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Query: UMLS:C0011854 (type 1 diabetes)
 20,749 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

It has been demonstrated previously that moderate hyperglycemia without glucosuria can increase plasma renin activity and mean arterial pressure in young healthy males with early uncomplicated type 1 diabetes mellitus. This study was conducted to extend these observations by testing the hypothesis that mild to moderate hyperglycemia can affect renal function by increasing renin angiotensin system (RAS) activity in diabetic humans. The study included 10 men and women with early, uncomplicated type 1 diabetes (duration <5 yr), all ingesting a controlled sodium and protein diet. They were studied on four separate occasions, during a subdepressor dose of the angiotensin II (AngII) receptor blocker losartan, and during graded AngII infusion, 1.5 and 2.5 ng/kg per min, while euglycemic (blood glucose 4 to 6 mmol/L) and again while hyperglycemic without glucosuria (blood glucose 9 to 11 mmol/L), according to a randomized crossover design. Outcome measures included mean arterial pressure (MAP), GFR, effective renal plasma flow (ERPF), renal vascular resistance (RVR), filtration fraction (FF), and urine sodium excretion (UNaV) at baseline and in response to the above maneuvers. During hyperglycemic conditions, MAP was significantly higher compared with euglycemia, as were RVR and FF. After the administration of losartan, a significant renal and peripheral depressor effect was noted, with decreases in MAP, RVR, and FF, whereas during euglycemia the responses to losartan were minimal. AngII infusion resulted in elevations in MAP, RVR, and FF and a decline in UNaV during both glycemic phases, but the responses during hyperglycemia, most significantly at the 1.5 ng/kg per min infusion rate, were blunted. These data support the hypothesis that hyperglycemia affects renal function by activating the RAS. The mechanism remains obscure, but these contrasting responses may provide a link between the observations that maintenance of euglycemia and blockade of the RAS prevent or delay diabetic kidney disease, and furthermore, may clarify the mechanism whereby high glucose promotes renal disease progression in diabetes.
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PMID:Impact of hyperglycemia on the renin angiotensin system in early human type 1 diabetes mellitus. 1044 46

It is well documented that diabetic patients with chronic complications have decreased renin secretion and elevations in the renin precursor prorenin. It is uncertain, however, whether the abnormal processing of prorenin is reflective of microvascular disease, hypertension, or autonomic neuropathy. Dechaux et al. (Transplant Proc. 18:1598-1599, 1986) observed abnormalities in prorenin processing in uncomplicated diabetes and suggested that it was the result of subclinical autonomic neuropathy. To test this hypothesis, we measured renin, prorenin, and autonomic function in early type 1 diabetes at a time when there is little or no microvascular disease or hypervolemia. Thirty-seven patients (10 males, 27 females) enrolled 2-22 months after diagnosis in a longitudinal study in which renin, prorenin, and autonomic function were measured annually for 3 years. Forty-one age-matched control subjects were also studied. PRA in the diabetic patients at the time of the second and third evaluations was 1.71 +/- 0.24 ng angiotensin I/mL x h and 1.67 +/- 0.24 ng angiotensin I/mL x h, respectively, significantly lower (P < 0.05) than that of the control subjects in whom PRA was 2.96 +/- 0.38 ng angiotensin I/mL x h. Prorenin was not different in the diabetic patients in comparison with controls. The renin to prorenin ratio in the diabetic patients at the time of the first, second, and third evaluations was 0.260 +/- 0.03, 0.235 +/- 0.05, and 0.227 0.05, respectively, significantly lower (P < 0.01) than in control subjects in whom the renin to prorenin ratio was 0.475 +/- 0.08. Despite this, at the time of the first and second evaluations, there was no evidence of autonomic dysfunction and no correlation between any test of autonomic function and the renin to prorenin ratio. At the time of the third evaluation, however, the intermediate frequency (0.04-0.15 Hz) power spectra while patients were supine (an index of sympathetic modulation of heart rate variability) showed a highly significant (P < .001) correlation with the renin to prorenin ratio. High frequency (0.15-0.40 Hz) spectra from supine patients at the third evaluation also correlated with the renin to prorenin ratio (P < 0.01). We conclude abnormal processing of prorenin develops in diabetic patients prior to microvascular disease, even before the first evidence of autonomic dysfunction. Although the latter may play a contributory role, additional as yet unidentified mechanisms seem to interrupt the processing of prorenin in early diabetes.
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PMID:Decreased prorenin processing develops before autonomic dysfunction in type 1 diabetes. 1069 Aug 59

Recent studies suggest that there is an association between the A1166-->C polymorphism of the angiotensin II type 1 receptor (AGT1R), glycemic control, and the risk of diabetic nephropathy in subjects with type 1 diabetes. Because hypertension and renal hemodynamic function are also related to the risk of diabetic nephropathy and because hyperglycemia can activate the renin angiotensin system, we sought to determine if there is an association between the AGT1R polymorphism, baseline renal and peripheral hemodynamic function, and pressor response to high glucose in subjects with early uncomplicated type 1 diabetes. There were 39 diabetic subjects genotyped for the AGT1R polymorphism by polymerase chain reaction and segregated into 2 groups: those with and those without the C1166 allele (AA and AC/CC). The average age was 27 +/- 1 years, and the mean duration of diabetes was 3.5 +/- 0.6 years. HbA(1c) values were <10% in all subjects and were similar in the 2 groups (8.2 +/- 0.3 vs. 9.1 +/- 0.4%). After a 7-day controlled diet (150 mmol sodium, 1.5-2.0 g x kg(-1) x day(-1) protein), renal hemodynamic function was assessed by inulin and para-aminohippurate clearance during clamped euglycemic conditions (4-6 mmol/l). Mean values for glomerular filtration rates did not differ between groups during euglycemia. In contrast, mean values for renal plasma flow and renal blood flow were significantly greater in the AC/CC group compared with the AA group. Values for mean arterial pressure were similar in the 2 groups, whereas renal vascular resistance was significantly reduced in the AC/CC group. In 20 subjects (10 from each genotype subgroup), hemodynamic function was assessed on a second occasion during controlled clamped hyperglycemia (9-11 mmol/l) after a similar preparatory period. In response to high glucose, plasma renin activity increased in both genotype groups to the same extent, but a pressor response was noted only in subjects with the C1166 allele. Mean arterial pressure increased significantly in the AC/CC subgroup and remained unchanged in the AA subgroup. We conclude that there is an association between the AGT1R A1166-->C polymorphism and renal hemodynamic function in early type 1 diabetes. But more importantly, the pressor response to hyperglycemia is augmented in those diabetic patients with the C1166 allele and may represent a factor that predisposes them to renal injury during periods of inadequate glucose control.
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PMID:Angiotensin II type 1 receptor gene polymorphism and the response to hyperglycemia in early type 1 diabetes. 1096 44

The 825T allele of the gene GNB3 which encodes the beta 3 subunit of heterotrimeric G proteins is associated with enhanced signal transduction via G proteins through the generation of a splice variant termed Gbeta3s. It was detected following a classical candidate gene approach using cell lines from patients with enhanced signal transduction and essential hypertension. The high frequency of the 825T allele in 'old' ethnicities, e.g. bushmen and Australian aborigines as well as in black populations, together with its strong association with obesity suggests that the 825T allele is a true 'thrifty genotype'. Development of obesity associated with the 825T allele is strongly influenced by lifestyle, e.g. physical activity, and other exogenous influences like pregnancy. In hypertension the 825T allele is associated with low renin activity and appears to strongly predict the development of left ventricular hypertrophy. In type 2 diabetes the 825T allele was reported to be predispose for end-stage renal disease, whereas this effect has not yet been confirmed for patients with type 1 diabetes.
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PMID:G protein beta 3 subunit 825T allele, hypertension, obesity, and diabetic nephropathy. 1139 Jul 42

Patients with diabetic neuropathy typically have decreased sweating in the feet but excessive sweating in the upper body. Previous studies of sudomotor function in diabetes have included patients with longstanding disease. The present study was designed to test for the early presence of sudomotor dysfunction and to characterize its relation to glycemic control and other aspects of peripheral nerve function. A total of 37 patients (10 males, 27 females) enrolled in a longitudinal study, in which autonomic function was evaluated annually for 3 years. Patients enrolled 2-22 months after the diagnosis of type 1 diabetes. Forty-one age- and sex-matched healthy control subjects were also studied. Sweat production in response to acetylcholine stimulation was dramatically increased in the forearm at the time of the first evaluation (1.67 +/- 0.24 micro/cm2 in the diabetic patients vs. 1.04 +/- 0.14 microl/cm2 in the control subjects, P < 0.05). Likewise, the ratio of sweating in the forearm to sweating below the waist was higher in the diabetic patients (0.553 +/- 0.07 microl/cm2) than in the control subjects (0.385 +/- 0.04 microl/cm2, P < 0.05). Forearm sweat was negatively associated with the renin-toprorenin ratio and vanillylmandelic acid (VMA) excretion (P < 0.025), tests of sympathetic nerve function. The ratio of sweating in the forearm to sweating in the foot was likewise increased in diabetic patients with poor glycemic control. We interpret this redistribution of sudomotor responses to be indicative of sympathetic nerve injury and conclude 1) that the sympathetic nervous system is especially vulnerable to the adverse effects of chronic hyperglycemia and 2) that sympathetic dysfunction can be detected very early in type 1 diabetes.
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PMID:Redistribution of sudomotor responses is an early sign of sympathetic dysfunction in type 1 diabetes. 1127 58

The role of genetic investigations in diabetes one can describe in aspect of their role in the pathogenesis of type 1 and type 2 as well as in pathogenesis of chronic complications and gene therapy of diabetes. There is not only one gene responsible for type 1 diabetes. Similarly there are many gene-candidates in type 2 diabetes. Only in 6 types of MODY the genes responsible for beta-cell dysfunction were described. In diabetic complications some role e.g. in retinopathy may be played by genes of growth factors, heparan sulfate synthesis as well as genes of adrenergic receptor beta 3. In diabetic nephropathy the genes of renin synthesis, converting enzyme, aldose reductase or angiotensin receptor can be of importance. It should be emphasized that identification of human genome and genes responsible for diabetes can contribute to introduction of gene therapy in diabetes.
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PMID:[The role of genetic studies in finding the etiopathogenesis of diabetes mellitus]. 1129 31

Diabetic Nephropathy (DN) is the commonest cause of end-stage renal failure (ESRF) in the Western world. Diabetic nephropathy follows a well outline clinical course, starting with microalbuminuria through proteinuria, azotaemia and culminating in ESRF. Before the onset of overt proteinuria, there are various renal functional changes including renal hyperfiltration, hyperperfusion, and increasing capillary permeability to macromolecules. Basement-membrane thickening and mesangial expansion have long been recognized as pathological hallmark of diabetes. It has been postulated that DN occurs as a result of the interplay of metabolic and hemodynamic factors in the renal microcirculation. There is no doubt that there is a positive relationship between hyperglycaemia, which is necessary but not sufficient, and microvascular complications. The accumulation of advanced glycosylated end-products (AGEs), the activation of isoform(s) of protein kinase C (PKC) and the acceleration of the aldose reductase pathway may explain how hyperglycemia damages tissue. PKC is one of the key signaling molecules in the induction of the vascular pathology of diabetes. The balance between extracellular matrix production and degradation is important in this context. Transforming growth factor-beta (TGF-beta) appears to play a pivotal role in accumulation in the diabetic kidney. Hemodynamic disturbances are believed to be directly responsible for the development of glomerulosclerosis and its attendant proteinuria. There is familial clustering of diabetic kidney disease. A number of gene loci have been investigated to try to explain the genetic susceptibility to diabetic nephropathy. The genes coding for components of renin-angiotensin system have drawn special attention, due to the central role that this system plays in the regulation of blood pressure, sodium metabolism, and renal hemodynamics. Endothelial dysfunction is closely associated with the development of diabetic retinopathy, nephropathy and atherosclerosis, both in IDDM and in NIDDM. The pathogenesis of diabetic nephropathy is not clarified completely yet.
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PMID:Pathogenesis of diabetic nephropathy. 1146 May 89

Uncontrolled hypertension leads to an increased risk of cardiovascular disease and stroke. Hypertensive patients with concomitant type 2 diabetes are at even greater risk of cardiovascular complications; also, this high-risk patient population is at increased risk of renal disease and, ultimately, renal failure. Prospective morbidity and mortality trials have demonstrated that tight blood pressure control improves the cardiovascular prognosis and provides target organ protection. Current treatment guidelines recommend a target blood pressure of < 130/85 mm Hg for patients with hypertension and diabetes. Angiotensin II (A-II), a major component of the renin-angiotensin system, plays an essential role in the pathophysiology of hypertension and diabetes-related renal disease. Currently, the treatment of choice for hypertensive patients with diabetes is angiotensin-converting enzyme (ACE) inhibition, but most of the data are limited to patients with type 1 diabetes. Although ACE inhibition is clearly a mechanism for blocking A-II formation, inhibition at this site may not be complete, as alternate pathways exist for A-II formation. Thus, for interrupting the renin-angiotensin system, A-II receptor antagonists theoretically provide advantages over ACE inhibitors in that they directly inhibit A-II by binding to the AT(1) receptor subtype. The objectives of this review are to: 1) provide an overview of the associated risk of cardiovascular complications with concomitant hypertension and diabetes; 2) demonstrate the cardiovascular benefits of effective blood pressure control in this patient population; 3) review the current treatment guidelines for managing high-risk hypertensive patients; and 4) discuss major, ongoing clinical studies with A-II receptor antagonists in patients with concomitant hypertension, type 2 diabetes, and renal disease. (c)2001 Le Jacq Communications, Inc.
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PMID:Management of high-risk hypertensive patients with diabetes: potential role of angiotensin II receptor antagonists. 1149 50

The existence of a hyperactive hypothalamic pituitary adrenal (HPA) axis in diabetics and its relevance to diabetic complications has been controversial. In this study we determined the 24 hour urinary excretion of free cortisol (UFC), its nyctohemeral variation and its relation to indices of diabetic angiopathy. In 130 subjects with IDDM, aged 15.2+/-4.8 years and diabetes duration 7.3+/-5 years, and in 48 controls of comparable age, UFC, urinary endothelin (UET1), urinary albumin, HbA1c, and plasma renin were determined. The total 24-hour UFC excretion was greater in diabetics than in controls (p=0.002) and also greater in diabetic males than in females (p=0.006), while no sex difference was detected in the controls. Day UFC excretion was greater than night UFC excretion (p<0.001) in all subjects. UFC correlated to carotid intimal plus medial thickness (r=0.48, p=0.002), urinary albumin (r=0.50, p<0.001), UET1 (r=0.56, p<0.001), diastolic, systolic and mean blood pressure (r=0.27, p=0.003; r=0.41, p<0.001; r=0.34, p<0.001), BMI (r=0.50, p<0.001), serum creatinine (r=0.35, p<0.001), total cholesterol (r= -0.19, p=0.036), HDL (r= -0.22, p=0.038), LDL (r= -0.23, p=0.032), age (r=0.61, p<0.001) and diabetes duration (r=0.37, p<0.001). These results suggest that hyperactivity of the HPA axis or of the adrenals, due to chronic stress, hypoglycemic episodes or other factors, possibly contributes to the establishment or progression of diabetic micro- or macroangiopathy.
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PMID:Urinary free cortisol and its nyctohemeral variation in adolescents and young adults with IDDM: relation to endothelin 1 and indices of diabetic angiopathy. 1151 60

Polymorphisms of the genes for angiotensin-converting enzyme (ACE) and angiotensinogen, the proteins of the renin-angiotensin system (RAS), were tested for association with the polymetabolic syndrome (PMS) and non-insulin-dependent diabetes mellitus (NIDDM) in the Moscow population. The insertional (I) allele and genotype II of the ACE gene proved to be associated with PMS. A significant difference in allele and genotype frequency distributions of the (CA)n microsatellite of the 3'-untranslated exon of the angiotensinogen gene was revealed between randomly sampled individuals and patients with PMS and IDDM from the Moscow population.
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PMID:[Analysis of polymorphic variants of renin-angiotensin system genes in polymetabolic syndrome and non-insulin-dependent diabetes]. 1176 17


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