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)

Diuretics act primarily by blocking reabsorption of sodium at four major sites in the nephron. Clinically useful agents that block sodium reabsorption effectively in the proximal tubule are lacking. Furosemide (Lasix), ethacrynic acid (Edecrin), and possibly organomercurial agents are effective in the ascending limb of Henle's loop. Thiazides are the major agents acting in the early distal tubule. In the late distal tubule and collecting duct, spironolactone (Aldactone) and triamterene (Dyrenium) are useful, especially in combination with diuretics which act more proximally. In treating edematous states, initial therapy with thiazides is effective in most patients who do not exhibit moderate or severe renal insufficiency, severe hyperaldosteronism with excessive distal reabsorption of sodium in exchange for potassium, or excessive sodium reabsorption in the proximal tubule or ascending limb. Nonedematous states in which diuretic therapy is useful include hypertension, hypercalcemia, hypercalciuria, diabetes insipidus, and acute renal failure.
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PMID:Diuretic agents. Mechanisms of action and clinical uses. 126 95

The present study was conducted to obtain detailed information on the morphological changes in the human kidney as related to cisplatin therapy. The kidneys of ten autopsy cases showing impaired renal function following cisplatin therapy with hydration were examined histologically. Sporadic lesions of degeneration, necrosis, and regenerative changes were observed in the pars convoluta and pars recta of the proximal tubule, distal tubule, and collecting duct. Enlarged and pleomorphic nuclei in regenerated epithelial cells and hyperplasia of the collecting duct lining cells were considered to be specific histological findings in renal injury related to cisplatin therapy. Electron microscopic examination of a case receiving a large dose of cisplatin without signs of renal insufficiency showed an increased number of cytosomes containing electron dense granules in all tubular portions and conspicuous nuclear indentation in the thin limb of the loop of Henle and collecting duct. The platinum concentration in autopsy organs and biopsy cases was analyzed, but no correlation could be found between the concentration level of platinum in the kidney and impairment of renal function.
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PMID:Histopathological study of human cisplatin nephropathy. 376 21

Polycystic kidney disease is a bilateral disorder that affects approximately 200,000-400,000 persons in the United States. The most common form of the disease is inherited as an autosomal dominant trait (ADPKD). It typically causes renal insufficiency by the fifth or sixth decade of life. The disease is characterized by the progressive enlargement of a portion of renal tubule segments (proximal, distal, loop of Henle, collecting duct). The tubules enlarge from a normal diameter of 40 microns to several centimeters in diameter, causing marked gross and microscopic anatomic distortion. The cause of the cystic change in the tubules is unknown, but current possibilities include obstruction of tubule fluid flow by hyperplastic tubule cells, increased compliance of the tubule basement membranes, and/or increased radial growth of cells in specific portions of the renal tubule. Several studies show that the epithelia of the cysts continue to transport Na+, K+, Cl-, H+, and organic cations and anions in a qualitative fashion similar to that of the tubule segment from which they were derived. ADPKD, then, is a disease in which some gigantic renal tubules, over a period of several decades, impair the function of nonaffected nephrons and thereby lead to renal failure.
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PMID:Polycystic kidney disease: a predominance of giant nephrons. 633 12

Autosomal recessive polycystic kidney disease (ARPKD) is characterized by the formation of large collecting tubule and ductular cysts that often result in renal insufficiency within the first decade of life. Understanding the process leading to cyst formation will require the identification and characterization of genes involved in the etiology of this disease. In this regard, we previously described the generation of a mouse model (TgN737Rpw) for ARPKD and the cloning of a candidate gene. Here we show direct involvement of the Tg737 gene in collecting duct cyst formation by expressing the wild-type Tg737 cDNA as a transgene in TgN737Rpw mutants. In contrast to TgN737Rpw mutants, the "rescued" animals survive longer, have normal renal function and normal localization of the EGFr to the basolateral surfaces of collecting duct epithelium.
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PMID:Functional correction of renal defects in a mouse model for ARPKD through expression of the cloned wild-type Tg737 cDNA. 888 83

The oculocerebrorenal syndrome of Lowe (OCRL) is a hereditary multisystem disorder characterized by congenital cataract, mental retardation, renal tubular dysfunction, and progressive renal insufficiency. Tubular abnormalities include proximal tubular dysfunction, a distal acidification defect, and a possible impairment of urinary concentrating ability. The most important renal manifestation of Lowe's syndrome is a progressive loss of kidney function associated with a glomerular lesion that progresses to end-stage renal disease in either the third or fourth decade. The gene responsible for Lowe's syndrome, OCRL-1, was recently identified by positional cloning, and mutations were demonstrated in many affected patients. In the present study reverse transcription-polymerase chain reaction (RT-PCR) was used to clone a partial-length cDNA encoding rabbit renal OCRL-1. There is a high degree of similarity between rabbit and human sequences, with nucleotide and amino acid identities of 92% and 97%, respectively. Northern analysis identified a 5.4-kb transcript that is expressed in both rabbit kidney cortex and medulla. Isolated nephron-segment RT-PCR showed that OCRL-1 is expressed in all segments studied: the glomerulus, proximal tubule, medullary and cortical thick ascending limb, distal convoluted tubule, connecting tubule, cortical collecting duct, and outer medullary collecting duct. Defective OCRL-1 expression in these regions may play a pathogenetic role in the renal manifestations of this syndrome.
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PMID:cDNA cloning and localization of OCRL-1 in rabbit kidney. 937 43

We examined the effect of temporary renal ischemia (30 min or 60 min) and reperfusion (1 day or 5 days) on the expression of renal aquaporins (AQPs) and urinary concentration in rats with bilateral ischemia-induced acute renal failure (ARF). Next, we tested whether reducing ischemia/reperfusion (I/R) injury by treatment with alpha-melanocyte stimulating hormone (alpha-MSH) affects the expression of AQPs and urine output. Rats with ARF showed significant renal insufficiency, and urinary concentration was markedly impaired. In rats with mild ischemic injury (30 min), urine output increased significantly to a maximum at 48 h, and then nearly normalized within 5 days. Consistent with this, semiquantitative immunoblotting revealed that kidney AQP1 and AQP2 abundance was significantly decreased after 24 h to 30 +/- 5% and 40 +/- 11% (n = 8) of controls (n = 9), respectively (P < 0.05). Five days after ischemia, AQP2 abundance was not significantly decreased and urine output was normalized. In contrast, severe ischemic injury (60 min) resulted in a marked reduction in urine output at 24 h, despite a significant decrease in urine osmolality and solute-free water reabsorption, T(c)H(2)O. AQP1 and AQP2 abundance was markedly decreased to 51 +/- 5% and 31 +/- 9% (n = 10) of controls (n = 8) at 24 h (P < 0.05). After 5 days, the rats developed gradually severe polyuria and had very low AQP2 and AQP1 levels [11 +/- 4% and 6 +/- 2% (n = 5) of controls (n = 8), respectively; P < 0.05]. A similar reduction was observed for AQP3. The reduction in AQP expression in the proximal tubule and inner medullary collecting duct was confirmed by immunocytochemistry. Next, we found that intravenous alpha-MSH treatment of rats with ARF significantly reduced the ischemia-induced downregulation of renal AQPs and reduced the polyuria. In conclusion, the I/R injury is associated with markedly reduced expression of the collecting duct and proximal tubule AQPs, in association with an impairment of urinary concentration. Moreover, alpha-MSH treatment significantly prevented the reduction in expression of AQPs and renal functional defects. Thus decreased AQP expression is likely to contribute to the impairment in urinary concentration in the postischemic period.
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PMID:Reduced abundance of aquaporins in rats with bilateral ischemia-induced acute renal failure: prevention by alpha-MSH. 1048 25

In summary, hyperkalemia may have a dramatic impact on ammonium production and excretion. Chronic hyperkalemia decreases ammonium production in the proximal tubule and whole kidney, inhibits absorption of NH4+ in the mTALH, reduces medullary interstitial concentrations of NH4+ and NH3, and decreases entry of NH4+ and NH3 into the medullary collecting duct. The potential for development of a hyperchloremic metabolic acidosis is greatly augmented when renal insufficiency with associated reduction in functional renal mass coexists with the hyperkalemia, or in the presence of aldosterone deficiency or resistance. Such a cascade of events helps to explain, in part, the hyperchloremic metabolic acidosis and reduction in net acid excretion characteristic of several experimental models of hyperkalemic-hyperchloremic metabolic acidosis including: obstructive nephropathy, selective aldosterone deficiency, and chronic amiloride administration (7.9).
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PMID:Molecular and pathophysiologic mechanisms of hyperkalemic metabolic acidosis. 1088 37

Autosomal recessive polycystic kidney disease (ARPKD) is a rare but devastating inherited disease in humans. Various strains of mice that are homozygous for the cpk gene display renal pathology similar to that seen in human ARPKD. The PKD progresses to renal insufficiency, azotemia, and ultimately a uremic death by approximately 3 wk of age. This study characterizes PKD in mice that are homozygous for the cpk gene on a BALB/c inbred mouse background. The BALB/c-cpk/cpk murine model displays renal as well as extrarenal pathology similar to that found in human ARPKD. The renal pathology includes the well-characterized early proximal tubule and, later, massive collecting duct cysts. The extrarenal defects in this murine model include common bile duct dilation, intrahepatic biliary duct cysts with periductal hyperplasia, and pancreatic dysplasia with cysts. Renal mRNA expression of c-myc, a proto-oncogene, and clusterin (SGP-2), a marker associated with immature collecting ducts, decreases during normal development but is upregulated in murine ARPKD. Expression of epidermal growth factor (EGF) mRNA is significantly diminished, whereas EGF receptor mRNA is upregulated in the BALB/c-cpk/cpk kidney compared with phenotypically normal littermates. To determine whether the altered EGF expression contributes to the development of PKD, neonatal mice were treated with exogenous EGF (1 microg/g body wt injected subcutaneously on postnatal days 3 through 9). EGF treatment reduced the relative kidney weight and common bile duct dilation and downregulated renal expression of clusterin and EGF receptor. However, exogenous EGF did not affect the degree of renal failure, the pancreatic pathology, or the misregulated renal expression of c-myc. In summary, the present study characterizes the renal and extrarenal pathology in the BALB/c-cpk/cpk murine model of ARPKD. Renal mRNA expression of EGF is diminished in this mouse model. EGF treatment did not prevent renal failure but ameliorated pathologic changes in the kidney and the biliary ducts of the BALB/c-cpk/cpk mouse.
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PMID:Development of autosomal recessive polycystic kidney disease in BALB/c-cpk/cpk mice. 1100 14

L1, a member of the immunoglobulin superfamily, is a cell adhesion and signal transducing molecule. In the kidney, L1 is expressed in the mesonephric duct and the metanephros throughout collecting duct development. We show that mice with a targeted deletion of the L1 gene display diverse renal malformations including (i) a duplex kidney with two ureters partially or totally separated, accompanied by hydronephrosis; and (ii) an enlarged elongated kidney with a malformed or incorrectly positioned inner medulla. The type, penetrance and severity of these phenotypes are influenced by the genetic background. The development of a duplex kidney is initiated by double ureteral budding from the Wolffian duct or by an accessory budding from the main ureter, whereas medullary malformation is due to an improper growth and branching pattern of ureteral branches. Multiple developmental defects in formation of the collecting system promote subsequent renal damage and progression to renal insufficiency. Various features of mouse ureteral duplication resemble the human congenital anomalies of the kidney and urinary tract (CAKUT) although disturbances of medulla development have not yet been reported in men.
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PMID:Abnormal renal phenotype in L1 knockout mice: a novel cause of CAKUT. 1238 85

In renal-coloboma syndrome (RCS), null mutations of the PAX2 gene cause renal hypoplasia due to a congenital deficit of nephrons; affected individuals may develop renal insufficiency in childhood. During normal kidney development, PAX2, is expressed at high levels throughout the arborizing ureteric bud (UB); recent observations suggest that one of its key roles is to suppress apoptosis in this collecting duct lineage. The authors hypothesized that increased UB cell apoptosis due to PAX2 haploinsufficiency must directly influence the rate of branching morphogenesis in developing kidney and the number of nephrons that can be formed before birth, when nephrogenesis in humans comes to an end. If so, the authors reasoned that caspase inhibitors might be used to suppress unwanted UB cell apoptosis during kidney development in Pax2(1Neu) mutant mice and rescue the genetic UB branching defect. E17.5 kidneys from Pax2(1Neu) mutant mice had smaller (-25%) longitudinal cross-sectional area and 3.5-fold increase in collecting duct cell apoptosis versus wild-type littermates; mutant E13.5 kidney explants allowed to arborize for 50 h in vitro had 18% fewer terminal branches than wild-types. However, exposure to the caspase inhibitor, Z-VAD-fmk (25 micro M), significantly increased terminal branch number in mutant explants (23%). It also increased branching in wild-type explants, apparently reflecting an effect of Z-VAD-fmk on basal apoptosis induced by ex vivo culture conditions. Similarly, when pregnant mice were injected daily with Z-VAD-fmk (10 micro g/g weight from E10.5 to E17.5), apoptosis of Pax2(1Neu) fetal collecting duct cells was suppressed to 40% of untreated mutants; by E14, terminal branch number was increased to 152% that of untreated litters. These studies support the hypothesis that PAX2 normally optimizes the rate of branching morphogenesis in fetal kidney by suppressing UB apoptosis. Furthermore, it suggests that caspase inhibitors can rescue the branching defect caused by PAX2 mutations.
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PMID:Rescue of defective branching nephrogenesis in renal-coloboma syndrome by the caspase inhibitor, Z-VAD-fmk. 1474 76


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