Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UNIPROT:P41181 (collecting duct)
5,183 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

An anti-kidney antibody was demonstrated by the indirect immunofluorescence method in the serum of patients with primary tumours of the liver or kidney. The distribution of fluorescence in rabbit kidney was consistent with that of antibody to collecting ducts. The anti-collecting duct antibody (anti-CDA) could be absorbed from serum by normal adult rabbit or human kidney tissue and by one of three specimens of renal-cell carcinoma tissue. Anti-CDA differed from anti-mitochondrial antibodies and from anti-liver/kidney microsomal antibody in the pattern of fluorescent staining obtained with rabbit kidney. Two-hundred sera from patients with cancer and other diseases and forty-three from healthy hospital personnel were tested for anti-CDA. Eleven of the twenty-five positive sera were from patients with primary cancer of the liver or urinary tract, and all but six of the remainder were from patients with tumours involving the liver or with liver disorders that may be associated with nodular hyperplasia or tumour.
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PMID:Circulating antibody to renal collecting ducts in patients with hepatoma or renal-cell carcinoma. 17 72

Family 3A mammalian liver cytochromes P450 (3A1, rat; 3A3/4, human) catalyze the 6 beta-hydroxylation of endogenous steroids and are steroid inducible. Our recent finding that A6 cells (a toad kidney epithelial cell line) contain corticosterone 6 beta-hydroxylase activity as a steroid-inducible microsomal cytochrome P450 raised the possibility that corticosterone 6 beta-hydroxylase activity in the A6 cells is catalyzed by a member of the 3A family. We found that incubation of A6 cell microsomes from dexamethasone-induced cells with antibodies against family 3A proteins specifically inhibited corticosterone 6 beta-hydroxylase activity. Microsomes from A6 cells analyzed on immunoblots developed with family 3A specific antibodies revealed immunoreactive proteins and treatment of A6 with corticosterone or dexamethasone increased the amounts of 3A immunoreactive protein(s). Furthermore, A6 RNA hybridized with 3A cDNAs on Northern blots and genomic DNA from A6 cells hybridized with a 3A cDNA on a Southern blot. Thus, toad kidney A6 cells express a family 3A P450 that is immunochemically, functionally, and genetically related to the mammalian liver 3A proteins. Prompted by these findings in amphibian kidney, we examined mammalian kidney for evidence of family 3A proteins. Immunocytochemical studies of frozen cryostat sections of normal adult rat kidney incubated with 3A1 antibody showed immunoreactivity only with collecting duct. Immunoblot analysis of human kidney microsomes found three protein bands representing 3A3/4, 3A5, and a 53-kDa Mr protein immunoreactive with human 3A antibody. An unexpected finding was the polymorphic expression of 3A3/4 in human kidney with only one of seven (14%) adult human kidneys tested expressing this protein while 3A5, a protein which is polymorphically expressed in adult human livers, was routinely present in the adult human kidney samples tested. Since human fetal liver contains a family 3A P450 we examined human fetal kidney microsomes by immunoblot analysis with human liver 3A antibody and found expression of a protein tentatively identified as 3A7. Thus, like A6 amphibian cells, family 3A P450 proteins and mRNAs are prominent, functional components in the kidney of mammals, including man.
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PMID:Expression of cytochrome P450 3A in amphibian, rat, and human kidney. 155 Mar 47

The water permeability of the kidney collecting duct epithelium is regulated by vasopressin (VP)-induced recycling of water channels between an intracellular vesicular compartment and the plasma membrane of principal cells. To test whether the water channels pass through an acidic endosomal compartment during the endocytic portion of this pathway, we measured ATP-dependent acidification of FITC-dextran-labeled endosomes in isolated microsomal fractions from different regions of Brattleboro rat kidneys. Both VP-deficient controls and rat treated with exogenous VP were examined. ATP-dependent acidification was not detectable in endosomes containing water channels from distal papilla (osmotic water permeability Pf = 0.038 +/- 0.004 cm/s). In contrast, the addition of ATP resulted in a strong acidification of renal cortical endosomes (pHmin = 5.8, initial rate = 0.18-0.25 pH U/s). Acidification of cortical endosomes was reversed with nigericin and strongly inhibited by N-ethyl-maleimide. Passive proton permeability was similar and low in both cortical and papillary endosomes from rats treated or not treated with VP. The fraction of labeled endosomes present in microsomal preparations was determined by fluorescence imaging microscopy of microsomes nonspecifically bound to poly-l-lysine-coated coverslips and was 25% in cortical preparations compared to 14% (+VP) and 9% (-VP) in papillary preparations. The fraction of cortical endosomes was enriched 1.5-fold by immunoabsorption to coverslips coated with mAbs against the bovine vacuolar proton pump. In contrast, the fraction of papillary endosomes was depleted more than twofold by immunoabsorption to identical coverslips. Finally, sections of distal papilla stained with antibodies against the lysosomal glycoprotein LGP120 showed that most of the entrapped FITC-dextran did not colocalize with this lysosomal protein. These results demonstrate that vesicles which internalize water channels in kidney collecting duct principal cells lack functional proton pumps, and do not deliver the bulk of their FITC-dextran content to lysosomes. The data suggest that the principal cell contains a specialized nonacidic apical endocytic compartment which functions primarily to recycle membrane components, including water channels, to the plasma membrane.
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PMID:Endocytic vesicles from renal papilla which retrieve the vasopressin-sensitive water channel do not contain a functional H+ ATPase. 169 62

Monoclonal antibody (MAb) against 11-hydroxysteroid dehydrogenase (11-HSD) has been raised by immunization of female balb/c mice. 11-HSD from solubilized rat renal microsomal protein could be bound in a modified ELISA using antimouse IgG and MAb against 11-HSD. On Western blots of solubilized rat renal microsomes the MAb recognized a single protein band of an approximate molecular weight of 35 kD. Immunohistochemical staining of rat renal tissue with the above MAb and the APAAP staining technique displayed a heterogenous reginal and subcellular distribution: glomeruli and arterioles were practically devoid of specific staining, as were epithelial cells in inner and outer medulla. Intense immunostaining was observed in PCT and particularly in PST, appearing granular with highest density around the nuclei. Here the enzyme bound to intracellular membranes may exert an autocrine function such as signal inactivation. In contrast to cortex, staining of interstitial cells was observed in renal medulla. The latter localization is compatible with the concept of a paracrine function of 11-HSD which might prevent corticosterone from gaining access to collecting duct cells.
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PMID:Immunohistochemical localization of 11-hydroxysteroid dehydrogenase in rat kidney with monoclonal antibody. 262 47

To determine whether kidney membrane fractions contain an extramitochondrial anion-stimulated ATPase, we compared the pharmacological and kinetic properties of HCO3-ATPase activities in mitochondrial and microsomal fractions prepared from rabbit kidney cortex and outer medulla. The results indicated that this activity differed markedly in each type of fraction. Microsomal HCO3-ATPase was less sensitive than mitochondrial ATPase to azide, oligomycin, DCCD and thiocyanate, but was more sensitive to filipin and displayed different dependency towards ATP, magnesium and pH. Microsomal ATPase activity was stimulated by sulfite much more strongly than by bicarbonate, whereas mitochondrial activity was stimulated by both these anions to a similar extent. These results demonstrate the presence of an extramitochondrial HCO3-ATPase in kidney membrane fractions. HCO3-ATPase was also measured in single microdissected segments of the rabbit nephron using a radiochemical microassay previously developed for tubular Na, K-ATPase activity. An enzyme with the pharmacological and kinetic properties of the microsomal enzyme was detected in both proximal tubule, distal convoluted tubule and collecting duct, but the thick ascending limb was devoid of any detectable activity. Long-term DOCA administration markedly increased HCO3-ATPase activity in the distal convoluted and collecting tubule. The insensitivity of microsomal HCO3-ATPase to vanadate indicates that it belongs to the F0-F1 class of ATPases, and might therefore be involved in proton transport. This hypothesis is also supported by the localization of tubular HCO3-ATPase activity at the sites of urinary acidification.
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PMID:Presence of an extramitochondrial anion-stimulated ATPase in the rabbit kidney: localization along the nephron and effect of corticosteroids. 293 49

To obtain a highly specific reagent that could be utilized for ultrastructural localization of Na,K-ATPase, monoclonal antibodies were produced using microsomal preparations of outer renal medulla of dog and rat enriched for Na,K-ATPase. The monoclonal antibody (C62.4) raised against dog antigen, immunoprecipitated a 96,000 Dalton protein from membranes labeled either with 35S methionine or 3H NAB ouabain. Na,K-ATPase, Na-ATPase, and KpNPPase activity were 25, 60, and 100% maximal after reaction with C62.4. Na,K-ATPase activated with SDS was inhibited, but Na,K-ATPase in tight right-side-out membrane vesicles was not. C62.4 inhibited ouabain binding in the presence of Na,K, and Mg, but did not inhibit ouabain binding in the presence of Mg and Pi. Labeling of broken membranes was readily seen using C62.4 labeled with colloidal gold. Intact right-side-out vesicles showed no evidence of labeling, demonstrating that the antibody is directed to an epitope of the cytoplasmic domain of the enzyme. Differential localization of C62.4 along the nephron was identified. Glomeruli showed no significant antibody binding except by occasional cells in the mesangial regions. Only basal lateral membranes of cells from all tubule segments labeled with C62.4. There was no evidence of specific apical labeling. The thick ascending limb of Henle's loop demonstrated the greatest concentration of antibody binding. In the cortical and outer medullary collecting duct, only principal cells showed abundant antibody binding. Intercalated cells showed no detectable evidence of antibody binding on any surface. These studies demonstrate that Na,K-ATPase is localized exclusively to the basal lateral membrane of renal tubular epithelial cells and varies in density and distribution in different nephron segments.
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PMID:Monoclonal antibody to Na,K-ATPase: immunocytochemical localization along nephron segments. 300 43

Excess 6 beta-OH-corticosterone production by family 3A cytochromes P-450 may play a role in genesis of hypertension in the spontaneously hypertensive rat (SHR), by producing a renal defect in Na+ excretion. Renal cytochromes P-450 may be a causal factor in this genetic model. Since family 3A P-450 is present in rat kidney (collecting duct), the renal family 3A catalytic (6 beta-OHase) and immunoreactive activities were compared in SHR and normotensive control (Wistar-Kyoto; WKY) rats. Corticosterone 6 beta-hydroxylation is markedly higher in SHR than in WKY renal microsomal preparations. Western blot analysis with antibodies to rat and rabbit liver family 3A isoforms demonstrated related proteins. Densitometry revealed greater relative intensity of staining in SHR compared to WKY with both antibodies. Both antibodies inhibited corticosterone 6 beta-hydroxylation by SHR renal microsomes. Increased renal 6 beta-OH-corticosterone production by increased renal family 3A cytochromes P-450 may play a role in the blood pressure elevation in SHR.
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PMID:Renal corticosterone 6 beta-hydroxylase in the spontaneously hypertensive rat. 835 46

11 beta-Hydroxysteroid dehydrogenase has been proposed to play an important role in aldosterone target cells by degrading endogenous glucocorticoids, thus allowing aldosterone to bind to the relatively nonselective mineralocorticoid receptor. The physiologically important species of this enzyme in renal aldosterone target cells appears to be kinetically and antigenically distinct from the previously characterized liver enzyme. Here we show that 11 beta-steroid dehydrogenase in the microsomal fraction of isolated renal collecting duct cells has a Km for corticosterone of 25.9 +/- 2.4 nM, about 100 times lower than the rat liver enzyme. Surprisingly, the collecting duct enzyme utilizes almost exclusively NAD as cofactor versus NADP used by the liver form. Conversion of corticosterone to 11-dehydrocorticosterone is 2.6 +/- 0.5 and 0.07 +/- 0.01 fmol/min/mg protein with 100 microM of NAD and NADP, respectively, demonstrating a 37.4 +/- 3.5-fold preference for NAD versus NADP. There is practically no conversion of 11-dehydrocorticosterone to corticosterone either with NADH or NADPH, indicating that in collecting duct cells the enzyme operates only in the direction of oxygenation. In addition, 11 beta-steroid dehydrogenase activity is dose dependently inhibited by the end product 11-dehydrocorticosterone while the liver enzyme does not show end product inhibition. We conclude that renal collecting duct cells, the major physiological targets of aldosterone, are protected from circulating glucocorticoids by a hitherto undescribed enzyme of the 11-dehydrogenase family, which differs from the known liver enzyme in having a significantly higher affinity for corticosterone and a different cofactor requirement.
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PMID:A new isoform of 11 beta-hydroxysteroid dehydrogenase in aldosterone target cells. 849 39

Primary cultures of immunodissected cells from rabbit kidney connecting tubule and cortical collecting duct were used to study aldosterone's action on transcellular Na+ flux. Incubation with 10(-7) M aldosterone stimulated transcellular Na+ transport which was detected as an increase in benzamil-sensitive short-circuit current. The stimulatory response was consistently noted after 2 h of incubation and stabilized after 6 h. 2D-PAGE was used to identify proteins which were induced concurrently with the increase in transcellular Na+ flux after an aldosterone incubation of 15 h. Three aldosterone-induced proteins (AIPs; M(r) = 100, 70-77 and 46-50 kDa) were found in the membrane and microsomal fractions. Two of these appeared to have more than one isoform. A single heterogeneous AIP (M(r) = 77 kDa) was detected in the soluble fraction.
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PMID:Aldosterone-induced proteins in primary cultures of rabbit renal cortical collecting system. 886 16

The type 1 and type 2 isoforms of human 11 beta-hydroxysteroid dehydrogenase (11 beta-HSD) play a crucial role, respectively, in modulating glucocorticoid and mineralocorticoid hormone action. Deficiency of the 11 beta-HSD2 isoform, as described in the syndrome of apparent mineralocorticoid excess and following liquorice (glycyrrhetinic acid) or carbenoxolone ingestion, results in hypertension in which cortisol acts as a potent mineralocorticoid. Several studies have addressed the effects of progesterone, glycyrrhetinic acid, and their derivatives on 11 beta-HSD activity, but these were largely undertaken before the characterization of the 11 beta-HSD isoforms. The aim of this study was to evaluate the localization of 11 beta-HSD2 in human kidney and to study the effects of progesterone, glycyrrhetinic acid, and their related compounds on stable transfectants of the human 11 beta-HSD isoforms. Using an in-house sheep antibody against human 11 beta-HSD2, immunoperoxidase studies localized 11 beta-HSD2 to renal cortical and medullary collecting ducts. Glomeruli, vascular structures, loops of Henle, and proximal tubules were all negative. Confocal laser microscopy studies indicated both a cytoplasmic and nuclear localization for the enzyme within renal collecting ducts. The nuclear staining, which was intranuclear and was not associated with the nuclear membrane, accounted for 40% of the total cellular 11 beta-HSD2 immunoreactivity. Kinetic analysis of 11 beta-HSD activity in fetal kidney 293 cells stably transfected with h11 beta-HSD1/pcDNA3 or 11 beta-HSD2/pCR3, indicated, respectively, low-affinity dehydrogenase/oxoreductase activity (Km for F, 1.8 microM; Km for E, 270 nM) and high-affinity dehydrogenase activity (Km for F, 190 nM). The reductase activity of 11 beta-HSD1 was inhibited by 11 alpha-hydroxyprogesterone > carbenoxolone = glycyrrhetinic acid = progesterone > 11 beta-hydroxyprogesterone. The dehydrogenase activity of 11 beta-HSD2 was inhibited 11 alpha-hydroxyprogesterone = 11 beta-hydroxyprogesterone > glycyrrhetinic acid > carbenoxolone = progesterone. 11 beta-HSD2, expressed in the renal collecting duct, serves to protect the mineralocorticoid receptor (MR) in an autocrine fashion. The demonstration of a nuclear localization for what was thought to be principally a microsomal enzyme suggests that interaction between the MR and its ligand (either aldosterone or cortisol) may be a nuclear rather than a cytoplasmic event. The inhibitory effects of progesterone, glycyrrhetinic acid, and related compounds on 11 beta-HSD1 and 2 were similar, and it remains to be seen what implication these findings have for 11 beta-HSD1 action in tissues such as the liver and gonad and renal 11 beta-HSD2 activity in relation to sodium homeostasis and blood pressure control.
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PMID:Human 11 beta-hydroxysteroid dehydrogenase: studies on the stably transfected isoforms and localization of the type 2 isozyme within renal tissue. 902 19


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