Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: 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 precise steps leading from mutation of the polycystic kidney disease (PKD1) gene to the autosomal dominant polycystic kidney disease (ADPKD) phenotype remain to be established. Fluid accumulation is a requirement for cyst expansion in ADPKD, suggesting that abnormal fluid secretion into the cyst lumen might play a role in disease. In this study, we sought to establish a link between polycystin-1 (the PKD1 gene product) and ATP-stimulated Cl- secretion in renal tubule cells. To do this, we performed a whole cell patch-clamp analysis of the effects of expression of the isolated cytoplasmic COOH-terminus of polycystin-1 in stably transfected mouse cortical collecting duct cells. The truncated polycystin-1 fusion protein prolonged the duration of ATP-stimulated Cl- conductance and intracellular Ca2+ responses. Both effects were dependent on extracellular Ca2+. It was determined that expression of the truncated polycystin-1 fusion protein introduced, or activated, an ATP-induced Ca2+ entry pathway that was undetectable in transfection control cell lines. Our findings are concordant with increasing evidence for a role of polycystin-1 in cell Ca2+ homeostasis and indicate that dysregulated Ca2+ entry might promote Cl- secretion and cyst expansion in ADPKD.
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PMID:The isolated polycystin-1 cytoplasmic COOH terminus prolongs ATP-stimulated Cl- conductance through increased Ca2+ entry. 1288 16

The polycystic kidney diseases (PKDs) are a group of genetic disorders causing significant renal failure and death in children and adults. There are no effective treatments. Two childhood forms, autosomal recessive PKD (ARPKD) and nephronophthisis (NPH), are characterized by collecting-duct cysts. We used animal models orthologous to the human disorders to test whether a vasopressin V2 receptor (VPV2R) antagonist, OPC31260, would be effective against early or established disease. Adenosine-3',5'-cyclic monophosphate (cAMP) has a major role in cystogenesis, and the VPV2R is the major cAMP agonist in the collecting duct. OPC31260 administration lowered renal cAMP, inhibited disease development and either halted progression or caused regression of established disease. These results indicate that OPC31260 may be an effective treatment for these disorders and that clinical trials should be considered.
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PMID:Inhibition of renal cystic disease development and progression by a vasopressin V2 receptor antagonist. 1450 83

The main feature of polycystic kidney diseases (PKD) is formation and progressive enlargement of renal cysts. Alterations in epithelial cell proliferation, extracellular matrix, and ion transport are thought to contribute to cyst enlargement and loss of renal function. Abnormal Cl- secretion is implicated in cyst enlargement in autosomal dominant PKD (ADPKD), but little is known about transport abnormalities in autosomal recessive PKD (ARPKD). We developed a method to isolate collecting duct (CD) principal cells (site of the lesion in ARPKD) from normal and ARPKD mice. A transgenic mouse (Hoxb7/GFP) in which enhanced green fluorescent protein (GFP) is expressed in CDs was bred with an ARPKD mouse (BPK), and GFP-positive cells from normal and cystic mice were selected by fluorescence-activated cell sorting. GFP-positive CD cells (>95 +/- 3%) obtained from either normal or cystic mice formed high-resistance, polarized epithelial monolayers. Expression patterns for marker proteins and the presence of a central cilium confirmed that the monolayers are composed of principal cells. Under basal conditions, the Cl- secretory responses elicited by elevation of cAMP or calcium were not significantly different between normal and cystic monolayers. In contrast, the amiloride-sensitive short-circuit current was significantly reduced in monolayers of cells isolated from cystic mice (12.9 +/- 1.6 microA/cm2; n = 10) compared with monolayers of cells isolated from normal mice (27.3 +/- 3.4 microA/cm2; n = 12). The results of these studies suggest that epithelial sodium channel-mediated sodium absorption is decreased in principal cells of ARPKD CD cysts and that the reduction in sodium absorption may contribute to the accumulation of luminal fluid.
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PMID:Decreased amiloride-sensitive Na+ absorption in collecting duct principal cells isolated from BPK ARPKD mice. 1455 16

Rodent models of polycystic kidney disease (PKD) have provided valuable insight into the cellular changes associated with cystogenesis in humans. The present study characterizes the morphology of renal and extrarenal pathology of autosomal recessive PKD induced by the wpk gene in Wistar rats. In wpk(-/-) rats, proximal tubule and collecting duct cysts develop in utero and eventually consume the kidney. Increased apoptosis, mitosis, and extracellular tenascin deposition parallel cyst development. Extrarenal pathology occurs in the immune system (thymic and splenic hypoplasia) and central nervous system (CNS; hypoplasia to agenesis of the corpus callosum with severe hydrocephalus). Severity of hydrocephalus varied inversely with size of the corpus callosum. In wpk(-/-) rats, the corpus callosum exhibits relatively few axons that cross the midline. This CNS pathology is similar to that described in three human renal cystic syndromes: orofaciodigital, genitopatellar, and cerebrorenal-digital syndromes. Collecting duct and ventricular ependymal cilia appear morphologically normal. To determine if rodent background strain and the presence of modifier genes affect severity of the disease, we crossed the Wistar-wpk rat with Brown Norway (BN) and Long Evan (LE) rats and found the degree of renal and cerebral pathology was diminished as evidenced by lower kidney weight as a percent of body weight and serum urea nitrogen concentration in cystic rats on LE or BN strains as well as less prominent cranial enlargement. Crosses with BN rats allowed us to localize the wpk gene on chromosome 5 very close to the D5Rat73 marker. The wpk gene lies within a chromosomal region known to harbor a PKD modifier locus. In summary, the types of renal and cerebral pathology seen in the Wistar wpk rat are a unique combination seen only in this rodent model.
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PMID:Development of multiorgan pathology in the wpk rat model of polycystic kidney disease. 1505 65

cAMP can be either mitogenic or anti-mitogenic, depending on the cell type. We demonstrated previously that cAMP inhibited the proliferation of normal renal epithelial cells and stimulated the proliferation of cells derived from the cysts of polycystic kidney disease (PKD) patients. The protein products of the genes causing PKD, polycystin-1 and polycystin-2, are thought to regulate intracellular calcium levels, suggesting that abnormal polycystin function may affect calcium signaling and thus cause a switch to the cAMP growth-stimulated phenotype. To test this hypothesis, we disrupted intracellular calcium mobilization by treating immortalized mouse M-1 collecting duct cells and primary cultures of human kidney epithelial cells with calcium channel blockers and by lowering extracellular calcium with EGTA. Calcium restriction for 3-5 h converted both cell types from a normal cAMP growth-inhibited phenotype to an abnormal cAMP growth-stimulated phenotype, characteristic of PKD. In M-1 cells, we showed that calcium restriction was associated with an elevation in B-Raf protein levels and cAMP-stimulated, Ras-dependent activation of B-Raf and ERK. Moreover, the activity of Akt, a negative regulator of B-Raf, was decreased by calcium restriction. Inhibition of Akt or phosphatidylinositol 3-kinase also allowed cAMP-dependent activation of B-Raf and ERK in normal calcium. These results suggest that calcium restriction causes an inhibition of the phosphatidylinositol 3-kinase/Akt pathway, which relieves the inhibition of B-Raf to allow the cAMP growth-stimulated phenotypic switch. Finally, M-1 cells stably overexpressing an inducible polycystin-1 C-terminal cytosolic tail construct were shown to exhibit a cAMP growth-stimulated phenotype involving B-Raf and ERK activation, which was reversed by the calcium ionophore A23187. We conclude that disruption of calcium mobilization in cells that are normally growth-inhibited by cAMP can derepress the B-Raf/ERK pathway, thus converting these cells to a phenotype that is growth-stimulated by cAMP.
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PMID:Calcium restriction allows cAMP activation of the B-Raf/ERK pathway, switching cells to a cAMP-dependent growth-stimulated phenotype. 1526 1

Advances in the understanding of cystogenesis and availability of animal models orthologous to human autosomal dominant polycystic kidney disease (ADPKD) and recessive polycystic kidney disease (ARPKD) will likely facilitate the development of treatments for these diseases. Proteins mutated in ADPKD and ARPKD, as well as in several animal models, are localized to renal primary cilia. These are thought to have a sensory function and contribute to the regulation of the intracellular calcium ([Ca2+]i). It seems likely that the maintenance of a differentiated renal epithelial phenotype, characterized by controlled fluid secretion and cell proliferation, requires precise functional coordination of cAMP and Ras/Raf/MEK/ERK signaling by [Ca2+]i. [Ca2+]i alterations, linked to genetic defects causing polycystic kidney disease, may hinder negative feedback mechanisms that control cAMP and Ras/Raf/MEK/ERK signaling, and result in increased fluid secretion and cell proliferation. cAMP levels, Raf kinase activities and ERK phosphorylation are increased in polycystic kidneys. There is also evidence of abnormal cross-talk between cAMP and MAPK pathways, that can be reproduced in wild-type cells by altering [Ca2+]i. While cAMP inhibits Ras-Raf-1-stimulated phosphorylation of ERK in normal kidney cells, it markedly increases B-Raf kinase activity and ERK phosphorylation in polycystic kidney cells. Treatment strategies should probably be aimed at increasing [Ca2+]i, inhibiting Ras/Raf/MEK/ERK signaling or lowering cAMP in the distal nephron and collecting duct. Vasopressin is the major adenylyl cyclase agonist in the collecting duct principal cells via a V2 receptor. OPC31260, a V2 receptor antagonist, lowers renal cAMP and markedly inhibits cystogenesis in four animal models of polycystic kidney disease, three of which are orthologous to human diseases (PCK rat, ARPKD; pcy mouse, adolescent nephronophthisis; Pkd2WS25/- mouse, ADPKD). The renal selectivity and safety profile of this class of drugs make it an excellent candidate for clinical trials.
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PMID:Therapies to slow polycystic kidney disease. 1536 92

Amiloride-sensitive sodium entry, via the epithelial sodium channel (ENaC), is the rate-limiting step for Na+ absorption in kidney collecting ducts, and epidermal growth factor (EGF) inhibits Na+ transport and ENaC expression. A pathognomonic feature of polycystic kidney disease (PKD) is EGF receptor mislocalization to the apical plasma membrane and EGF/EGF receptor axis overactivity. Immunohistochemical and biochemical analysis revealed mislocalization of EGF receptor and excessive activation of the p42/44 extracellular signal-regulated protein kinase pathway (ERK1/2) in kidneys from cystic mice compared with noncystic littermates. Primary monolayer cultures of noncystic and cystic murine collecting duct principal cells were used to identify aberrant EGF-dependent ERK1/2 activation and regulation of Na+ transport associated with autosomal recessive PKD. Addition of EGF to the basolateral bathing solution of noncystic or cystic monolayers led to p42/44 phosphorylation and inhibition of Na+ transport (30-35%), whereas apical EGF was effective only in monolayers derived from cystic mice. p42/44 Phosphorylation and inhibition of Na+ transport were prevented by prior treatment of the cells with an ERK kinase inhibitor. Chronic treatment (24 h) of noncystic and cystic monolayers with basolateral EGF elicited sustained inhibition of Na+ absorption (50-55%) and a reduction in steady-state ENaC mRNA levels (50-75%). In contrast, addition of EGF to the apical bathing solution (24 h) had no effect in noncystic monolayers but led to inhibition of Na+ transport (50-60%) and decreased ENaC expression (45-60%) in cystic cells. Pretreatment of the monolayers with an ERK kinase inhibitor abolished the chronic effects of EGF on Na+ transport. The results of these studies reveal that the mislocalized apical EGF receptors are functionally coupled to the ERK pathway and that abnormal EGF-dependent regulation of ENaC function and expression may contribute to PKD pathophysiology.
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PMID:Abnormal EGF-dependent regulation of sodium absorption in ARPKD collecting duct cells. 1552 85

Autosomal recessive polycystic kidney disease (ARPKD) is a severe form of polycystic kidney disease characterised by enlarged kidneys and congenital hepatic fibrosis. The disease has an incidence of 1:7000-:20,000 and is caused by mutations in the PKHD1 gene, which under normal conditions produces the protein fibrocystin, also named polyductin. This protein may be a transmembrane receptor or ligand that plays a role in collecting duct and biliary differentiation. The major site of expression is the primary cilium, and in particular the basal body of the cilium, underlining a link between aberrant cilial function and cystogenesis. Prenatal diagnostics is possible using DNA analysis or ultrasonography.
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PMID:[From gene to disease; PKHD1 and recessive polycystic kidney disease]. 1577 41

Polycystin-2 (PC2) is the product of the PKD2 gene, which is mutated in 10-15% patients of autosomal dominant polycystic kidney disease (ADPKD). PC2 is an integral transmembrane protein and acts as a calcium-permeable cation channel. The functional modulation of this channel by other protein partners remains largely unknown. In the present study, using a yeast two-hybrid approach, we discovered that both intracellular N- and C-termini of PC2 associate with alpha-actinins, actin-binding and actin-bundling proteins important in cytoskeleton organization, cell adhesion, proliferation and migration. The PC2-alpha-actinin association was confirmed by in vitro glutathione S-transferase pull-down and dot blot overlay assays. In addition, the in vivo interaction between endogenous PC2 and alpha-actinins was demonstrated by co-immunoprecipitation in human embryonic kidney 293 and Madin-Darby canine kidney (MDCK) cells, rat kidney and heart tissues and human syncytiotrophoblast (hST) apical membrane vesicles. Immunofluorescence experiments showed that PC2 and alpha-actinin were partially co-localized in epithelial MDCK and inner medullary collecting duct cells, NIH 3T3 fibroblasts and hST vesicles. We studied the functional modulation of PC2 by alpha-actinin in a lipid bilayer electrophysiology system using in vitro translated PC2 and found that alpha-actinin substantially stimulated the channel activity of reconstituted PC2. A similar stimulatory effect of alpha-actinin on PC2 was also observed when hST vesicles were reconstituted in lipid bilayer. Thus, physical and functional interactions between PC2 and alpha-actinin may play an important role in abnormal cell adhesion, proliferation and migration observed in ADPKD.
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PMID:Alpha-actinin associates with polycystin-2 and regulates its channel activity. 1584 96

P2X7 is an intriguing membrane receptor for the extracellular nucleotide ATP, which functions as a ligand-gated ion channel; it can activate cell membrane permeabilization and also has a wide range of downstream signaling pathways, including mediation of inflammatory responses and modulation of cell turnover. Despite recent identification of P2X7 receptor protein in the renal tract, the biological and potential pathological functions of this receptor and its signaling cascades in the kidney are not yet fully understood. P2X7 receptor protein is expressed in normal kidney development, predominantly in the condensing mesenchyme, and later in the maturing and adult derivatives of the ureteric bud. Glomerular expression of the molecule is scarce in normal kidney, but is upregulated in chronic and inflammatory conditions, suggesting a role in the inflammatory response or in repair and remodeling in these settings. P2X7 receptor expression in the adult collecting ducts of murine kidney, as well as the collecting duct cysts in autosomal recessive polycystic kidney disease, has been described and agonists of the receptor can modulate the development of renal cysts in an in vitro model of cyst formation derived from the cpk/cpk mouse. Further investigation of the function of the P2X7 receptor in normal and abnormal kidneys might lead to novel therapeutic targets in a wide range of renal diseases.
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PMID:The P2X7 ATP receptor in the kidney: a matter of life or death? 1592 5


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