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 present study was designed to characterize the effects of anti-glomerular basement membrane (anti-GBM) glomerulonephritis (GN) on sodium handling by surface nephrons, deep nephrons and the terminal collecting duct segment. Studies were performed in rats during hydropenia and volume expansion. In hydropenia, the glomerular filtration rate (GFR) and sodium excretion tended to be lower in rats with GN than in controls. However, the major differences between the control and GN animals were seen in volume expansion. In the volume expanded groups fractional excretion of sodium was greater in controls (3.20 +/- 0.51%) than in GN (1.20 +/- 0.36%, P less than 0.01). Despite this, delivery to end proximal sites was similar in the two groups in absolute terms and higher in the expanded GN group compared to the expanded controls. Absolute sodium delivery to the bend of the loop of Henle in the expanded GN rats was decreased in absolute terms but increased in fractional terms compared to expanded controls. However, fractional delivery of sodium to the base of the terminal collecting duct was less in GN (3.71 +/- 1.39%) than in controls (7.19 +/- 0.96%, P less than 0.002). In both groups, fractional delivery between tip of the collecting duct fell compared to base (P less than 0.05) but delivery to the tip was again greater in controls (5.49 +/- 1.08%) than in GN (1.51 +/- 0.47%). In GN 62.6 +/- 5.0% of delivered sodium was reabsorbed between collecting duct sites, nearly twofold that of controls (28.8 +/- 9.4%, P less than 0.01). Thus, fractional sodium reabsorption in the collecting duct was enhanced by GN.
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PMID:Sodium handling by deep nephrons and the terminal collecting duct in glomerulonephritis. 206 1

Recent studies have suggested that crescents are primarily of monocytic origin and that epithelial cells are a minor factor in their composition. Frozen sections of renal biopsies from 11 cases of crescentic glomerulonephritis (CGN) and 5 controls (2 acute interstitial nephritis, 1 focal glomerulosclerosis, 1 benign recurrent hematuria, 1 normal kidney) were stained for intracellular cytokeratin (CK) with a mouse monoclonal anti-CK antiserum (PKK1) and nonspecific esterase (NSE) activity. Indirect immunofluorescence with PKK1 antiserum showed that in all biopsies there was positive staining of collecting duct and proximal and distal tubular epithelium but no reactions in blood vessels or interstitium. In control case glomeruli there was no staining of the tuft, including the visceral epithelium. In all cases some parietal epithelium was CK-positive. In 4 CGN biopsies the majority of the crescents showed cytoplasmic staining for CK in more than 50% of the crescent cells. In 2 cases most crescents contained between 10-50% CK-positive cells, whereas in 5 biopsies little or no CK was present in the majority of crescents. In all but one CGN case the majority of crescents contained fewer than 30% NSE-positive cells (monocytes). Electron microscopy demonstrated intermediate filaments in many crescent cells and scattered desmosomes within crescents. The results indicate that epithelial cells, probably of parietal epithelial origin, contribute significantly to crescent formation.
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PMID:Histogenesis of glomerular crescents. Immunohistochemical demonstration of cytokeratin in crescent cells. 241 Nov 41

Nucleated nonsquamous cells in urine of patients with crescentic glomerulonephritis (CN), noncrescentic glomerulonephritis (NCN), acute tubular necrosis (ATN) and drug related acute interstitial nephritis (AIN) were identified using monoclonal antibodies and immunoperoxidase stain. Cell viability was determined by trypan blue permeability. CN was distinguishable from NCN by total cell numbers exceeding 30,000/ml (p less than 0.001) and counts of granulocytes exceeding 10,000/ml (p less than 0.05), monocytes exceeding 3,000/ml (p less than 0.001), T4 lymphocytes exceeding 1,500/ml (p less than 0.001), T8 lymphocytes exceeding 1,500/ml (p less than 0.001), glomerular epithelial cells exceeding 4,000/ml (p less than 0.001), proximal tubular cells exceeding 8,000/ml (p less than 0.001), loop of Henle cells exceeding 1,500/ml (p less than 0.01) and urothelial cells exceeding 1,500/ml (p less than 0.05). AIN was distinguishable from ATN by total cell numbers exceeding 75,000/ml (p less than 0.001) and counts of granulocytes exceeding 150,000/ml (p less than 0.001), monocytes exceeding 5000/ml (p less than 0.001), T4 lymphocytes exceeding 3,000/ml (p less than 0.01), T8 lymphocytes exceeding 2,500/ml (p less than 0.01) and cell viability exceeding 60% (p less than 0.05). Proximal tubular, loop of Henle, distal tubular/collecting duct and urothelial cells were present in high numbers in CN, ATN and AIN. CN can be distinguished from NCN, and ATN can be distinguished from AIN by identifying and quantifying the nucleated cells present in the urine.
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PMID:Immunoperoxidase identification of nucleated cells in urine in glomerular and acute tubular disorders. 266 90

Type IV nuclear bodies were found in all renal biopsies obtained from 14 patients with crescentic glomerulonephritis (CGN) and in 8 of 43 control patients studied by light and electron microscopy. The mean ratio of Type IV nuclear bodies per 10 tubular cross-sections examined was 0.67 +/- 0.27 for the CGN cases, which was significantly different from 0.09 +/- 0.26 obtained for the controls (P less than 0.05). Type IV nuclear bodies were most commonly seen in the epithelial cells of proximal tubules but were also seen occasionally in interstitial fibroblasts and cells of a collecting duct and a developing crescent.
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PMID:A quantitative light- and electron-microscopic study of type IV nuclear bodies in crescentic glomerulonephritis. 625 44

The characterization and cloning of constitutive and inducible nitric oxide (NO)-synthesizing enzymes and the development of specific inhibitors of the L-arginine NO pathway have provided powerful tools to define the role of NO in renal physiology and pathophysiology. There is increasing evidence that endothelium-derived NO is tonically synthesized within the kidney and that NO plays a crucial role in the regulation of renal hemodynamics and excretory function. Bradykinin and acetylcholine induce renal vasodilation by increasing NO synthesis, which in turn leads to enhancement of diuresis and natriuresis. The blockade of basal NO synthesis has been shown to result in decreases of renal blood flow and sodium excretion. These effects are partly mediated by an interaction between NO and the renin angiotensin system. Intrarenal inhibition of NO synthesis leads to reduction of sodium excretory responses to changes in renal arterial pressure without an effect on renal autoregulation, suggesting that NO exerts a permissive or a mediatory role in pressure natriuresis. Nitric oxide released from the macula densa may modulate tubuloglomerular feedback response by affecting afferent arteriolar constriction. Nitric oxide produced in the proximal tubule possibly mediates the effects of angiotensin on tubular reabsorption. In the collecting duct, an NO-dependent inhibition of solute transport is suggested. The L-arginine NO pathway is also active in the glomerulus. Under pathologic conditions such as glomerulonephritis, NO generation is markedly enhanced due to the induction of NO synthase, which is mainly derived from infiltrating macrophages. An implication of NO in the mechanism of proteinuria, thrombosis mesangial proliferation, and leukocyte infiltration is considered. In summary, the data presented on NO and renal function have an obvious clinical implication. A role for NO in glomerular pathology has been established. Nitric oxide is the only vasodilator that closely corresponds to the characteristics of essential hypertension. Using chronic NO blockade, models of systemic hypertension will provide new insights into mechanisms of the development of high blood pressure.
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PMID:Nitric oxide in the kidney: synthesis, localization, and function. 751 25

Kidney targeted gene transfer has been a realistic goal for many researchers since 1991, but unfortunately, to date there is no reliable gene transfer technique for gene therapy of renal diseases. However, at the experimental level, several in vivo gene transfer methods have attempted to target certain renal structures, for example, the HVJ-liposome method and renal perfusion of adenovirus for glomerular cells, intravenous injection of oligonucleotides (ODNs) for proximal tubule, intra-arterial injection of adenovirus followed by cold incubation with a vasodilator for interstitial vasculature of the outer medulla, and adenoviral injection into the renal pelvis for the inner medullary collecting duct. As an ex vivo gene transfer method targeting the glomerulus, the transfusion of genetically-modified mesangial cells has been attempted. Implantation of genetically-modified tubular epithelial cells into the subcapsular region has been employed for ex vivo transfection to the interstitium. Gene therapy has focused particularly on the transplanted kidney, where an exogenous gene can transferred in advance. In the future, an inducible system and individual cell targeting strategy should be developed. The improvement of gene transfer techniques, especially vectors for delivering genes, is crucial. The potential application of gene transfer technologies is enormous while the therapeutic approaches have just begun to be explored. Therapeutic interventions of the process of progression of glomerulonephritis in the rat have been directed towards inhibiting the actions of growth factors. Obviously, molecular biological intervention is coming of age and there is a tremendous excitement over its potential. We believe that gene transfer techniques will become common tools for the dissection of molecular aspects of diseases and possibly for gene therapy in the field of nephrology.
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PMID:Strategies of gene transfer to the kidney. 946 Oct 84

Hepatitis C virus (HCV) infection is frequently complicated by glomerulonephritis with immune complexes containing viral RNA. We examined the potential influence of Toll-like receptors (TLRs), specifically TLR3 recognition of viral dsRNA exemplified by polyriboinosinic:polyribocytidylic acid [poly(I:C) RNA]. Normal human kidney stained positive for TLR3 on mesangial cells (MCs), vascular smooth muscle cells, and collecting duct epithelium. Cultured MCs have low TLR3 mRNA levels with predominant intracellular protein localization, which was increased by tumor necrosis factor-alpha, interleukin (IL)-1beta, interferon (IFN)-gamma, and the TLR3 ligand poly(I:C) RNA. Poly(I:C) RNA stimulation of MCs increased mRNA and protein synthesis of IL-6, IL-1beta, M-CSF, IL-8/CXCL8, RANTES/CCL5, MCP-1/CCL2, and ICAM-I; it also increased anti-proliferative and proapoptotic effects, the latter of which was decreased by inhibiting caspase-8. In microdissected glomeruli of normal and non-HCV membranoproliferative glomerulonephritis biopsies, TLR3 mRNA expression was low. In contrast TLR3 mRNA expression was significantly increased in hepatitis C-positive glomerulonephritis and was associated with enhanced mRNA for RANTES/CCL5 and MCP-1/CCL2. We hypothesize that immune complexes containing viral RNA activate mesangial TLR3 during HCV infection, thereby contributing to chemokine/cytokine release and effecting proliferation and apoptosis. Thus, TLR3 expression on renal cells, and especially MCs, may establish a link between viral infections and glomerular diseases.
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PMID:Novel role of toll-like receptor 3 in hepatitis C-associated glomerulonephritis. 1643 53

Endothelin (ET)-1 is a potent vasoconstrictor peptide with pro-inflammatory, mitogenic, and pro-fibrotic properties that is closely involved in both normal renal physiology and pathology. ET-1 exerts a wide variety of biological effects, including constriction of cortical and medullary vessels, mesangial cell contraction, stimulation of extracellular matrix production, and inhibition of sodium and water reabsorption along the collecting duct, effects that are primarily mediated in an autocrine/paracrine manner. Increasing evidence indicates that the ET system is involved in an array of renal disorders. These comprise chronic proteinuric states associated with progressive glomerular and tubulointerstitial fibrosis, including diabetic and hypertensive nephropathy, glomerulonephritis and others. In addition, ET-1 is causally linked to renal disorders characterized by increased renal vascular resistance, including acute ischaemic renal failure, calcineurin inhibitor toxicity, endotoxaemia, hepatorenal syndrome and others. Furthermore, derangement of the ET system may be involved in conditions associated with inappropriate sodium and water retention; for example, in congestive heart failure and hepatic cirrhosis. Both selective and non-selective ET receptor antagonist have been developed and tested in animal models with promising results. As key events in progressive renal injury like inflammation and fibrosis are mediated via both ET(A) and ET(B) receptors, while constrictor effects are primarily transduced by ET(A) receptors, dual ET receptor blockade may be superior over selective ET(A) antagonism. Several compounds have been developed with remarkable effects in several models of acute and progressive renal injury. Thus, clinical studies are required to assess whether these results can be confirmed in humans, hopefully leading to novel and effective therapeutic options with few side effects.
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PMID:Role of endothelin and endothelin receptor antagonists in renal disease. 1691 17

In experimental glomerulonephritis, inhibition of renal prostaglandin (PG) synthesis by nonsteroidal-anti-inflammatory drugs (NSAIDs) moderates proteinuria, yet can induce harmful effects on renal blood flow and Na+ - K+ - water balance thereby implicating 1 or more prostanoid receptor subtypes. We investigated the role of the PGE2 EP1 receptor in nephritis since it is expressed in the glomerulus, collecting duct and vasculature in which its activity might contribute to adaptive or maladaptive responses. Accordingly, a mouse model of accelerated antiglomerular basement membrane (anti-GBM) nephrotoxic serum (NTS) nephritis was induced in mice with targeted-deletion of the EP1 receptor (EP1-/-). Proteinuria was similar between wild-type (wt) and EP1-/- NTS groups, thus negating a role for this subtype in modulating the glomerular permeability barrier in this model of anti-GBM NTS. However, overall renal damage was more acute in NTS EP1-/- mice, as evidenced by the degree of glomerular mesangial matrix expansion and the frequency of tubular dilatations. These changes in renal pathology were accompanied by stronger impairment of renal function in NTS EP1-/- mice, such that levels of serum creatinine, urea, Na+, and K+ were each significantly higher than those observed in NTS wt mice. Lastly, compared with wt mice, induction of NTS more severely reduced urine osmolality and body mass in EP1-/- mice. Taken together, the increased renal impairment seen in NTS EP1-/- mice suggests that the EP1 subtype plays a compensatory role in the context of acute nephritis.
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PMID:Increased severity of renal impairment in nephritic mice lacking the EP1 receptor. 1711 Oct 32

The chemokine CXCL16 plays an important role in the recruitment of leukocytes to sites of inflammation influencing the course of experimental glomerulonephritis. Here we show that human kidneys highly express CXCL16 in the distal tubule, connecting tubule and principal cells of the collecting duct with weak expression in the thick ascending limb of Henle. Beside the membrane localization, a soluble form of CXCL16 can be proteolytically released which acts as a chemotactic factor. In human renal tissue the expression pattern of the disintegrin-like metalloproteinase ADAM10 is similar to that of CXCL16, suggesting ADAM10 can potentially cleave CXCL16 in vivo. When we tested this in primary tubular cells we found that blockade of ADAM10 activity inhibited the IFN-gamma induced release of soluble CXCL16. Acute tubular damage in renal allografts was associated with elevated urinary CXCL16 and this correlated with focally increased apical CXCL16 expression in the distal tubules and collecting ducts. Renal allograft biopsies, with a histopathological diagnosis of acute interstitial rejection, showed increased basolateral ADAM10 expression together with high numbers of infiltrating T cells. Our results suggest that CXCL16 and ADAM10 are involved in the recruitment of T cells to the kidney and play an important role in inflammatory kidney diseases.
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PMID:Characterization of CXCL16 and ADAM10 in the normal and transplanted kidney. 1848 Jul 49


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