Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UMLS:C0004135 (ATM)
 13,001 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The glucose transporter isoform, GLUT4, has been expressed in Chinese hamster clones and its subcellular trafficking has been determined following labelling at the cell surface with the impermeant bis-mannose photolabel, 2-N-(1-azi-2,2,2-trifluoroethyl)benzoyl-1,3-bis(D-mannos -4-yloxy)-2-propylamine (ATM-BMPA). ATM-BMPA-tagged GLUT4 leaves the cell surface rapidly and equilibrates to give an internal/surface distribution ratio of approx. 3.5 after 60 min. GLUT4 in which the N-terminal phenylalanine-5 and glutamine-6 are mutated to alanine-N-(FQ-AA) and in which the C-terminal leucine-489 and -490 are mutated to alanine C-(LL-AA) have low internal/surface ratios of 0.64 and 1.24 respectively. If all cell-surface transporters are able to recycle, as would be the case for a two-pool recycling model with a single intracellular pool, then analysis suggests that the wild-type GLUT4 distribution ratio is dependent on endocytosis and exocytosis rate constants of 0.074 and 0.023 min(-1). These values are similar, but not identical, to those found for GLUT4 trafficking in adipocytes. The distribution of the N-(FQ-AA) transporter appears to be due to a decrease in endocytosis with reduced intracellular retention, while the distribution of the C-(LL_AA) transporter appears to be mainly due to poor intracellular retention. These results are also considered in terms of a consecutive intracellular pool model in which GLUT4 targeting domains alter the distribution between recycling endosomes and a slowly recycling compartment. In this case the more rapid apparent exocytosis of the mutated GLUT4 is due to their failure to reach a slowly recycling compartment with a consequent return to the plasma membrane by default. It is suggested that overexpression of transporters increases the proportion that are recycled in this way. Wortmannin is shown to decrease glucose transport activity and cell-surface photolabelled transporters in a manner consistent with an inhibition of transporter recycling. Studies on the rate of loss of transport activity and ATB-BMPA-tagged transporter in wortmannin-treated cells confirm that the N-(FQ-AA) mutant is endocytosed more slowly than the wild-type GLUT4. Taken together, these results suggest that the mutation at either the N- or the C-terminal domain can reduce movement to a slowly recycling intracellular compartment but that neither domain alone is entirely sufficient to produce wild-type GLUT4 trafficking behaviour.
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PMID:Subcellular trafficking kinetics of GLU4 mutated at the N- and C-terminal. 867 Jan 1

We compared the consequences of chronic angiotensin-converting enzyme (ACE) inhibition with quinapril and of specific AT1 blockade with losartan in a renin-dependent model of hypertension, the (mRen2)27 transgenic rats (TG). Animals were orally treated with 10 mg/kg/24 h of either quinapril (TGQ, n = 13) or losartan (TGL, n = 12) from age 4 to age 9 weeks. Indirect systolic blood pressure (SBP), and sodium and water balances were measured for 3 consecutive weeks. Nine-week-old rats were instrumented to record aortic BP in the conscious state. In addition, they received an infusion of glucose and saline to increase their diuresis and thus allow accurate assessment of their renal excretion during short time periods. These rats were studied for three one-h periods: (a) baseline, (b) after the administration of a bradykinin (BK) antagonist, and (c) after a cross-treatment; i.e., TGQ rats receiving losartan (10 mg/kg intravenously, i.v.) and TGL rats receiving quinapril (10 mg/kg i.v.). TGL rats differed from TGQ rats by an unconsistently lower indirect SBP associated with significantly lower urinary volume and sodium excretion, whereas the sodium balance did not differ between the two groups. In conditions of fixed sodium intake the aortic BP of TGQ rats was still nonsignificantly different from that of TGL rats, and TGQ rats also exhibited two-fold higher natriuresis. The BK antagonist had no effect in either group, whereas losartan decreased the BP of TGQ rats. We conclude that in TG rats ACE inhibition is associated with an increased natriuresis as compared with specific AT1 blockade, an effect that is independent of the sodium intake. Because a BK antagonist had no effect, such a difference might be due to an antinatriuretic effect of AT2 receptors in chronic conditions.
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PMID:Comparison between chronic converting enzyme inhibition and AT1 blockade in mRen2 transgenic rats. 884 62

This study compared the effect of benazepril, an angiotensin converting enzyme inhibitor to valsartan, an angiotensin AT1 receptor antagonist, on glucose tolerance in the conscious, spontaneously hypertensive rat. Intraperitoneal infusion of benazepril or valsartan at 1, 3 and 10 mg/kg per day produced equivalent dose-related reductions in systolic blood pressure for 12 weeks. Body weight gain during the treatment period was significantly reduced by infusion rates of benazepril. In contrast, only the highest infusion rate of valsartan significantly affected body weight gain. At the end of the 12-week treatment period, neither benazepril nor valsartan significantly affected glucose disposal during intravenous glucose tolerance tests. The insulin response to glucose challenge was unaffected by valsartan whereas following the highest infusion rate of benazepril the plasma levels were significantly reduced. The results demonstrate that benazepril but not valsartan reduces the insulin required to dispose of a glucose load.
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PMID:Blockade of angiotensin converting enzyme but not of angiotensin AT1 receptors improves glucose tolerance. 903 Sep 1

An important facilitating effect of angiotensin II on adrenal catecholamine release has been demonstrated in several species. To determine whether specific AT1 receptor blockade affects medullary epinephrine secretion and musculocutaneous norepinephrine release during insulin-induced hypoglycemia, 16 healthy volunteers received losartan vs. placebo followed by an intravenous insulin bolus and measurement of effect variables at short intervals for 150 min. AT1 receptor blockade was effective, as evidenced by substantially increased circulating renin and angiotensin II levels, a 60% inhibition of circulating aldosterone, and an 8.5% decrease of mean arterial pressure over time compared with placebo. Arterial glucose concentration fell to a nadir of 1.9 mM, arterial epinephrine concentration increased 23-fold, forearm musculocutaneous norepinephrine release increased 4-fold, heart rate increased 40%, and forearm blood flow increased 3-fold. All absolute values and the time course of these changes were independent of AT1 receptor blockade. It is concluded that a putative interaction between angiotensin II and the sympathoadrenal axis may not be mediated by AT1 receptors in humans.
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PMID:AT1 receptor blockade and the sympathoadrenal response to insulin-induced hypoglycemia in humans. 912 47

An elevation in intracellular calcium ([Ca2+]i) in rats with chronic renal failure and elevated blood levels of PTH is associated with down-regulation of the mRNA of many proteins. Similarly, in phosphate depleted animals that have normal renal function and low blood levels of PTH, [Ca2+]i is elevated and the mRNA of PTH-PTHrP receptor is down-regulated. The effect of elevation in [Ca2+]i on molecular machinery of many proteins may represent a generalized phenomenon. Diabetes mellitus may also be associated with a rise in [Ca2+]i and therefore down-regulation of the mRNA of proteins may also occur. The present study examined the effect of streptozotocin-induced diabetes mellitus in rats on the [Ca2+]i of the renal proximal tubular cells and on their mRNAs of the PTH-PTHrP, V1a and AT1 receptors. The basal levels of [Ca2+]i of these cells increased significantly (P < 0.01) after one day of diabetes and remained elevated thereafter. There was a significant (r = 0.67, P < 0.01) direct correlation between the [Ca2+]i of the cells and blood levels of glucose up to 350 mg/dl, and the value of [Ca2+]i plateaued with higher concentrations of glucose. Three days of amlodipine therapy prevented and reversed the elevated levels of [Ca2+]i despite marked hyperglycemia. The mRNA of all three receptors in the kidney were down-regulated and this defect was prevented by amlodipine which normalized the [Ca2+]i of the cells. The results show that: (1) the hyperglycemia of IDDM in rats causes a significant elevation in the basal levels of [Ca2+]i of the renal proximal tubular cells and down-regulation of their mRNA of PTH-PTHrP, V1a and AT1 receptors; (2) normalization of the [Ca2+]i of these cells by treatment of the diabetic rats with amlodipine prevented the elevation of [Ca2+]i and the down-regulation of the mRNA of these receptors; (3) these effects occurred in the presence of normal renal function and normal blood of PTH and phosphorus.
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PMID:Elevation of [Ca2+]i of renal proximal tubular cells and down-regulation of mRNA of PTH-PTHrP, V1a and AT1 receptors in kidney of diabetic rats. 918 88

Reduced nerve perfusion is an important factor in the etiology of diabetic neuropathy. Studies in streptozotocin-induced diabetic rats show that nerve conduction velocity (NCV) and blood flow deficits are corrected by treatment with vasodilator drugs, with angiotensin II and endothelin-1 antagonists being particularly important. The AT1 antagonist ZD7155 also prevents diabetic deficits in regeneration following nerve damage, indicating that hypoperfusion is an important limitation for nerve repair. Metabolic changes include high polyol pathway flux, increased advanced glycosylation, elevated oxidative stress, and impaired omega-6 essential fatty acid metabolism. Aldose reductase inhibitors (ARIs) restore NCV via their effects on perfusion. ARI action probably depends on blocking the conversion of glucose to sorbitol, thus preventing depletion of vasa nervorum glutathione, an important endogenous free radical scavenger. Free radicals cause vascular endothelium damage and reduced nitric oxide vasodilation. Inhibition of advanced glycosylation and autoxidation (autoxidative glycosylation), major sources of free radicals, by aminoguanidine or transition metal chelators, corrects neurovascular dysfunction. Evening primrose oil supplies gamma-linolenic acid (GLA) to improve vasodilator eicosanoid synthesis in diabetes, correcting nerve blood flow and NCV deficits. Interactions between some of these mechanisms have therapeutic implications. Thus, combined ARI and evening primrose oil treatment produced a 10-fold amplification of NCV and blood flow responses. Similarly, GLA effects are markedly enhanced when given in combination with ascorbate as ascorbyl-GLA. Thus, metabolic abnormalities combine to produce deleterious changes in nerve perfusion that make a major contribution to the etiology of diabetic neuropathy. The potential importance of multi-action therapy is stressed.
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PMID:Metabolic and vascular factors in the pathogenesis of diabetic neuropathy. 928 96

Cellular processes leading to renal tubular hypertrophy may contribute to the development of progressive renal disease. Angiotensin II (ANG II) is a prime agent that has been linked to the progression of renal disease by a host of mechanisms, including the induction of tubular epithelial hypertrophy and stimulation of extracellular matrix biosynthesis. All components of a functional renin-angiotensin system reside within the renal tubule. Epithelial cells exhibit distinct patterns of growth behavior after stimulation with ANG II (namely, hypertrophy of proximal tubule segments and proliferation of more distal segments). The hypertrophic action of ANG II is mediated through high-affinity AT1-receptors, involves activation of pertussis-toxin sensitive G1 proteins, and depends on a decrease in intracellular cAMP. In addition, ANG II induces sequential activation of MAP kinases and S6 kinase, and leads to activation of early immediate genes and the modulation of a series of cyclins and cyclin-dependent kinases. There is also compelling evidence that the ANG II-induced epithelial hypertrophy and the stimulated-synthesis of collagen type IV are mediated by increased transcription and production of TGF-beta. ANG II-mediated inhibition of protein degradation may further increase protein content. The hypertrophic response to ANG II is greater in medium with high glucose concentration. Blockade of the action of ANG II prevents the renal hypertrophy and the tubulointerstitial fibrosis in animal models of chronic renal diseases (independent of changes in systemic or glomerular hemodynamics), in part through interception of ANG II-mediated induction of TGF-beta expression.
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PMID:Renal tubular hypertrophy induced by angiotensin II. 931 13

Using Otsuka Long-Evans Tokushima Fatty (OLETF) rats, a new model of human non-insulin-dependent diabetes mellitus (NIDDM), we examined the role of local angiotensin II in cardiovascular and renal complications of NIDDM. OLETF rats were orally given cilazapril (an angiotensin-converting enzyme inhibitor, 1 or 10 mg/kg), E4177 (an angiotensin AT1 receptor antagonist, 10 mg/kg), or vehicle for 26 or 40 weeks (from the age of 20 to 46 or 60 weeks). Cardiac mRNAs were measured by Northern blot analysis, and the thickening of the coronary arterial wall and the degree of perivascular fibrosis were determined by an image analyzer. Cilazapril or E4177 did not significantly affect body weight or plasma glucose and insulin levels of OLETF rats, indicating the minor effects on diabetes itself. However, both drugs significantly and similarly prevented coronary microvascular remodeling (the increase in wall thickening and perivascular fibrosis in coronary arterioles and small coronary arteries) in OLETF rats, and they were associated with the suppression of cardiac transforming growth factor-beta1 expression. Both drugs suppressed not only the increase in left ventricular weight but also the downregulation of cardiac alpha-myosin heavy chain expression in OLETF rats. Glomerulosclerosis and glomerular hypertrophy in OLETF rats were improved by cilazapril and E4177 to a comparable extent. These results, taken together with the fact that OLETF rats show normal plasma renin levels, support that the AT1 receptor is involved in the pathogenesis of cardiac and renal complications in NIDDM.
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PMID:Angiotensin blockade improves cardiac and renal complications of type II diabetic rats. 936 55

The renin-angiotensin system is associated with a variety of pathophysiological processes in many organ systems, and is known to be involved in the normal regulation of blood pressure and in the pathogenesis of renovascular hypertension. Angiotensin II is a multifunctional hormone that manifests its properties by interacting with two major subtypes of cell surface receptors (AT1 and AT2). Angiotensin converting enzyme (ACE) inhibitors are able to modify the actions of the renin-angiotensin system, and are indicated for the treatment of hypertension and heart disease. The antihypertensive effects of ACE inhibiting drugs are related to their ability to block the conversion of the decapeptide, angiotensin I, to the potent pressor octapeptide, angiotensin II. ACE inhibitors have been implicated in fetopathies in humans and perinatal mortality in rats, rabbits, sheep and baboons. Human fetopathies were seen when ACE inhibitors were given around the 26th week of gestation. The major adverse effects in babies include: oligohydramnios, renal tubular dysgenesis, neonatal anuria, calvarial and pulmonary hypoplasia, mild to severe intrauterine growth retardation, persistent patent ductus arteriosus and fetal or neonatal death. These developmental anomalies are thought to be partly due to a direct action of ACE inhibitors on the fetal renin-angiotensin system and partly due to the ischemia resulting from maternal hypotension and decreases in fetal-placental blood flow and oxygen/nutrient delivery to the fetus. The purpose of this review is to briefly discuss the pathophysiological role of the renin-angiotensin system, the therapeutic uses of ACE inhibitors in pregnant patients and to focus primarily on the major fetotoxic effects of ACE inhibitors encountered in humans and animal models. I will also review our recent data which show that capozide (captopril + hydrochlorothiazide) not only produces oligohydramnios but also disturbs the balance of glucose and NaCl in the maternal plasma and amniotic fluid of the rat.
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PMID:An overview of the influence of ACE inhibitors on fetal-placental circulation and perinatal development. 940 46

To determine whether intrinsic angiotensin II (ANG II) type 1 receptor (AT1-R) stimulation modulates recovery of postischemic mechanical function, we studied the effects of selective AT1-R blockade with losartan on proton production from glucose metabolism and recovery of function in isolated working rat hearts perfused with Krebs-Henseleit buffer containing palmitate, glucose, and insulin. Aerobic perfusion (50 min) was followed by global, no-flow ischemia (30 min) and reperfusion (30 min) in the presence (n = 10) or absence (n = 14) of losartan (1 mumol/l) or the cardioprotective adenosine A1 receptor agonist N6-cyclohexyladenosine (CHA, 0.5 mumol/l, n = 11). During reperfusion in untreated hearts (controls), left ventricular (LV) minute work partially recovered to 38% of aerobic baseline, whereas proton production increased to 155%. Compared with controls, CHA improved recovery of LV work to 79% and reduced proton production to 44%. Losartan depressed recovery of LV work to 0% without altering proton production. However, exogenous ANG II (1-100 nmol/l) in combination with losartan restored recovery of LV work during reperfusion in a concentration-dependent manner, suggesting that postischemic recovery of function depends on intrinsic AT1-R stimulation.
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PMID:Intrinsic ANG II type 1 receptor stimulation contributes to recovery of postischemic mechanical function. 961 59


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