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)

Although clearance studies in man and experimental animals indicate that filtered lithium is reabsorbed primarily in the proximal tubule, it is unclear whether lithium is also reabsorbed in distal portions of the nephron. Micropuncture studies were, therefore, performed to determine the nephron sites involved in lithium transport during free flow. A method was established to estimate the concentration of lithium in nanoliter samples, using the Helium Glow photometer, which permitted the accurate measurement of lithium in tubular fluid samples over a range from 0.5--30.0 mM. Approximately 56% of filtered lithium and tubular fluid was reabsorbed at the end of the proximal convolution, while at the early distal tubule 75% of filtered lithium and water was reabsorbed. There was no change in net transepithelial movement of lithium beyond the loop of Henle. These data suggest that lithium transport is localized to the proximal tubule, including the pars recta. Lithium reabsorption does not occur in distal tubule or collecting duct. Beyond the early distal tubule net movement of lithium and sodium is dissociated.
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PMID:A micropuncture study of the renal handling of lithium. 57 43

1. Lithium clearance measurements were made in 72 patients with chronic nephropathy of different aetiology and moderate to severely reduced renal function. 2. Lithium clearance was strictly correlated with glomerular filtration rate, and there was no suggestion of distal tubular reabsorption of lithium or influence of osmotic diuresis. 3. Fractional reabsorption of lithium was reduced in most patients with glomerular filtration rates below 25 ml/min. 4. Calculated fractional distal reabsorption of sodium was reduced in most patients with glomerular filtration rates below 50 ml/min. 5. Lithium clearance data were independent of whether renal disease was of primarily glomerular or tubular origin and, further, were not influenced by long-term conventional antihypertensive treatment. 6. It is concluded that, even with a reduced kidney function, the data are compatible with the suggestion that lithium clearance may be a measure of the delivery of sodium and water from the renal proximal tubule. With this assumption it was found that adjustment of the sodium excretion in chronic nephropathy initially takes place in the distal parts of the nephron (loop of Henle, distal tubule and collecting duct). With more severe impairment the proximal tubule also becomes involved in the adjustment.
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PMID:Lithium clearance in chronic nephropathy. 280 95

The collecting ducts in papillae taken from normal rats have a measurable increase in diffusional tritiated water (THO) permeability with ADH 5 mu unit/ml and this increase is maximal with antidiuretic hormone (ADH) 100 mu unit/ml added to media. The presence of plasma from rats pretreated with lithium to make them polyuric inhibited the response to ADH. The lowest concentration of ADH that caused a measurable increase in diffusional water permeability was 50 mu unit/ml and the increase was maximal with ADH 2000 mu unit/ml. The maximum response to ADH did not differ whether plasma from control or lithium pretreated rats was used. However, the dose-response curve to ADH was shifted to the right by the plasma from lithium-pretreated rats. Lithium added to the plasma from control rats did not alter the response to ADH. It is proposed that lithium given to rats causes a circulatory factor to be produced that inhibits in a competitive fashion the response of the collecting duct to ADH. Such an effect would explain many features of the impairment of water excretion associated with lithium use.
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PMID:The mechanism of polyuria in rats pretreated with lithium studies by in vitro microperfusion. 687 33

The relation between functional and structural renal changes induced by lithium was studied in rats during long-term treatment and after withdrawal of lithium. Administration of LiCl in the diet for up to 21 weeks caused marked polyuria associated with a significant lowering of renal concentrating ability assessed by dehydration and vasopressin tests. Plasma creatinine and plasma urea were not significantly changed by the treatment. Upon withdrawal of lithium water intake and concentrating ability were normalized within 4--8 weeks. Lithium caused focal light microscopic changes in the distal convoluted tubule and the collecting duct, consisting of nuclear and cellular polymorphism and, after prolonged treatment, dilatation of tubular lumens with tubular cell atrophy. These changes appeared later than the concentrating defect and persisted when lithium was withdrawn after prolonged treatment. No significant correlation was found between the degree of tubular changes and water intake or concentrating ability. It is concluded that the reversible diabetes insipidus induced by lithium in rats cannot be explained directly by the light microscopical changes observed in the distal part of the nephron, although the structural changes may be secondary to the polyuric state induced by lithium.
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PMID:Functional and structural changes in the rat kidney by long-term lithium treatment. 707 12

Lithium, a widely used treatment for bipolar affective disorders, often causes nephrogenic diabetes insipidus. The effect of chronic lithium therapy on the expression of the vasopressin-regulated water channel Aquaporin-2 (AQP2) in rat kidney was examined. Membranes were prepared from inner medulla of one kidney from each rat, while the contralateral one was fixed for immunofluorescence and immunoelectronmicroscopy. Immunoblotting revealed that lithium treatment reduced AQP2 expression dramatically, to 31 +/- 8% after 10 d and to 4 +/- 1% after 25 d, coincident with development of severe polyuria. Immunofluorescence and immunogold quantitation confirmed the lithium-induced decrease in AQP2 expression (from 11.2 +/- 1.0 to 1.1 +/- 0.2 particles/microns 2). The downregulation was only partly reversed by return to lithium-free diet for 1 wk (40 +/- 8% of control). Furthermore, immunoblotting and immunogold quantitation revealed that 2 d of thirsting or 7 d of dDAVP treatment, in the continued presence of lithium, increased AQP2 expression by six- and threefold, respectively, coincident with increased urinary osmolality. Thirsting increased AQP2 immunolabeling mainly of vesicles, whereas dDAVP caused accumulation of AQP2 predominantly in the subapical region and plasma membrane. Thus, lithium causes marked downregulation of AQP2 expression, only partially reversed by cessation of therapy, thirsting or dDAVP treatment, consistent with clinical observations of slow recovery from lithium-induced urinary concentrating defects.
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PMID:Lithium-induced downregulation of aquaporin-2 water channel expression in rat kidney medulla. 753

The aim of the present study was to assess the effect of calcium infusion on segmental tubular reabsorption in humans using lithium clearance, along with creatinine and free water clearances during maximal water diuresis. In 8 healthy volunteers, a 20-min 5 mg/kg calcium infusion that increased serum calcium levels from 2.27 +/- 0.07 to 2.87 +/- 0.07 mmol/l (p < 0.01) was followed by a 60-min 3 mg/kg infusion for maintenance. During the experimental period, blood pressure did not change. Maximal urine flow increased from 15.6 +/- 2.4 to 20.8 +/- 2.8 ml/min (p < 0.01), while clearance of sodium increased from 1.5 +/- 0.4 to 3.7 +/- 0.9 ml/min (p < 0.001). Lithium clearance showed an increase of 7.4 ml/min, pointing to a suppression of proximal reabsorption. Free water clearance also increased from 11.5 +/- 3.7 to 14.4 +/- 3.9 ml/min, indicating an increase in TALH reabsorption which was attributed to increased sodium and water reaching this segment. Time control studies showed no significant changes in the parameters measured except for potassium excretion. Potassium excretion during calcium infusion was somewhat lower than during the control studies. The data support the view that an increase in serum calcium concentration leads to a decrease in proximal tubular reabsorption as indicated by lithium clearance while a decrease in reabsorption in the collecting duct could well add to the diuretic properties of calcium.
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PMID:Effect of elevated calcium levels on segmental tubular sodium reabsorption in normal man. 874 59

Lithium-induced nephrogenic diabetes insipidus is associated with increased renal sodium excretion in addition to severe urinary concentrating defects. However, the molecular basis for this altered renal sodium excretion remains undefined. The amiloride-sensitive sodium channel (ENaC) is expressed in the renal connecting tubule and collecting duct and is essential in renal regulation of body sodium balance and blood pressure. We hypothesized that dysregulation of ENaC subunits may be responsible for the increased sodium excretion associated with lithium treatment. Lithium treatment for 28 days resulted in severe polyuria, increased fractional excretion of sodium, and increased plasma aldosterone concentration. Immunoblotting revealed that lithium treatment induced a marked decrease in the protein abundance of beta-ENaC and gamma-ENaC in the cortex and outer medulla. Moreover, immunohistochemistry and laser confocal microscopy demonstrated an almost complete absence of beta-ENaC and gamma-ENaC labeling in cortical and outer medullary collecting duct, which was not affected by dietary sodium intake. In contrast, immunohistochemistry showed increased apical labeling of all ENaC subunits in the connecting tubule and inner medullary collecting duct in rats on a fixed sodium intake but not in rats with free access to sodium. Except for a modest downregulation of the thiazide-sensitive Na-Cl cotransporter, the key renal sodium transporters upstream from the connecting tubule (including the alpha1-subunit of Na-K-ATPase, type 3 Na/H exchanger, and Na-K-2Cl cotransporter) were unchanged. These results identify a marked and highly segment-specific downregulation of beta-ENaC and gamma-ENaC in the cortical and outer medullary collecting duct, chief sites for collecting duct sodium reabsorption, in rats with a lithium-induced increase in fractional excretion of sodium.
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PMID:Segment-specific ENaC downregulation in kidney of rats with lithium-induced NDI. 1292 14

Lithium treatment for 4 wk caused severe polyuria, dramatic downregulation in aquaporin-2 (AQP-2) expression, and marked decrease in AQP-2 immunoreactivity with the appearance of a large number of cells without AQP-2 labeling in the collecting ducts after lithium treatment. Surprisingly, this was not all due to an increase in AQP-2-negative principal cells, because double immunolabeling revealed that the majority of the AQP-2-negative cells displayed [H(+)]ATPase labeling, which identified them as intercalated cells. Moreover, multiple [H(+)]ATPase-labeled cells were adjacent, which was never seen in control rats. Quantitation confirmed a significant decrease in the fraction of collecting duct cells that exhibited detectable AQP-2 labeling compared with control rats: in cortical collecting ducts, 40 +/- 3.4 vs. 62 +/- 1.8% of controls (P < 0.05; n = 4) and in inner medullary collecting ducts, 58 +/- 1.6 vs. 81 +/- 1.3% of controls (P < 0.05; n = 4). In parallel, a significant increase in the fraction of intercalated ([H(+)]ATPase-positive) cells was shown. Urine output, whole kidney AQP-2 expression, cellular organization, and the fractions of principal and intercalated cells in cortex and inner medulla returned to control levels after 4 wk on a lithium-free diet following 4 wk on a lithium-containing diet. In conclusion, lithium treatment not only decreased AQP-2 expression, but dramatically and reversibly reduced the fraction of principal cells and altered the cellular organization in collecting ducts. These effects are likely to be important in lithium-induced nephrogenic diabetes insipidus.
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PMID:Changes in cellular composition of kidney collecting duct cells in rats with lithium-induced NDI. 1461 89

Lithium treatment is associated with development of nephrogenic diabetes insipidus, caused in part by downregulation of collecting duct aquaporin-2 (AQP2) and AQP3 expression. In the present study, we carried out cDNA microarray screening of gene expression in the inner medulla (IM) of lithium-treated and control rats, and selected genes were then investigated at the protein level by immunoblotting and/or immunohistochemistry. The following genes exhibited significantly altered transcription and mRNA expression levels, and these were compatible with the changes in protein expression. 11beta-Hydroxysteroid dehydrogenase type 2 protein expression in the IM was markedly increased (198 +/- 25% of controls, n = 6), and immunocytochemistry demonstrated an increased labeling of IM collecting duct (IMCD) principal cells. This indicated altered renal mineralocorticoid/glucocorticoid responses in lithium-treated rats. The inhibitor of cyclin-dependent kinases p27 (KIP) protein expression was significantly decreased or undetectable in the IMCD cells, pointing to increased cellular proliferation and remodeling. Heat shock protein 27 protein expression was decreased in the IM (64 +/- 6% of controls, n = 6), likely to be associated with the decreased medullary osmolality in lithium-treated rats. Consistent with this, lens aldose reductase protein expression was markedly decreased in the IM (16 +/- 2% of controls, n = 6), and immunocytochemistry revealed decreased expression in the thin limb cells in the middle and terminal parts of the IM. Ezrin protein expression was upregulated in the IM (158 +/- 16% of controls, n = 6), where it was predominantly expressed in the apical and cytoplasmic domain of the IMCD cells. Increased ezrin expression indicated remodeling of the actin cytoskeleton and/or altered regulation of IMCD transporters. In conclusion, the present study demonstrates changes in gene expression not only in the collecting duct but also in the thin limb of the loop of Henle in the IM, and several of these genes are linked to altered sodium and water reabsorption, cell cycling, and changes in interstitial osmolality.
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PMID:Altered expression of selected genes in kidney of rats with lithium-induced NDI. 1568 45

Lithium-induced nephrogenic diabetes insipidus (Li-NDI) is associated with increased urinary sodium excretion and decreased responsiveness to aldosterone and vasopressin. Dysregulation of the epithelial sodium channel (ENaC) is thought to play an important role in renal sodium wasting. The effect of 7-day aldosterone and spironolactone treatment on regulation of ENaC in rat kidney cortex was investigated in rats with 3 wk of Li-NDI. Aldosterone treatment of rats with Li-NDI decreased fractional excretion of sodium (0.83 +/- 0.02), whereas spironolactone did not change fractional excretion of sodium (1.10 +/- 0.11) compared with rats treated with lithium alone (1.11 +/- 0.05). Plasma lithium concentration was decreased by aldosterone (0.31 +/- 0.03 mmol/l) but unchanged with spironolactone (0.84 +/- 0.18 mmol/l) compared with rats treated with lithium alone (0.54 +/- 0.04 mmol/l). Immunoblotting showed increased protein expression of alpha-ENaC, the 70-kDa form of gamma-ENaC, and the Na-Cl cotransporter (NCC) in kidney cortex in aldosterone-treated rats, whereas spironolactone decreased alpha-ENaC and NCC compared with control rats treated with lithium alone. Immunohistochemistry confirmed increased expression of alpha-ENaC in the late distal convoluted tubule and connecting tubule and also revealed increased apical targeting of all three ENaC subunits (alpha, beta, and gamma) in aldosterone-treated rats compared with rats treated with lithium alone. Aldosterone did not, however, affect alpha-ENaC expression in the cortical collecting duct (CCD), which showed weak and dispersed labeling similar to that in rats treated with lithium alone. Spironolactone did not affect ENaC targeting compared with rats treated with lithium alone. This study shows a segment specific lack of aldosterone-mediated alpha-ENaC regulation in the CCD affecting both alpha-ENaC protein expression and trafficking, which may explain the increased sodium wasting associated with chronic lithium treatment.
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PMID:Lithium-induced NDI in rats is associated with loss of alpha-ENaC regulation by aldosterone in CCD. 1633 30


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