collecting duct)
5,183 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The concentration of nine endogenous free L-alpha-amino acids (ALA, LEU, ILE, PHE, TYR, LYS, GLU, PRO, GLY) and of taurine were determined simultaneously along the nephron of the rat kidney using free-flow micropuncture techniques without altering plasma amino acid concentration or kidney function. The amount of each amino acid was determined after dansylation (14C-labelled dansyl-chloride) in the micropuncture sample followed by thinlayer chromatography. The main site of reabsorption is the proximal tubule. After 15-20% of the proximal tubule length the bulk of reabsorption has taken place (18.9 plus or minus 3.4% S.E. of the filtered load remaining). Net reabsorption continues to a small but significant extent along the distal nephron (disal tubule and collecting duct). Reabsorption of taurine is less rapid (% remaining of filtered load at the early proximal tubule 37.0 plus or minus 4.6%). The transtubular concentration ratio of all amino acids except taurine follows a homogeneous course. Under the experimental conditions of this study no distction with respect to different systems of reabsorption "neutral", "basic", "acidic", "imino-glycine") could be made.
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PMID:Amino acid reabsorption in the rat nephron. Free flow micropuncture study. 117 57

The ontogenesis of vasopressin receptors in the rat collecting duct was studied by measuring the binding of [1-(beta-mercapto-beta,beta-cyclopentamethylenepropionic acid),2-O-methyltyrosine,4-threonine,8-ornithine,9-125I-tyrosylamide+ ++]-vasotocin (125I-d(CH2)5[Tyr(Me)2,Thr4,Tyr-NH(9)2]-OVT) to isolated cortical collecting ducts (CCD), outer medullary collecting ducts (OMCD) and inner medullary collecting ducts (IMCD) microdissected from collagenase-treated kidneys of 2- to 34-day-old rats and adult animals. The stereospecificity for recognition of a series of seven vasopressin structural analogues by CCD and OMCD receptors reveals that the labeled binding sites identified in 11- to 16-day-old and adult rats are homologous respectively and contain a major population of V2 type and a minor population of V1a type of vasopressin receptors. At all postnatal stages examined, the receptor density (expressed as 10(-18) mol radioligand bound per square millimeter tubular outer surface area) decreases gradually from the CCD to the IMCD. For the three segments, the numbers of receptors detected remained constant during the first 2 weeks after birth and increased sharply after 20 days to reach the corresponding adult levels during the fifth week.
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PMID:Postnatal ontogenesis of vasopressin receptors in the rat collecting duct. 138 71

A histochemical analysis of glycoproteins, proteins, and some enzymes was done in kidneys from adult male lizards. The enzymes belong to different pathways of the cell metabolism which include EMBDEN-MEYERHOF and pentose-phosphate pathways, KREBS cycle, and to the lipid and protein metabolism. 2 cell types are described in the collecting duct, one being probably responsible for active transport and the other involved in mucous secretion. The proximal tubule, intermediate segment and distal tubule seem to perform an efficient aerobic metabolism. The proximal tubules probably take part in the final steps of uric acid formation. Aminic groups and the amino acids tyrosine, tryptophan, arginine, cysteine, and cystine are always present in the secretory granules of the sexual segment. These granules also have neutral glycoproteins and acid phosphatase activity.
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PMID:Histochemistry of the kidney of the tropical lizard Tropidurus torquatus. 688 33

Protein phosphorylation on tyrosine residues is one of the main cell signaling mechanisms. Cellular phosphotyrosyl levels are regulated by the activities of protein tyrosine kinases (PTK) and protein tyrosine phosphatases (PTPase). We have previously reported cDNA cloning of several types of PTPase from rat kidney, including LRP (leukocyte common antigen-related protein; also known as the transmembrane-type tyrosine phosphatase, i.e., RPTP alpha). LRP mRNA was shown to be abundant in the kidney; however, our understanding of the functional role of LRP in the kidney is very limited. To gain keener insight into the function of LRP in the kidney, our first approach was to reveal its mRNA distribution along rat nephron segments. Large signals were found in inner medulla by Northern blot analysis. By using a reverse transcription and polymerase chain reaction assay of individual microdissected tubule segments along the nephron [proximal convoluted tubule (PCT), medullary thick ascending limb (MTAL), cortical collecting duct (CCD), outer medullary collecting duct (OMCD), and inner medullary collecting duct (IMCD)] and glomeruli, we revealed intrarenal localization of LRP mRNA. LRP mRNA was detected in all nephron segments tested but was relatively rich in the IMCD. Rank order of the signal intensity was IMCD > PCT = OMCD > CCD > MTAL = glomeruli. Immunohistochemistry also revealed that LRP was abundant in IMCD. This pattern of expression gives rise to an interesting possibility that LRP might be involved in the specific renal tubule function, such as urinary concentrating mechanism; however, further study is required to describe the function of LRP in more detail.
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PMID:Expression of transmembrane-type protein tyrosine phosphatase mRNA along rat nephron segments. 754 55

The regulation of transport in the collecting duct is under multi-hormonal control. Vasopressin stimulates water and cation transport, primarily through a V2/Gs-coupled receptor that activates adenylyl cyclase, which raises cAMP. These stimulatory effects are damped by the action of several hormones, including vasopressin itself, which activate inhibitory G proteins, stimulate phospholipid breakdown, increase prostaglandin production, raise intracellular Ca2+, activate protein kinase C, stimulate tyrosine kinases, and raise cGMP. These inhibitory signals interact with the stimulatory, cAMP-coupled signaling pathway at multiple levels. The balance between these pathways controls net salt and water transport in the collecting duct.
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PMID:Hormonal signaling and regulation of salt and water transport in the collecting duct. 801 Jul 58

Hepatocyte growth factor (HGF) has been implicated in branching tubulogenesis of the developing kidney and in response to renal injury. We therefore examined the effects of response to renal injury. We therefore examined the effects of HGF on a recently described murine inner medullary collecting duct epithelial cell line (mIMCD-3 cells) in comparison with Madin-Darby canine kidney (MDCK) cells. HGF induced mitosis, scattering, and tubulogenesis in both mIMCD-3 cells and MDCK cells. However, mIMCD-3 cells underwent branching tubulogenesis under matrix conditions that did not support these morphogenetic changes in MDCK cells, suggesting substantial differences in regulation of tubulogenesis in these two cell types. In quiescent mIMCD-3 cells, the high-affinity receptor for HGF, c-met, was expressed in a nonphosphorylated state. After stimulation with HGF, there was a > 10-fold increase in receptor tyrosine phosphorylation and selective association with at least two intracellular proteins, including the phosphatidylinositol-3-kinase. Thus mIMCD-3 cells, which undergo HGF-dependent mitosis, scattering, and branching tubulogenesis, express the c-met receptor in a highly regulated state and therefore should make an excellent model for examining the mechanisms of HGF-dependent tubulogenesis in the renal collecting duct.
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PMID:Regulation of mitogenesis, motogenesis, and tubulogenesis by hepatocyte growth factor in renal collecting duct cells. 806 88

The physiological role of oxytocin (OT) in the kidney is still unclear, although autoradiographic data have shown the existence of OT receptors in the rat kidney. We examined the effect of OT in the microperfused rabbit cortical collecting duct (CCD) by using conventional cable analysis and microscope photometry. On addition of 10(-9) M OT to the bath, the lumen-negative transepithelial voltage (VT) transiently increased and the transepithelial resistance (RT) and the fractional resistance of the apical membrane (FRA) (1st phase) both decreased. After this initial change, the lumen-negative VT gradually decreased below its baseline level and RT and FRA (second phase) both increased. These electrical changes were dose dependent and were prevented by the addition of 10(-5) M amiloride to the lumen. Although responses to OT were not prevented by 10(-9) M arginine vasopressin (AVP) or 10(-6) M of a V1-receptor antagonist (OPC-21268) or V2-receptor antagonist (OPC-31260), they were inhibited by the addition of the specific OT antagonist des-Gly-NH2-[d(CH2)3,Tyr(Me),Thr]OVT. Additional studies of intracellular free calcium ([Ca2+]i) revealed that 10(-8)-10(-6) M OT caused an increase in [Ca2+]i in CCD in a dose-dependent manner. Also, pretreatment with 2 x 10(-8) M bis-(aminophenoxy)ethane-tetraacetic acid-acetoxymethyl ester, an intracellular Ca2+ chelator, abolished the electrical and [Ca2+]i responses to OT. Pretreatment with 5 x 10(-4) M 8-(4-chlorophenylthio)-adenosine 3',5'-cyclic monophosphate (CPT-cAMP) partially prevented the electrical responses to OT, thus reducing the decrease in lumen-negative VT below its basal level and the increase in RT after the 1st phase. These data show that OT affects the apical Na+ conductance of collecting duct cells through OT receptors distinct from the AVP receptors and that the effect of OT may, at least in part, be brought about by a mechanism(s) dependent on the increase in [Ca2+]i and cAMP production.
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PMID:Oxytocin affects apical sodium conductance in rabbit cortical collecting duct. 823 78

In the rabbit cortical collecting duct (CCD) perfused in vitro, we recently found that luminal arginine vasopressin (AVP) hyperpolarizes the transepithelial voltage (Vt) and inhibits the hydrosmotic effect of basolateral AVP. The present study was undertaken to characterize the apical receptor of the CCD for AVP. In contrast to AVP, luminal application of 1-desamino-8-D-arginine vasopressin (DDAVP), a V2 agonist, did not significantly induce hyperpolarization. Luminal oxytocin (OXT) hyperpolarized Vt, interfering with the effect of superimposed luminal AVP, whereas [Thr4,Gly7]OXT, an OXT agonist, did not reproduce the effect of OXT. The effects of luminal AVP and OXT were abolished by [d(CH2)5,Tyr(Me)]-AVP, a V1 antagonist. Finally, luminal applications of AVP metabolite neuropeptides, pGlu-Asn-Cys(Cys)-Pro-Arg and pGlu-Asn-Cys(Cys)-Pro-Arg-Gly-NH2, were without effect on Vt. These data suggest that luminal AVP induces hyperpolarization through an apical V1 receptor but not through a V2 receptor or an OXT receptor.
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PMID:Functional evidence for an apical V1 receptor in rabbit cortical collecting duct. 845 59

The mitogen-activated protein kinases (MAPKs), p38 and jun kinase (JNK), are activated by diverse stressors in cells of nonrenal medullary origin. Epithelial cells of the renal medulla are among the very few cells of higher eukaryotes routinely subjected to hyperosmotic stress, composed of principally NaCl and urea. Hyperosmotic NaCl activated p38 and JNK in a time- and dose-dependent fashion in cells of the murine terminal inner medullary collecting duct cell line (mIMCD3) as determined by immune complex kinase assay. Hyperosmotic urea exerted a minimal effect upon only p38 activation, which was evident only at 5 min. The NaCl effect was dose dependent to 800 mosmol/kgH2O; 800 mosmol/kgH2O urea, in contrast, exerted no effect. Consistent with these observations, NaCl (800 mosmol/kgH2O) but not urea (800 mosmol/kgH2O) increased tyrosine phosphorylation of p38 and JNK at 10 min. Therefore, even in the extremely osmotolerant renal medullary mIMCD3 cell line, derived from a tissue adapted for routine exposure to elevated osmolality, hypertonic NaCl activated two stress-responsive MAPKs. Urea, in contrast, exerted virtually no effect; therefore, cellular protection from urea stress operates through a mechanism distinct from the stress-responsive MAPKs.
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PMID:NaCl but not urea activates p38 and jun kinase in mIMCD3 murine inner medullary cells. 899 98

Kidney epithelia have two separate origins. Collecting ducts develop in the manner of most glandular organs, by growth and branching of a bud derived from a pre-existing epithelium. Excretory tubules develop by a direct mesenchyme to epithelium transition (MET), which is induced by the tips of the developing collecting duct system as it invades a specialised area of mesenchymal cells. The process by which these metanephrogenic mesenchyme cells achieve MET can be divided into several stages; induction, acquisition of stem cell character, fate determination, condensation, epitheliogenesis, polarisation and maturation. Progress through these stages is regulated by 'checkpoints' at which permission to proceed requires specific signals. The stages of development are characterised by the expression of new combinations of genes that code for transcription factors (Hox genes, Pax genes, zinc finger proteins), signalling effectors (growth factors, Wnts, receptor tyrosine kinases) and morphoregulatory molecules (CAMs, cadherins, extracellular matrix ligands). This review summarises current knowledge about the molecular interactions that control MET in the kidney, and also about how their failure might result in Wilms' tumour, one of the most common cancers of childhood.
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PMID:Mesenchyme to epithelium transition during development of the mammalian kidney tubule. 912 36

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