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)

The newborn is limited in its ability to respond to acid-base perturbations. To investigate the development of renal H+/HCO3- transport mechanisms, we probed acid-base-related epitopes in the mesonephric and developing metanephric kidneys of rabbits. Using immunofluorescence with monoclonal antibodies to the vacuolar H+ATPase, band 3-like Cl-/HCO3- exchanger, and apical surface of fully differentiated beta-intercalated cells, and peanut lectin cytochemistry (another marker of beta-intercalated cells), we found that these epitopes were poorly expressed in the nephrogenic zone of the newborn kidney cortex. Deeper in the cortex, collecting ducts showed weak apical staining with beta-intercalated cell antibodies and two patterns of staining with the H+ATPase and band 3 antibodies: polar and circumferential or diffuse. Some cells showed apical staining with H+ATPase while others showed diffuse staining, similar to that observed in the mature cortical collecting duct. Band 3 labeling was basolateral, as observed in the adult, and diffuse, which was rarely seen in mature kidney sections. Newborn outer medullary collecting ducts showed apical labeling with H+ATPase and basolateral staining with band 3 antibodies, similar to the mature outer medulla. Surprisingly, the mesonephric collecting tubule showed cells with apical H+ATPase staining or basolateral band 3 labeling and, less frequently, cells with positive staining for beta-intercalated cells. The relative maturity of the mesonephric collecting tubule and similarity to what is observed in mature metanephric collecting ducts indicates that intercalated cells may be present and functioning in both organs. Thus, the lineage of intercalated cells may be more intricate than previously believed.
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PMID:Developmental expression of acid-base-related proteins in the rabbit kidney. 813 Jan 11

Many renal diseases involving the tubular epithelium appear to preferentially affect certain nephron segments. While major portions of the nephron, such as proximal and distal convoluted tubules and collecting ducts, can be identified in the normal kidney, the distinction of diseased nephron segments can be difficult in tissue sections. Thus, to identify which nephron segments are involved in pathologic changes is usually impossible by routine histologic examination alone. Recently antibody and lectin probes that react with specific nephron segment-specific epitopes and carbohydrates, respectively, have become available. Some of these antibodies and lectins can be used on formalin-fixed, paraffin-embedded, archival tissues. Because renal tubules appear to retain their nephron segment-specific epitopes and glycoprotein moieties under most pathologic conditions, these nephron segment-specific tubular epithelial markers provide a method to study renal diseases involving the tubular system also in archival material. Such nephron segment-specific tubular epithelial markers are: the lectins, Tetragonolobus purpuras and Phaseolus vulgaris erythroagglutinin (proximal tubular markers); antibodies to low-molecular-weight cytokeratin (AE1/AE3); epithelial membrane antigen and the lectin Arachis hypogaea (distal nephron [distal convoluted tubule and collecting duct] markers); and antibodies to Tamm-Horsfall protein (labeling the thick ascending limb of Henle). We review the application of these and other renal tubular epithelial markers in the normal kidney and in various renal diseases including cystic disease of the kidney, interstitial nephritis, tubular atrophy, acute tubular necrosis, myeloma cast nephropathy, and renal tumors.
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PMID:Immunohistochemical and lectin dissection of the human nephron in health and disease. 825 Jun 94

We report the cytologic features of eight fine-needle aspirations (FNA) and eight exfoliative specimens of collecting duct carcinoma (CDC) obtained from six patients. The four men and two women ranged in age from 27 to 69 years (mean = 45 yr) and all had advanced stage disease at presentation (one stage III, five stage IV). Five of the six patients died of widespread disease, and one is alive and well (mean survival, 28 mo; range, 11-48 mo). The smears of the FNA and exfoliative specimens were scantly to moderately cellular. Tumor cells showed moderate pleomorphism and were arranged primarily in cohesive groups that rarely had a papillary configuration. Nuclei had irregular nuclear contours, coarse chromatin, and one to three nucleoli. In the majority of cases the cytoplasm was finely vacuolated, and occasionally there were large intracytoplasmic vacuoles. Intracytoplasmic mucin was demonstrated in two aspirates. Psammoma bodies were present in four of the seven fluids. In two patients, the cytologic diagnosis was supported by positive immunostaining for high-molecular-weight keratin and Ulex europaeus agglutinin I lectin. Leu M-1 was focally positive in one case and negative in the other. The cytologic features of CDC were readily identified as malignant; however, they were not distinctive and overlapped with those of high-grade renal cell carcinoma with papillary features and transitional cell carcinoma.
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PMID:Cytologic findings of collecting duct carcinoma of the kidney. 859 13

The role of H(+)-K(+)-adenosinetriphosphatase (H(+)-K(+)-ATPase) in the cortical collecting duct (CCD) B-type intercalated cell (B cell) is unclear. This study examined whether H(+)-K(+)-ATPase contributes to B cell intracellular pH (pHi) regulation and, if so, whether it is present at the apical or basolateral membrane. B cell Na(+)-independent pHi recovery from an acid load was only partially inhibited by peritubular N-ethylmaleimide (NEM). Complete inhibition required combining peritubular NEM either with luminal Sch-28080 or with luminal K+ removal. In contrast, neither peritubular Sch-28080 nor peritubular K+ removal altered pHi regulation. Tomato lectin, which binds to the gastric H(+)-K(+)-ATPase beta-subunit, labeled the B cell apical membrane. We conclude that the rabbit CCD B cell possesses an apical H(+)-K(+)-ATPase that plays an important role in pHi recovery from an in vitro acid load.
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PMID:H(+)-K(+)-ATPase in rabbit cortical collecting duct B-type intercalated cell. 878 Feb 56

This study evaluated the role of H-K-adenosinetriphosphatase (H-K-ATPase) with chronic metabolic acidosis (CMA) in intercalated cells (ICs) of rabbit cortical collecting duct (CCD). CMA was induced by replacing drinking water with 75 mM NH4Cl in 5% sucrose for 10-14 days. CCDs isolated from CMA and control rabbits were split open and exposed to the intracellular pH (pHi) indicator 2',7'-bis(carboxyethyl)-5(6)-carboxyfluorescein. In N-2-hydroxyethylpiperazine-N'-2-ethanesulfonic acid-buffered solutions, the resting pHi in ICs was similar for both groups. K-dependent pHi recovery (5 mM K, 140 mM N-methyl-D-glucamine) was monitored in response to a pulse of NH4Cl (10 mM). The K-dependent pHi recovery rate was threefold higher in CMAICs compared with controls and was abolished with the gastric H-K-ATPase inhibitor, Sch-28080 (10(-5) M). Polarity of the H-K-ATPase was studied in microperfused CMA and control CCDs. Luminal K-dependent pHi recovery was monitored in response to an acute pulse of NH4Cl in individual peanut lectin agglutinin (PNA)-binding ICs. The apical Sch-28080-inhibitable K-dependent pHi recovery rate was significantly greater in CMA ICs than control ICs. In summary, CMA enhances functional activity of an apical H-K-ATPase in PNA-binding ICs of rabbit CCD.
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PMID:Stimulation of apical H-K-ATPase in intercalated cells of cortical collecting duct with chronic metabolic acidosis. 878 Feb 58

Recent studies have suggested that less than 10% of intercalated cells in the rabbit outer cortical collecting duct (CCD) [1, 2] and less than 3% in the connecting segment (CNT) [3] are identifiable by functional criteria as acid-secreting (type A or alpha) intercalated cells. Other studies, using peanut lectin-binding and the absence of apical endocytic activity to identify bicarbonate-secreting (type B or beta) intercalated cells, have suggested that acid-loading increases the percentage of alpha intercalated cells in the CCD. Because our preliminary observations of band 3 immunoreactivity suggest that the percentages of alpha intercalated cells in the rabbit outer CCD and the CNT are underestimated by physiologic studies and are not altered by chronic acid-loading, we quantified the percentage of alpha intercalated cells in various segments of the collecting duct using light microscopic immunohistochemistry in kidneys of rabbits receiving tap water (control) or 75 mM NH4Cl for 12 days plus 8 daily gavages of 2 to 6 mEq NH4Cl/kg body wt. Mean urine pH values were 5.96 in acid-loaded animals versus 8.47 in controls. Kidneys were preserved by in vivo perfusion with periodatelysine-paraformaldehyde fixation and processed for immunohistochemical colocalization using sequential labeling with monoclonal antibodies and peanut lectin, followed by immunoperoxidase detection. Colocalization of band 3 and carbonic anhydrase II immunoreactivity revealed the following percentages of band 3-positive intercalated cells in control versus NH4Cl rabbits: CNT, 49.0 versus 52.8; initial collecting tubule (ICT), 27.2 versus 34.5; outer CCD, 33.5 versus 30.3; inner CCD, 38.2 versus 41.8; corticomedullary CD, 67.9 versus 58.8. There were no differences between the groups for all comparisons. Similar results were obtained using band 3 protein immunoreactivity and peanut lectin-binding to identify intercalated cell subtypes. However, in NH4Cl-loaded rabbits, peanut lectin-binding was observed in band 3 positive intercalated cells in the outer medullary CD. We conclude that: (1) the percentage of alpha intercalated cells in rabbit CCD subsegments are approximately 50% in the CNT, 30% in the ICT and the outer CCD, 40% in the inner CCD, and 60% in the corticomedullary CD; (2) the percentage of alpha intercalated cells is not altered by chronic NH4Cl-loading; (3) peanut lectin is not a specific marker of beta intercalated cells.
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PMID:Axial distribution of band 3-positive intercalated cells in the collecting duct of control and ammonium chloride-loaded rabbits. 894 35

Rabbit cortical collecting duct (CCD) cells were immortalized to study angiotensin II (ANG II) signaling in the CCD. Transfected cells retained CCD properties; arginine vasopressin (AVP), prostaglandin E2, and isoproterenol (10(-7) M) all significantly stimulated adenosine 3',5'-cyclic monophosphate (cAMP) production; and parathyroid hormone and calcitonin had no effect on cAMP. Twenty-seven percent of transfected cells bound the beta-intercalated cell marker peanut lectin agglutinin, whereas antibodies against principal cells and alpha-intercalated cells immunolabeled 26% of cells. All cells stained with antibodies to the epithelial cell marker cytokeratin. By contrast, no immunofluorescence was observed with antibodies to smooth muscle myosin, Tamm-Horsfall protein, or factor VIII. Transfected cells demonstrated amiloride-sensitive transepithelial short-circuit current. In transfected cells, radioligand binding assays detected a single class of ANG II receptors (affinity constant = 0.78 nM), and AT1-receptor mRNA was demonstrated by Northern analysis. ANG II (10(-7) M) significantly inhibited AVP-stimulated cAMP production; lower concentrations (10(-10) M) increased phosphoinositide hydrolysis. In summary, we immortalized a rabbit CCD cell line that retains characteristic morphological and hormonal properties. These cells express AT1 receptors, coupled to inhibition of cAMP and to stimulation of phosphoinositide turnover. We postulate that these signaling pathways may mediate effects of ANG II on CCD transport and cell growth.
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PMID:Immortalized rabbit cortical collecting duct cells express AT1 angiotensin II receptors. 899 88

Functional and immunocytochemical studies indicate that intercalated cells in the adult rabbit cortical collecting duct (CCD) possess an H-K-adenosinetriphosphatase (H-K-ATPase). Because growing subjects must retain K+ and excrete H+, we sought to determine whether H-K-ATPase is present in the CCD early in life and, if so, to assess its activity and polarity. H-K-ATPase activity was defined as the initial rate of Sch-28080-inhibitable K+-dependent cell pH (pHi) recovery observed, in the absence of Na+, in response to an in vitro acid load. Transporter activity was assayed in intercalated cells labeled with the pH-sensitive dye 2',7'-bis(carboxyethyl)-5(6)-carboxyfluorescein and apical cell surface marker rhodamine peanut lectin (PNA) in split-open CCDs isolated from neonatal and adult New Zealand White rabbits. In Na+-free N-2-hydroxyethylpiperazine-N'-2-ethanesulfonic acid-buffered solutions (nominal absence of CO2/HCO3-), the rate of K+-dependent pH(i) recovery from a NH4Cl-induced acid load was similar in newborn (0.056 +/- 0.015 pH U/min, n = 9) and adult (0.060 +/- 0.019 pH U/min; n = 9, P = not significant) cells. This rate of K+-dependent pH(i) recovery was significantly reduced by 10-20 pM Sch-28080, an inhibitor of gastric H-K-ATPase, in both newborns (0.009 +/- 0.003 pH U/min, n = 7) and adults (0.013 +/- 0.007 pH U/min, n = 9) (P < 0.05 compared with rates in absence of inhibitor). To determine whether the location of the transporter is consistent with a role in K+ absorption and H+ secretion, pH(i) recovery of acutely acid-loaded intercalated cells in neonatal CCDs (n = 7) microperfused and bathed in the absence of Na+ and K+ was monitored after selective addition of K+ to either the luminal or basolateral membrane. Addition of 5 mM K+ led to a significantly greater rate of pH(i) recovery when it was added to the luminal rather than the peritubular solution (0.049 +/- 0.005 vs. 0.018 +/- 0.005 pH U/min, P < 0.05). We conclude that PNA-binding intercalated cells of the neonatal CCD possess H-K-ATPase activity, predominantly located in the apical membrane. This provides a mechanism for H secretion and K+ retention, processes required for growth.
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PMID:H-K-ATPase activity in PNA-binding intercalated cells of newborn rabbit cortical collecting duct. 912 92

Renal fibroblasts play a major role in the pathogenesis of renal interstitial fibrosis. This process is associated at least in some forms of interstitial fibrosis with a differentiation of fibroblasts into myofibroblasts, characterized by the de novo expression of alpha-smooth muscle (alpha-sm) actin and/or desmin. Both the mechanisms underlying this differentiation and their effects on cellular function are poorly understood. In vitro studies are difficult since the phenotypes of fibroblasts in culture have as yet not been well defined. We have, therefore, examined the phenotype of inner medullary fibroblasts (IMF) during the transition from in vivo to in vitro in various cell fractions derived from the inner medulla of healthy rats. IMF were positive for the lectin BSL-1 and negative for markers of endothelial cells. IMF first lost their prominent lipid droplets in vitro. Subsequently they developed cytoplasmic processes accompanied by a decrease in their reactivity for the lectin BSL-1 from strong to weak. From day 3 in primary culture, exclusively these weakly positive BSL-1 cells showed a de novo expression of alpha-sm actin (day 4 of primary culture, 75 +/- 4%; day 20, 94 +/- 2%) and desmin (day 4, 43 +/- 8%; day 20, 66 +/- 6%), classifying them as myofibroblasts. This transformation depended on culture conditions. In a mixed coculture with inner medullary collecting duct (IMCD) cells the transformation of IMF was largely absent: a significantly greater number of strong BSL-1 positive cells contained prominent lipid droplets (39 +/- 4 vs. 19 +/- 4%, P < 0.05) on day 4 of primary culture, and the transition of strongly to weakly positive BSL-1 IMF was almost completely blocked. By reducing the seeding density of IMCD cells the effect of this condition on IMF transformation could be largely abolished. This first detailed phenotypic characterization of rat fibroblasts during the transition from in vivo to in vitro demonstrates that these cells-depending on culture conditions-differentiate to myofibroblasts within a few days of primary culture and that subcultured IMF exhibit predominantly this phenotype. The presented model may serve as a useful tool for the in vitro study of myofibroblast formation and the consequences of such a differentiation for the physiological functions of IMF.
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PMID:Transformation of rat inner medullary fibroblasts to myofibroblasts in vitro. 935 Jun 51

The influence of electrolytes on the development of renal principal and intercalated collecting duct cells is unknown. Consequently embryonic collecting duct epithelia were exposed to different electrolyte concentrations, and their degree of differentiation was registered by immunohistochemical methods. Embryonic collecting duct epithelia were isolated from neonatal rabbit kidneys and placed on tissue carriers. The apical urine and the basal serum compartments were simulated in a gradient culture container. The two sides of the epithelium were each constantly superfused with medium for 13 days. In controls the medium on both apical and basal side was standard Iscove's modified Dulbecco's Medium (IMDM) with 112 mmol/l Na+ and 85 mmol/l Cl-. In experimental series the NaCl concentration at the basal side of the epithelium was increased up to 137 mmol/l Na+ and 99 mmol/l Cl- as found in the serum of neonatal rabbits. Light microscopy revealed morphologically faultless epithelia following gradient perfusion culture in standard and NaCl-adapted IMDM. The development of principal and intercalated cell features was monitored with the monoclonal antibodies 703, 503, PCD9, and peanut lectin. Cells immunopositive for monoclonal antibody 703, for example, increased from less than 10% in controls to more than 80% in NaCl-adapted IMDM. It is a new finding that the development of collecting duct cell features is influenced by the extracellular electrolyte environment.
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PMID:Electrolyte environment modulates differentiation in embryonic renal collecting duct epithelia. 938 78


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