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)

NG-monomethylarginine (L-NMA) and asymmetric NG, NG-dimethylarginines (ADMA) are endogenous inhibitors of cellular L-arginine uptake and/or nitric oxide (NO) synthesis that are implicated in renal parenchymal and Dahl salt-sensitive hypertension. Since the L-arginine:(L-NMA + ADMA) ratio determines NO synthase (NOS) activity, we compared the immunohistochemical distribution of NOS with NG, NG-dimethylarginine dimethylaminohydrolase (DDAH), which inactivates dimethylarginines (DMA) and L-NMA by hydrolysis to L-citrulline. Neuronal NOS (nNOS) was expressed predominantly in tubular epithelial cells of macula densa (MD), endothelial NOS (eNOS) in vascular endothelial cells (EC), and inducible NOS (iNOS) quite widely in tubular epithelium, including proximal tubules (PT), thick ascending limbs of Henle (TAL), distal convoluted tubule and intercalated cells (IC) of the collecting duct. Immunostaining for DDAH was present in PT, TAL, MD, and IC, and was also present in the glomerulus, Bowman's capsule, and endothelium of blood vessels. DDAH was detected in small vesicles of TAL and PT by electron microscopic (EM) immunocytochemistry. To study the effects of methylarginines on tubuloglomerular feedback (TGF) response, vehicle or methylarginines (10(-3) M) were added to artificial tubular fluid (ATF) perfused orthogradely from the late PT at 40 nl. min-1 while assessing changes in glomerular capillary pressure from proximal stop flow pressure (PSF). Whereas the maximal TGF responses were unchanged by vehicle (delta TGF 0 +/- 0%) or symmetric DMA (SDMA; +1 +/- 2%, NS), they were enhanced by L-NMA (+22 +/- 4%, P < 0.001) and asymmetric DMA (ADMA; +28 +/- 3%, P < 0.001). Since L-arginine transport can regulate renal epithelial NO generation, methylarginines (10(-3) M) or vehicle were co-perfused orthogradely with [3H]-L-arginine from the late PT and collected at the early distal tubule to study arginine uptake from the perfused loop of Henle. All methylarginines reduced fractional loop [3H] absorption significantly (P < 0.001; vehicle, 84 +/- 6; ADMA, 49 +/- 6; SDMA, 56 +/- 6; L-NMA, 41 +/- 6%). In conclusion, sites of DDAH expression in the vasculature or nephron are all sites of expression of an isoform of NOS. L-NMA, ADMA, and SDMA all inhibit renal tubular L-arginine uptake, whereas L-NMA and ADMA, but not SDMA, enhance TGF responses. Therefore, DDAH may regulate the cellular L-arginine: methylarginine levels in specific renal cells, thereby governing cell-specific L-arginine uptake and NO generation in renal tubular epithelium.
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PMID:Colocalization of demethylating enzymes and NOS and functional effects of methylarginines in rat kidney. 940 5

This study was designed to quantify nitric oxide synthase (NOS) activity in microdissected glomeruli (Glm), pars convoluta, pars recta, cortical collecting duct, cortical thick ascending limb, outer medullary collecting duct, medullary thick ascending limb and thin limb, inner medullary collecting duct (IMCD) and thin limb, and vasa recta (VR). Total protein from microdissected segments was incubated with L-[3H]arginine and appropriate cofactors, and the L-arginine and converted L-citrulline were separated by reverse-phase HPLC and radiochemically quantitated. NOS activity was found to be greatest in IMCD (11.5 +/- 1.0 fmol citrulline. mm-1. h-1) and moderate in Glm (1.9 +/- 0.3 fmol. glomerulus-1. h-1) and VR (3.2 +/- 0.8 fmol. mm-1. h-1). All other renal structures studied exhibited significantly less NOS activity. The mRNA for NOS isoforms in the NOS activity-positive segments was then identified by RT-PCR. The IMCD contained mRNA for neuronal (nNOS), endothelial (eNOS), and inducible NOS (iNOS), but Glm and VR only expressed the mRNA for nNOS and eNOS. These experiments demonstrate that the greatest enzymatic activity for NO production in the kidney is in the IMCD, three- to sixfold less activity is present in the Glm and VR, and minimal NOS activity is found in other segments studied.
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PMID:Quantification of nitric oxide synthase activity in microdissected segments of the rat kidney. 1036 76

The purpose of this study was to determine if rats lacking the ETB receptor have altered renal endothelin (ET) production and NO synthase (NOS) activity in response to high salt and if female rats are better able to control blood pressure through higher NOS activity in rats heterozygous (sl/+) and homozygous (sl/sl) for ETB receptor deficiency. On normal salt (0.4% NaCl; NS), male sl/sl rats had higher systolic blood pressures compared with male sl/+ and female sl/+ and sl/sl rats. On a high salt diet (10% NaCl; HS), blood pressure in male sl/+ rats was significantly higher than female sl/+ rats. However, ETB receptor deficiency caused much larger increases in blood pressure in male and female rats. On NS, urinary ET excretion was not different between male and female of either genotype. HS significantly increased ET excretion in male and female sl/+ rats, but the increase was significantly less in sl/sl compared with sl/+. Homogenates of inner medullary collecting duct tissue were separated into particulate and cytosolic fractions and total NOS activity measured by conversion of [3H]L-arginine to [3H]L-citrulline. Female rats had significantly greater cytosolic NOS activity compared with male rats on NS. On HS, cytosolic NOS activity was lower in all groups compared with NS rats, whereas particulate NOS activity was significantly greater in male and female sl/+ rats compared with male and female sl/sl rats. These data support our hypothesis that NOS protects against rises in blood pressure in female rats and ETB receptors prevent further increases in blood pressure due to increases in renal ET production and NOS activity.
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PMID:Gender differences in ET and NOS systems in ETB receptor-deficient rats: effect of a high salt diet. 1262 75