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 physical properties and chemical composition of urine are highly variable and are determined in large measure by the quantity and the type of food consumed. The specific gravity is the ratio of the density to that of water, and it is dependent on the number and weight of solute particles and on the temperature of the sample. The weight of solute particles is constituted mainly of urea (73%), chloride (5.4%), sodium (5.1%), potassium (2.4%), phosphate (2.0%), uric acid (1.7%), and sulfate (1.3%). Nevertheless, urine osmolality depends only on the number of solute particles. The renal production of maximally concentrated urine and formation of dilute urine may be reduced to two basic elements: (1) generation and maintenance of a renal medullary solute concentration hypertonic to plasma and (2) a mechanism for osmotic equilibration between the inner medulla and the collecting duct fluid. The interaction of the renal medullary countercurrent system, circulating levels of antidiuretic hormone, and thirst regulates water metabolism. Renin, aldosterone, prostaglandins, and kinins also play a role. Clinical estimation of the concentrating and diluting capacity can be performed by relatively simple provocative tests. However, urinary specific gravity after taking no fluids for 12 h overnight should be 1.025 or more, so that the second urine in the morning is a useful sample for screening purposes. Many preservation procedures affect specific gravity measurements. The concentration of solids (or water) in urine can be measured by weighing, hydrometer, refractometry, surface tension, osmolality, a reagent strip, or oscillations of a capillary tube. These measurements are interrelated, not identical. Urinary density measurement is useful to assess the disorders of water balance and to discriminate between prerenal azotemia and acute tubular necrosis. The water balance regulates the serum sodium concentration, therefore disorders are revealed by hypo- and hypernatremia. The disturbances are due to renal and nonrenal diseases, mainly liver, cardiovascular, intestinal, endocrine, and iatrogenic. Fluid management is an important topic of intensive care medicine. Moreover, the usefulness of specific gravity measurement of urine lies in interpreting other findings of urinalysis, both chemical and microscopical.
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PMID:Relative density of urine: methods and clinical significance. 307 30

The anatomical relationship between kallikrein and renin in the rat kidney was investigated immunohistochemically by the peroxidase-antiperoxidase method. Kallikrein was localized to the convoluted distal tubule, starting at a point, distal to the juxtaglomerular apparatus, where the thick ascending limb of loop of Henle transformed into the convoluted distal tubule. The thick ascending limb was identified by its content of uromucoid (Tamm-Horsfall glycoprotein). Kallikrein was never observed within the juxtaglomerular apparatus itself. The kallikrein-containing tubule ended where the distal tubule submerged into the collecting duct. Renin was found in epitheloid cells of the afferent arteriole. When neighboring sections were stained for kallikrein and renin, respectively, no close anatomical relationship was observed between the kallikrein-containing and the renin-containing structures.
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PMID:Localization of kallikrein in the rat kidney and its anatomical relationship to renin. 703 45

Renal tubular and interstitial cells produce various hormones. Renin is synthesized in juxtaglomerular cells which are derived from the media of the afferent arteriole. Endothelin-1 is formed in mesangial cells of glomeruli and inner medullary collecting duct. In contrast, endothelin-3 synthesis is observed in glomeruli and all the tubule segments. 1 alpha-hydroxylase is present in proximal tubule and catalyzes production of 1,25(OH)2D. PGE2 is synthesized in glomeruli, all the tubule segments, and interstitial cells. The major production sites of PGF2 alpha and 6-keto-PGF1 alpha are glomeruli and medullary collecting duct. Kallikreins are mainly produced in connecting tubule. The cells responsible for erythropoietin synthesis are thought to be interstitial cells which are localized around the proximal tubule.
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PMID:[Biosynthesis of hormones in renal tubular and interstitial cells]. 756 22

Congenital obstructive nephropathy is a common disease affecting fetuses and young children. The kidney shows profound morphologic and functional changes. The physiologic developmental kidney program is disturbed in the most advanced cases, arguing for altered temporal/spatial expression of genes which control normal nephrogenesis. Major regulators of mesenchymal-epithelial transformation and collecting duct and tubular development such as WT1 and Sall1 are decreased with obstruction. Additional candidate genes include GDNF/cRET, LIM1 and Pax2. Excessive apoptosis is an undisputed mechanism in these processes, mediated by decreased expression of apoptosis inhibiting genes (Bcl-2, HGF, IGF, BMP7), and overexpression of pro-apoptotic genes like Bax and TGF-beta. Renin and AT2R implicated in renal vascular development are decreased. Numerous extracellular matrix genes including Matrilysin are altered. The emerging theories of the biology of congenital obstructive nephropathy suggest new targets for therapeutic interventions with profound implications for these children.
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PMID:Biology of congenital obstructive nephropathy. 1266 Apr 11

Recent advances in molecular genetics and immunocytochemistry have clarified the cell of origin in many renal disorders. Several renal disorders are thought to involve specific segments of the nephron. Renin-secreting tumours arise from juxtaglomerular cells. Clear cell and papillary renal cell carcinoma (RCC) recapitulate the epithelium of the proximal tubules. Oncocytoma and chromophobe RCC differentiate towards Type A and Type B intercalated cells of the cortical collecting duct, respectively. Medullary collecting ducts are the target sites for the development of autosomal recessive polycystic kidney disease, collecting duct carcinoma and medullary carcinoma. Renal papillae are susceptible to unique changes such as necrosis or papillitis. The purpose of our article is threefold: to illustrate the imaging findings of renal disorders that show segmental involvement of the nephron, to describe proximal and distal nephron disorders and to correlate imaging findings of some entities with histopathological features.
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PMID:Segmental disorders of the nephron: histopathological and imaging perspective. 1762 6

In addition to the juxtaglomerular apparatus, renin is also synthesized in renal tubular epithelium, including the collecting duct (CD). Angiotensin (Ang) II differentially regulates the synthesis of juxtaglomerular (inhibition) and CD (stimulation) renin. Because diabetes mellitus, a disease with high intrarenal renin-Ang system and Ang II activity, is characterized by high prorenin levels, we hypothesized that the CD is the major source of prorenin in diabetes. Renin granular content was visualized using in vivo multiphoton microscopy of the kidney in diabetic Munich-Wistar rats. Diabetes caused a 3.5-fold increase in CD renin, in contrast to less pronounced juxtaglomerular changes. Ang II type 1 receptor blockade with Olmesartan reduced CD renin to control levels but significantly increased juxtaglomerular renin. Using a fluorogenic renin assay, the prorenin component of CD renin content was measured by assessing the difference in enzymatic activity of medullary homogenates before and after trypsin activation of prorenin. Trypsinization caused no change in control renin activity but a 5-fold increase in diabetes. Studies on a CD cell line (M1) showed a 22-fold increase in renin activity after trypsinization and a further 35-fold increase with Ang II treatment. Therefore, prorenin significantly contributes to baseline CD renin. Diabetes, possibly via Ang II, greatly stimulates CD prorenin and causes hyperplasia of renin-producing connecting segments. These novel findings suggest that, in a rat model of diabetes, prorenin content and release from the CD may be more important than the juxtaglomerular apparatus in contrast to the existing paradigm.
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PMID:The collecting duct is the major source of prorenin in diabetes. 1841 93

Renin in collecting duct cells is upregulated in chronic angiotensin II-infused rats via angiotensin II type 1 receptors. To determine whether stimulation of collecting duct renin is a blood pressure-dependent effect; changes in collecting duct renin and associated parameters were assessed in both kidneys of 2-kidney, 1-clip Goldblatt hypertensive (2K1C) rats. Renal medullary tissues were used to avoid the contribution of renin from juxtaglomerular cells. Systolic blood pressure increased to 184+/-9 mm Hg in 2K1C rats (n=19) compared with sham rats (121+/-6 mm Hg; n=12). Although renin immunoreactivity markedly decreased in juxtaglomerular cells of nonclipped kidneys (NCK: 0.2+/-0.0 versus 1.0+/-0.0 relative ratio) and was augmented in clipped kidneys (CK: 1.7+/-1.0 versus 1.0+/-0.0 relative ratio), its immunoreactivity increased in cortical and medullary collecting ducts of both kidneys of 2K1C rats (CK: 2.8+/-1.0 cortex; 2.1+/-1.0 medulla; NCK: 4.6+/-2.0 cortex, 3.2+/-1.0 medulla versus 1.0+/-0.0 in sham kidneys). Renal medullary tissues of 2K1C rats showed greater levels of renin protein (CK: 1.4+/-0.2; NCK: 1.5+/-0.3), renin mRNA (CK: 5.8+/-2.0; NCK: 4.9+/-2.0), angiotensin I (CK: 120+/-18 pg/g; NCK: 129+/-13 pg/g versus sham: 67+/-6 pg/g), angiotensin II (CK: 150+/-32 pg/g; NCK: 123+/-21 pg/g versus sham: 91+/-12 pg/g; P<0.05), and renin activity (CK: 8.6 microg of angiotensin I per microgram of protein; NCK: 8.3 microg of angiotensin I per microgram of protein; sham: 3.4 microg of angiotensin I per microgram of protein) than sham rats. These data indicate that enhanced collecting duct renin in 2K1C rats occurs independently of blood pressure. Upregulation of distal tubular renin helps to explain how sustained intrarenal angiotensin II formation occurs even during juxtaglomerular renin suppression, thus allowing maintained effects on tubular sodium reabsorption that contribute to the hypertension.
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PMID:Collecting duct renin is upregulated in both kidneys of 2-kidney, 1-clip goldblatt hypertensive rats. 1842 92

Renal cell tumors have been shown to be associated with secretory products, including renin, but the frequency of renin expression is not known. To investigate renin expression in epithelial renal neoplasms, we examined a series of 89 adult renal tumors with granular cells using a monoclonal antiserum to detect the hormone by immunohistochemistry (IHC) and their association with hypertension. We found that 25 of 89 tumors (28.1%) contained immunoreactivity for renin. Oncocytomas had the highest percentage of cases with renin expression: 8 of 13 (61.5%), all of these with diffuse immunostaining. Renin was detected in 31.6% of 38 chromophobe carcinomas and in 12.5% of 24 conventional carcinomas. Renin was not detected in collecting duct carcinomas or in mucinous tubular and spindle cell carcinomas. Systemic hypertension was detected in 11 of 25 (44%) patients with renin expression and in 32 of 64 (50%) patients without renin immunolabeling (p=0.64). After tumor resection, patients with renin expression and high blood pressure showed no hypertension remission. In conclusion, renin is frequently expressed in renal epithelial neoplasms with granular cells, mainly in oncocytomas, but this renin appears clinically inactive.
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PMID:Renin expression in adult renal epithelial tumors with granular cells. 2061 46

Renin synthesis and secretion by principal cells of the collecting duct are enhanced in angiotensin (Ang) II-dependent hypertension. The presence of renin/(pro)renin and its receptor, the (pro)renin receptor ([P]RR), in the collecting duct may provide a pathway for Ang I generation with further conversion to Ang II. To assess whether (P)RR activation occurs during Ang II-dependent hypertension, we examined renal (P)RR levels and soluble (P)RR excretion in the urine of chronic Ang II-infused rats (80 ng/min; for 2 weeks; n=10) and sham-operated rats (n=10). Systolic blood pressure and Ang II levels in the plasma and kidney were increased whereas plasma renin activity was suppressed in Ang II-infused rats. Renal (P)RR transcripts were upregulated in the cortex and medulla of Ang II-infused rats. (P)RR immunoreactivity in collecting duct cells and the protein levels of the full-length form (37-kDa band) were significantly decreased in the medulla of Ang II-infused rats. The soluble (P)RR (28-kDa band) was detected in the renal medulla and urine samples of Ang II-infused rats, which also showed increases in urinary renin content. To determine whether the soluble (P)RR could stimulate Ang I formation, urine samples were incubated with recombinant human (pro)renin. Urine samples of Ang II-infused rats exhibited increased Ang I formation compared with sham-operated rats. Thus, in chronic Ang II-infused rats, the catalytic activity of the augmented renin produced in the collecting duct may be enhanced by the intraluminal soluble (P)RR and cell-surface located (P)RR, thus contributing to enhanced intratubular Ang II formation.
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PMID:Soluble form of the (pro)renin receptor is augmented in the collecting duct and urine of chronic angiotensin II-dependent hypertensive rats. 2132 6

Sustained stimulation of the intrarenal/intratubular renin-angiotensin system in a setting of elevated arterial pressure elicits renal vasoconstriction, increased sodium reabsorption, proliferation, fibrosis, and eventual renal injury. Activation of luminal AT(1) receptors in proximal and distal nephron segments by local Ang II formation stimulates various transport systems. Augmented angiotensinogen (AGT) production by proximal tubule cells increases AGT secretion contributing to increased proximal Ang II levels and leading to spillover of AGT into the distal nephron segments, as reflected by increased urinary AGT excretion. The increased distal delivery of AGT provides substrate for renin, which is expressed in principal cells of the collecting tubule and collecting ducts, and is also stimulated by AT(1) receptor activation. Renin and prorenin are secreted into the tubular lumen and act on the AGT delivered from the proximal tubule to form more Ang I. The catalytic actions of renin and or prorenin may be enhanced by binding to prorenin receptors on the intercalated cells or soluble prorenin receptor secreted into the tubular fluid. There is also increased luminal angiotensin converting enzyme in collecting ducts facilitating Ang II formation leading to stimulation of sodium reabsorption via sodium channel and sodium/chloride co-transporter. Thus, increased collecting duct renin contributes to Ang II-dependent hypertension by augmenting distal nephron intratubular Ang II formation leading to sustained stimulation of sodium reabsorption and progression of hypertension.
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PMID:Evolving concepts on regulation and function of renin in distal nephron. 2299 Jul 60


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