UMLS:C0011849 - FACTA Search

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Query: UMLS:C0011849 (diabetes)
277,896 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The aim of this work was to investigate, in an experimental model of diabetes mellitus, the levels of renin activity in vascular and adrenal tissues and their relationship to several circulating renin-angiotensin system components. Rats with chronic (12 weeks) streptozocin-induced diabetes showed a significant decrease in plasma renin activity (PRA), plasma renin concentration, and plasma aldosterone. However, plasma trypsin activatable inactive renin concentration was increased (11.65 +/- 1.40 vs 6.73 +/- 0.57 ng angiotensin I/ml/hr; p less than 0.001), as were aortic reninlike activity (p less than 0.001) and adrenal renin, both in the zona glomerulosa (p less than 0.01) and the fascicular-reticular-medullary portion (p less than 0.001) with respect to an age-matched control group. After bilateral nephrectomy, plasma renin-angiotensin system components (PRA and plasma active and inactive renin concentrations) as well as aortic and fascicular-reticular-medullary renin activity significantly decreased in both control and diabetic rats. However, glomerular renin activity increased in control nephrectomized rats to the levels observed in diabetic animals but did not change in diabetic nephrectomized rats. The parallel changes of aortic and fascicular-reticular-medullary renin activity and plasma inactive renin concentration in diabetes and nephrectomy suggest an interdependent relationship, whereas the increase of glomerular renin activity in diabetic and nephrectomized animals, both with low levels of PRA, suggests the existence of a local autonomic renin-angiotensin system regulated by plasma feedback. Tissue renin-angiotensin system alterations in diabetes could mean that a pathogenic factor is involved in long-term diabetic complications or that only a compensatory physiological process is at work.
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PMID:Vascular and adrenal reninlike activity in chronically diabetic rats. 328 97

To assess the function of the final step of the pathway for aldosterone biosynthesis, the responsiveness of plasma 18-hydroxycorticosterone and aldosterone concentrations to angiotensin II infusion was studied in 14 patients with nonazotemic diabetes mellitus as compared with 14 normal controls approximately matched for sex and age. In addition, the responses of both steroids to corticotropin injection were investigated in the diabetic patients. Under basal conditions, plasma aldosterone levels were slightly lower in the patients than in normal controls, while plasma 18-hydroxycorticosterone concentrations were similar in the two study groups. Angiotensin II induced marked and comparable increases in plasma 18-hydroxycorticosterone and aldosterone levels in normal and diabetic subjects. Plasma 18-hydroxycorticosterone and aldosterone levels before and after angiotensin II infusion were significantly interrelated; this correlation was similar in normal subjects (r = 0.61; P less than 0.001) and diabetic patients (r = 0.51; P less than 0.005). Plasma 18-hydroxycorticosterone and aldosterone were significantly increased by corticotropin in the patients. These findings indicate that the terminal step of aldosterone biosynthesis, which involves the production of 18-hydroxycorticosterone and aldosterone, is largely unaltered in patients with nonazotemic diabetes mellitus.
Diabetes 1983 Jan
PMID:Responsiveness of plasma 18-hydroxycorticosterone and aldosterone to angiotensin II or corticotropin in nonazotemic diabetes mellitus. 629 99

The relationship between the renin-angiotensin system (RAS) and prostacyclin (PGI2) biosynthesis was studied in experimental diabetic rats. The group with diabetes induced by streptozotocin (STZ, 3.3 mmol/kg i.v.) showed prolonged hypertension, and plasma renin activity decreased markedly from 8.4 +/- 0.7 to 2.4 +/- 0.3 and 1.2 +/- 0.3 ng angiotensin I/ml per h at 2 and 8 weeks after STZ treatment. Plasma PGI2, determined as 6-keto-PGF1 alpha, decreased significantly at 8 weeks, with the values for the STZ-treated and control groups being 1490 +/- 99 and 2210 +/- 90 pg/ml, respectively. Significant suppression of renin release from renal cortical slices was observed at 8 weeks in the diabetic group, although no significant change was found in the renal renin content when compared with that of the controls. The release of PGI2 from the renal medullary slices of the diabetic group was suppressed at 2 and 8 weeks, with the suppression in aorta and renal cortical slices being apparent only at 8 weeks. These results indicate that suppression of the RAS may be related to PGI2 biosynthesis in diabetes mellitus.
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PMID:Renin-angiotensin system and prostacyclin biosynthesis in streptozotocin diabetic rats. 636 Jun 95

Plasma angiotensin II concentrations were measured in 14 patients in diabetic ketoacidosis and in two patients with hyperosmolar non-ketotic hyperglycemia, before treatment and again when blood glucose control was restored. In the ketoacidosis group plasma angiotensin II before treatment was markedly raised in all patients with otherwise uncomplicated diabetes, but was within the normal range in some patients with long-term complications such as neuropathy, retinopathy and nephropathy. Mean angiotensin II before treatment was significantly higher in otherwise uncomplicated patients than in those with long-term complications. However, plasma angiotensin II decreased with improved control in all. Angiotensin II levels did not correlate with indices of rehydration such as changes in blood urea, packed cell volume and calculated changes in plasma volume. There was, however, a significant negative association between pre-treatment angiotensin II and pH. Two patients with hyperosmolar non-ketotic hyperglycemia were more dehydrated but less acidotic. Pre-treatment angiotensin II in each was well below the mean of the ketoacidosis group. These data are further evidence that the renin-angiotensin system may be imparied in diabetics with long-term complications. In addition, they suggest that factors other than fluid depletion are also important in activating the renin-angiotensin system in uncontrolled diabetes.
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PMID:Plasma angiotensin II concentrations in diabetic ketoacidosis and in hyperosmolar non-ketotic hyperglycemia. 678 29

Plasma active and acid activated inactive renin was measured in healthy subjects and in patients with diabetes mellitus. The angiotensin I generated from the incubation of non-acidified plasma with pig renin substrate was expressed as plasma renin concentration (PRC) and that from acidified plasma was expressed as total renin concentration (TRC). The inactive renin concentration (IRC) was calculated as TRC minus PRC. With regard to plasma renin activity (PRA) and PRC, no significant difference was found between normal and diabetic groups. TRC and IRC in diabetics with no clinical sign of microangiopathy were 22.8 +/- 1.7 and 15.2 +/- 1.3 ng/ml/h (mean +/- SE), and these values were not significantly different from those in the healthy subjects (20.5 +/- 1.5 and 13.2 +/- 1.5 ng/ml/h). However, TRC and IRC in diabetics with retinopathy and clinical nephropathy was 38.8 +/- 3.4 and 30.7 +/- 3.2 ng/ml/h, and these values were significantly higher than those in the above two groups, respectively. Moreover TRC and IRC in diabetics with retinopathy and no clinical nephropathy was 33.8 +/- 5.7 and 24.9 +/- 5.5 ng/ml/h, and these values were significantly higher than those in the control group. IRC was not significantly correlated with fasting blood sugar and mean blood pressure levels, however however a significant correlation was found between IRC and BUN, and IRC and P.S.P. excretion in 15 minutes. These findings suggest that increased inactive renin in diabetes mellitus may be related to the progression of the renal lesions associated with diabetic microangiopathy.
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PMID:Plasma active and inactive renin in patients with diabetes mellitus. 699 94

Preglomerular afferent arteriole (Af-Art) is a crucial vascular segment in the control of glomerular hemodynamics. We have recently reported that vascular reactivity of Af-Art is modulated by nitric oxide (NO). However, little is known about its reactivity under pathophysiological conditions such as diabetes, which is often accompanied by abnormal glomerular hemodynamics. In the present study, we examined the direct effects of high glucose, the hallmark of diabetes, on the vascular reactivity of Af-Art. Rabbit Af-Arts were microperfused for three hours with medium 199 containing either normal (5.5 mM; NG-Af-Arts) or high concentrations (30 mM; HG30-Af-Arts) of glucose, and then vascular reactivity was examined. Sensitivity to angiotensin II (Ang II) was significantly higher in HG30-Af-Arts than in NG-Af-Arts. Ang II began to cause significant constriction from 10(-9) M in NG-Af-Arts (18 +/- 3%, N = 6, P < 0.01) and from 10(-11) M in HG30-Af-Arts (9 +/- 2%, N = 6, P < 0.01). NO synthesis inhibition with 10(-4) M nitro-L-arginine methyl ester (L-NAME) increased the sensitivity to Ang II in NG-Af-Arts without affecting Ang II action in HG30-Af-Arts. In L-NAME-pretreated NG-Af-Arts, Ang II began to cause constriction from 10(-11) M (11 +/- 3%, N = 6, P < 0.01). Thus, pretreatment with L-NAME abolished the difference in sensitivity to Ang II between NG- and HG30-Af-Arts, suggesting impaired NO synthesis in HG30-Af-Arts.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:High glucose augments angiotensin II action by inhibiting NO synthesis in in vitro microperfused rabbit afferent arterioles. 747 52

Diabetes mellitus is characterized by alterations in the intrarenal renin-angiotensin system, including decreases in glomerular angiotensin II (Ang II) receptor density. Since Ang II regulates proximal tubule transport function, the present studies examined whether diabetes altered expression of proximal tubule receptors. In basolateral membranes from 14 day streptozotocin-induced diabetic rats, specific binding of 125I Ang II was decreased to 53 +/- 8% of control (3.2 +/- 0.5 vs. 1.5 +/- 0.2 fmol/mg protein; N = 7; P < 0.02). Similarly, in proximal tubule brush border membranes from diabetic animals, specific binding was decreased to 63 +/- 11% of control (1.1 +/- 0.2 vs 0.6 +/- 0.1 fmol/mg protein; N = 9; P < 0.05). Concomitant insulin treatment reversed the decrease in specific binding of 125I Ang II to basolateral membranes (109 +/- 26% of control; N = 3) and to brush border membranes (85 +/- 17% of control; N = 6). In order to determine if changes in expression of type-1 Ang II receptors (AT1R) accompanied the changes in binding, quantitative polymerase chain reaction of AT1R mRNA was performed and expressed as the ratio of the amplified AT1R to that of an Msc1/Msc1 internal deletion mutant and normalized to that of beta-actin. In total RNA from proximal tubule suspensions of diabetic animals, AT1R mRNA expression decreased by 38% (21 +/- 3 vs. 13 +/- 2 cpm AT1R/cpm deletion mutant/cpm beta actin/10(6); N = 4; P < 0.0025). Insulin treatment reverted AT1R mRNA expression to control levels (22 +/- 3 cpm AT1R/cpm deletion mutant/cpm beta actin/10(6); P < 0.001 compared to the untreated group).(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Reduced proximal tubule angiotensin II receptor expression in streptozotocin-induced diabetes mellitus. 770 17

Angiotensin II (Ang II) has been implicated in the pathogenesis of the vascular injury associated with hypertension and diabetes mellitus. Increased vascular permeability is an important early manifestation of endothelial dysfunction and the pathogenesis of atherosclerosis. How Ang II contributes to endothelial dysfunction and promotes an increase in vascular permeability is unknown but is classically attributed to its pressor actions. We demonstrate that human vascular smooth muscle cells express abundant mRNA for vascular permeability/endothelial growth factor. Vascular permeability factor is a 34- to 42-kD glycoprotein that markedly increases vascular endothelial permeability and is a potent endothelial mitogen. Ang II potently induced a concentration-dependent (maximal, 10(-7) mol/L) and time-dependent increase in vascular permeability factor mRNA expression by human vascular smooth muscle cells that was maximal after 3 hours and diminished by 24 hours. Ang II-induced vascular permeability factor mRNA expression by human vascular smooth muscle cells was inhibited by the specific Ang II receptor antagonist losartan (DuP 753), confirming that this is an Ang II receptor subtype 1-mediated event. These results describe a new action of Ang II on human vascular smooth muscle, notably the induction of vascular permeability factor mRNA expression. The wide spectrum and potent activity of vascular permeability factor suggest a novel mechanism whereby Ang II could locally and directly influence the permeability, growth, and function of the vascular endothelium independent of changes in hemodynamics.
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PMID:Angiotensin II increases vascular permeability factor gene expression by human vascular smooth muscle cells. 773 26

1. Venous resistance contributes very little to total peripheral resistance; more than half of the total blood volume, however, is contained in the extrathoracic veins. Owing to marked differences between venous and arterial anatomy and physiology, studies on veins and arteries usually require different methodological approaches. Whereas for arteries the most relevant parameters are resistance, pressure and flow, for veins volume and compliance are most important. For studies of general aspects of the peripheral circulatory system, venous occlusion plethysmography is probably the most useful method. The determination of both the rate of rise in limb volume and the total volume rise after inflating a proximally applied occlusion cuff to a subdiastolic pressure permits the concomitant estimation of both arterial flow and venous compliance. 2. Studies of direct pharmacological or physiological effects on veins, interactions of various pharmacological or physiological stimuli, or pathophysiological changes in venous responsiveness have been facilitated by the development of investigational techniques relying on direct measurements of the compliance of single human veins in vivo. One of these, relying on the use of a linear variable differential transformer (LVDT) for determining changes in the compliance of superficial veins at a standardized congestion pressure, has been found very suitable for the practical application in both patients and healthy subjects. 3. Physiological studies were carried out on the effect of age, exercise, temperature, and the menstrual cycle on venous compliance and venous responsiveness to various stimuli. In addition, interindividual variability in venous responsiveness in monozygotic and dizygotic twins and in unrelated subjects was investigated, and studies on the function of the endothelium were carried out in man in vivo. 4. Pathophysiological studies using this technique were reported from patients with hypertension, orthostatic hypotension, myocardial infarction, varicosis, cystic fibrosis, asthma, diabetes, systemic sclerosis, and cluster headache. 5. Clinical pharmacological studies represent a most important field for the use of this method. Studies were carried out on the effects of a large number of constrictor and dilator agents, and also on drug interactions on human veins in vivo. Venoconstriction was observed after local administration of alpha-adrenoceptor and 5-HT-receptor agonists, ergot derivatives, angiotensinogen, angiotensin I and II, and several prostaglandins. 6. Owing to the low venous tone present under effects can usually be quantified only on veins e.g. noradrenaline or 5-hydroxytryptamine. Under these conditions dilatation was observed after the administration of beta-adrenoceptor agonists, cholinergic (muscarinic) agonists, nitrates, calcium antagonists, bradykinin, substance P and several prostaglandins.
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PMID:Clinical pharmacology, physiology and pathophysiology of superficial veins--1. 782 19

1. Angiotensin II (AII) plays a major role in cardiovascular function via direct actions on the vasculature, kidney, adrenal, heart, brain and sympathetic nerves. The cellular effects of AII are extensive and encompass hypertrophy, hyperplasia and the deposition of extracellular matrix. 2. The actions of AII are mediated by the AT1 and AT2 membrane receptor subtypes, and additional forms of each subtype. Evidence is emerging that selective changes in AII receptor subtypes occur in cardiovascular diseases. 3. Thyroid dysfunction increased cardiac, liver and kidney AII receptor density but decreased adrenal gland receptor density. In the heart, there was a selective increase in AT2 receptor density. 4. Diabetes increased cardiac, liver and adrenal gland AII receptor densities but decreased kidney receptor density. 5. Hypertension increased AII receptor density in the heart and kidney. A corresponding increase in receptor mRNA was prevented by selective AT1 receptor antagonists. 6. The human heart contained AII receptors in all chambers; right atrial receptor density was increased in coronary artery bypass graft patients. 7. The presence of AII receptor changes in these models of cardiac hypertrophy and hypertension raises the possibility of using orally active, subtype-selective agonists and antagonists to treat particular forms of cardiovascular diseases.
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PMID:Angiotensin receptors in cardiovascular diseases. 786 32

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