Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: EC:2.7.10.1 (ERK)
 95,504 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Neutral endopeptidase (NEP; enkephalinase, EC 3.4.24.11) is a cell membrane associated zinc metalloprotease, which cleaves peptides like atrial natriuretic peptide (ANP) on the amino-side of hydrophobic amino acids. Although NEP is mainly located in reabsorptive epithelia (kidney proximal tubule), it is also present in non-epithelial cells like neuronal cells. As the renal NEP cannot account for the entire ANP metabolism, other locations were postulated. The present experiments show its expression in endothelial cells (EC) from arterial (bovine pulmonary, porcine and human aorta) and venous (human umbilical, rabbit ear marginal) origins. Three different methods were used to demonstrate the presence of the protein and its mRNA: 1) NEP enzymatic activity was estimated using both a synthetic ([D-Ala2, Leu5] enkephalin) and a natural substrate (bradykinin). Using the synthetic substrate, the enzymatic activity in EC was completely blocked by thiorphan, a specific NEP inhibitor with an IC50 value in the nM range. In contrast, captopril, bestatin, GEMSA, inhibitors of angiotensin-converting enzyme, aminopeptidases and carboxypeptidases, respectively, were 10,000 times less active, revealing an inhibition profile similar to that of the purified enzyme. Bradykinin, a natural substrate of NEP, was in part metabolized by NEP, in presence of captopril, since 50% of the formation of the major metabolite bradykinin 1-7 was inhibited by thiorphan. 2) Immunoreactive NEP was detected on the plasma membrane of rabbit EC using a monoclonal antibody directed against the homologous renal enzyme. 3) NEP mRNA was detected by Northern blot analysis on rabbit EC as a major transcript of 3.9 kb. Reverse transcriptase PCR amplification showed the presence of a specific transcript in all EC tested. Therefore, endothelial NEP could play an important role in the inactivation of ANP, bradykinin and endothelins by its localization facing the circulating vasoactive peptides.
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PMID:[Identification and characterization of neutral endopeptidase in endothelial cells of arterial or venous origin]. 133 90

Neutral endopeptidase (NEP; enkephalinase, EC 3.4.24.11) is a cell membrane-associated zinc metalloprotease, which cleaves peptides like atrial natriuretic peptide (ANP) on the amino side of hydrophobic amino acids. Although NEP is mainly located in reabsorptive epithelia (kidney proximal tubule), it is also present in non-epithelial cells such as neuronal cells. As the renal NEP cannot account for the entire ANP metabolism, other locations were postulated. The present experiments show its expression in endothelial cells (EC) from arterial (bovine pulmonary, porcine, and human aorta) and venous (human umbilical, rabbit ear marginal) origins. Three different methods were used to demonstrate the presence of the protein and its mRNA. 1) NEP enzymatic activity was estimated using both a synthetic ([D-Ala2,Leu5]enkephalin) and a natural substrate (bradykinin). Using the synthetic substrate, the enzymatic activity in EC was completely blocked by thiorphan, a specific NEP inhibitor with an IC50 value in the nanomolar range. In contrast, captopril, bestatin, [2-guanidinoethylmercapto]succinic acid, inhibitors of angiotensin-converting enzyme, aminopeptidases, and carboxypeptidases, respectively, were 10,000 times less active, revealing an inhibition profile similar to that of the purified enzyme. Bradykinin, a natural substrate of NEP, was in part metabolized by NEP, in the presence of captopril, since 50% of the formation of the major metabolite bradykinin 1-7 was inhibited by thiorphan. 2) Immunoreactive NEP was detected on the plasma membrane of rabbit EC using a monoclonal antibody directed against the homologous renal enzyme. 3) NEP mRNA was detected by Northern blot analysis of rabbit EC as a major transcript of 3.9 kilobases. Reverse transcriptase polymerase chain reaction amplification showed the presence of a specific transcript in all EC tested. Therefore, endothelial NEP may play an important role in the inactivation of ANP, bradykinin, and endothelins by its localization facing the circulating vasoactive peptides.
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PMID:Identification and characterization of neutral endopeptidase in endothelial cells from venous or arterial origins. 162 99

We have used a retroviral vector containing both the cDNA for rabbit neutral endopeptidase (EC 3.4.24.11; NEP) and the neomycin resistance gene to promote the expression of NEP in a polarized Madin-Darby canine kidney (MDCK) cell line. Cells resistant to G418 (a neomycin synthetic analog) were analyzed with a fluorescence-activated cell sorter to isolate a homogeneous population of cells which stably expressed NEP at their surface. When cells grown in Petri dishes were labeled with an antibody to NEP coupled to colloidal gold and examined under the electron microscope, a strong labeling of microvilli was observed, whereas very few particles were present on the basolateral domain, suggesting that the polarized distribution of this enzyme typical of proximal tubule cells is maintained in this MDCK cell population. To study more accurately the mechanism by which MDCK cells target NEP to the apical surface, cultures were grown to confluence on Costar Transwell chambers and used for pulse-chase experiments with [35S]methionine. Immunoprecipitation of recombinant NEP was then performed by adding an anti-NEP polyclonal antibody to the apical or basolateral surface of intact monolayers and by analyzing immunoprecipitates by gel electrophoresis and fluorography. Our results suggest that NEP is delivered directly to the apical domain and does not transit through the basolateral domain of the plasma membrane. This NEP-expressing MDCK cell line therefore constitutes a new model for investigating the molecular basis of apical membrane targeting in polarized epithelial cells.
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PMID:Neutral endopeptidase, a major brush border protein of the kidney proximal nephron, is directly targeted to the apical domain when expressed in Madin-Darby canine kidney cells. 191 86

The present studies were designed to determine the action of neutral endopeptidase inhibition (NEP-I), an inhibitor of the degradation of atrial natriuretic factor (ANF), in congestive heart failure (CHF). Studies were conducted in two groups of anesthetized dogs with CHF induced by 8 days of rapid right ventricular pacing. Group 1 (n = 5) received a specific NEP-I (SQ 28,603) at two doses administered sequentially -30 mg/kg followed by a 60 mg/kg i.v. bolus. Group 2 (n = 5) received intravenous infusion of exogenous ANF (100 ng/kg/min) to achieve increases in plasma ANF concentration as observed in group 1. NEP-I resulted in a diuresis and natriuresis (p less than 0.05) with increases in the fractional excretion of sodium and fractional excretion of lithium, the latter a marker for proximal tubule sodium delivery. Such tubular actions occurred in the absence of increases in glomerular filtration rate or renal blood flow but were associated with significant increases in urinary ANF and urinary cyclic GMP. Plasma ANF increased after the 30 mg/kg NEP-I dose. In contrast, in group 2 with exogenous ANF and despite a marked increase in plasma ANF, no natriuresis was observed. Arterial pressure did not change in either group. These studies demonstrate for the first time in CHF that NEP-I may potentiate the natriuretic action of endogenous ANF by a mechanism that is independent of systemic or renal hemodynamics and does not parallel increases in plasma ANF. These studies support an important therapeutic role for NEP-I in CHF.
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PMID:Cardiorenal actions of neutral endopeptidase inhibition in experimental congestive heart failure. 214 24

Several functional parameters were applied in an experimental model of ischemia to test the ability to localize the distribution of tubular lesions. Canine kidneys were perfused with protective solutions and rendered ischemic for definite periods. Renal function was determined during a subsequent 3-h reperfusion. The pattern and the extent of renal injury were influenced by varying the duration of ischemia and by modifying the protective solution used. The results suggest that by employing an appropriate selection of parameters it is possible to allocate renal injury to definite sections of the tubules. According to such an evaluation, under protection with HTK-solution, the proximal tubule limits the tolerance of renal ischemia. The thick ascending limb shows some vulnerability that is aggravated by disadvantageous modifications of the protective solution and that may become more pronounced in the course of reperfusion. In contrast, more distal parts of the nephron retain a remarkable reserve transport capacity after a tolerable level of ischemia.
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PMID:Postischemic diagnostic localization of tubular lesions. 231 10

TRKE-1 is a pure line of epithelium-like neoplastic cells derived from the kidney of a rat treated 48 hr previously with a carcinogenic dose of dimethylnitrosamine. Using light microscopy, the line was characterized by cohesive growth behavior typical for epithelium and the formation of hemicysts (domes) at postconfluence. Enhancement of dome formation by dibutyryl cyclic adenosine 3':5'-monophosphate and dimethyl sulfoxide and inhibition by ouabain established these structures as a manifestation of differentiated cellular function, namely, transepithelial fluid transport. Structurally, TRKE-1 cells in monolayer culture were characterized by apical distribution of microvilli, cilia, and endocytic vesicles, ordered sequence of junctional components at the apical lateral border including tight junction and desmosomes, basolateral cellular interdigitations below the junctional complex, basal location of microfilament bundles, and a conspicuous content of mitochondria. Each of these features typifies mammalian renal tubule epithelium in vivo. The occasional profusion of microvilli; the prominent, apically distributed endocytic vesicles; and the well-developed basal microfilament tracts suggest, in particular, that the proximal segment of the nephron may represent the site of origin of this transformed cell line. The various morphological aspects of renal epithelial differentiation were also expressed in multicellular tumor spheroids grown in suspension, with an accentuation of junctional complexes, endocytic vesicles, and intracytoplasmic lumina. In addition, this three-dimensional culture mode supported cellular organization into acinar profiles suggestive of primitive tubule formation. In confirming the epithelial nature of TRKE-1 and a possible identity with the proximal tubule, this study provides an in vitro animal model representative of chemically transformed renal epithelium which may be analogous to human renal cell carcinoma.
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PMID:Differentiated features of a transformed epithelial cell line (TRKE-1) derived from dimethylnitrosamine-treated rat kidney. 664 May 46

The dopamine D1A receptor subtype was identified in rat kidney with both light microscopic immunohistochemistry and electron microscopic immunocytochemistry. Antipeptide polyclonal antisera were directed to both extracellular and intracellular regions of the native receptor. The use of such receptor-subtype-selective antibodies allows for the identification of specific dopamine receptor subtype clones that are not distinguished by current pharmacological or receptor-ligand binding technology. Selectivity of the antipeptide antisera was validated by their ability to recognize native receptor protein expressed in permanently transfected mouse LTK- cells. In the rat kidney, D1A receptor protein was localized to the juxtaglomerular apparatus (JGA), proximal tubule, distal tubule, cortical collecting duct, and renal vasculature. In the JGA, the receptor was predominantly located in the arteriolar smooth muscle layer within cytoplasmic granules previously shown to contain renin. In the proximal tubules, staining was localized both on the brush-border and basolateral membranes. The D1A receptor, which is present in the central nervous system, is now identified in the rat kidney at those sites previously labeled as DA1 receptor sites on the basis of pharmacological binding studies. These results suggest that at least some of the renal dopamine DA1 receptors correspond structurally to the central dopamine D1A receptor.
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PMID:Localization of dopamine D1A receptor protein in rat kidneys. 761 59

Neutral endopeptidase (NEP; also known as neprilysin and enkephalinase; EC 3.4.24.11) is a cell-surface metallopeptidase that is present in many mammalian tissues. It is particularly abundant on the brush-border membranes of the kidney proximal tubule. In this paper, the presence of NEP in purified glomeruli from dog kidney was assessed by measuring phosphoramidon- and thiorphan-sensitive [D-Ala2,Leu5]enkephalin-degrading activity. Using this assay, the Km and kcat. of the glomerular enzyme were found to be identical to those of the tubular enzyme. By Western blotting the apparent M(r) of the glomerular enzyme was found to be 104,000, compared with 94,000 for the tubular enzyme. This might be due to a different glycosylation pattern, since endoglycosidase F treatment of NEP obtained from both tissues yielded deglycosylated enzymes with similar electrophoretic mobilities. The glomerular enzyme also appears to be membrane-bound, since it was retained in the detergent-rich phase after phase separation with Triton X-114. Autoradiography experiments performed with RB104, a new highly selective and potent NEP inhibitor, showed that NEP was expressed in both glomeruli and proximal tubules. The presence in glomeruli of NEP and some other brush-border peptidases (dipeptidyl-dipeptidase IV, aminopeptidase N and angiotensin I-converting enzyme) suggests that cell-surface peptidases might play an important role as regulators of plasma-derived peptides in this part of the nephron.
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PMID:Characterization of neutral endopeptidase 24.11 in dog glomeruli. 848 5

A member of the fibroblast growth factor (FGF) family, keratinocyte growth factor (FGF-7 has unique specificity for epithelial cells. We investigated the role of FGF-7 in repair of proximal tubular damage caused by S-(1,1,2,2-tetrafluoroethyl)-L-cysteine (TFEC). In situ hybridization localized FGF-7 to interstitial cells in the medulla and outer stripe of the outer medulla. Interstitial FGF-7 expression increased throughout the kidney 1 day after TFEC treatment. FGFR2 IIIb mRNA was high in the papilla and medulla and also increased after TFEC administration. By in situ hybridization, FGFR2 IIIb was localized to the tubular epithelium, particularly in collecting ducts. Proliferation of collecting duct epithelial cells increased in adult kidney after damage to the proximal tubule. FGFR2 IIIb, but not FGF-7, mRNA was also expressed by rat proximal tubule epithelial (RPTE) cells in vitro, and FGF-7 increased DNA synthesis in RPTE. Thus FGFR2 IIIb and FGF-7 expression is segregated between epithelial and interstitial cells forming a paracrine growth factor loop. These results raise the possibility that a novel paracrine growth loop is activated by chemical damage and regulates epithelial cell growth during tubular repair.
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PMID:Induction of FGF-7 after kidney damage: a possible paracrine mechanism for tubule repair. 894 90

The aim of this study was to test the hypothesis that differences exist in the activity and/or expression of mitogen-activated protein kinases (MAPKs) between spontaneously hypertensive rats (SHR) and control Wistar-Kyoto rats (WKY) and that these differences may account for the enhanced activity of the Na(+)/H(+) exchanger (NHE) previously observed in the renal proximal tubule of SHR. Therefore, the activities of c-jun N-terminal kinase(1) (JNK(1)), extracellular signal-regulated kinase(1/2) (ERK(1/2)), and p38 were investigated. A reduced amount of ERK(1) and JNK(1) protein was found in renal cortex specimens of SHR as compared with WKY; however, their activities were the same. To study the cellular basis of this difference, immortalized proximal tubule cell lines were grown on Millicell-CM filter inserts where the cell lines organize as polarized monolayers with separate access to apical and basolateral compartments. Although basal JNK(1) and ERK(1/2) activities were not significantly different between WKY and SHR cells, anisomycin stimulated JNK(1) activity in WKY cells more than in SHR cells (eg, at 15 minutes 300% versus 30%, respectively). Similarly, angiotensin II increased JNK(1) and ERK(1/2) activity in a time- and concentration-dependent manner in WKY cells but not in SHR cells. Western blot analyses showed a deficit in JNK(1) and ERK(1) protein in SHR (0.25 and 0.5, respectively, of the levels in WKY cells), although ERK(2) and p38 protein levels were the same. These observations suggest that, although angiotensin II activates MAPKs and MAPKs have been shown to regulate NHE, this regulatory pathway is unlikely to account for the increased activity of NHE in the proximal tubular epithelium of SHR.
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PMID:Activation of MAPKs in proximal tubule cells from spontaneously hypertensive and control Wistar-Kyoto rats. 1081 81


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