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 response to vasoactive agents of microvessels of the rat was tested in vivo by direct microscopic observation of the exteriorized mesentery and assessment of cutaneous vascular permeability changes with Evans blue. The constrictor response to a standard amount of noradrenaline in mesenteric microvessels was fully antagonized by acetylcholine in normal, diabetic, adrenalectomized and diabetic-adrenalectomized rats. In contrast, the minimum doses of histamine or bradykinin, effective in normal or adrenalectomized animals, had to be increased about 20 fold to be active in diabetic or diabetic-adrenalectomized animals. Topical application of insulin to mesenteric microvessels of diabetic animals, in amounts not causing any increase in serum insulin levels, improved or restored the capacity of the animals to respond to histamine or bradykinin, acting as antagonists of the vasoconstrictor response to noradrenaline. Topical insulin, however, was ineffective in normal animals given 2-deoxyglucose, the acute effects of which result from cellular glucopaenia unrelated to insulin deficiency. Vascular permeability responses to intracutaneous histamine or bradykinin were decreased in animals pretreated with 2-deoxyglucose as much as in diabetic animals. Pretreatment of normal animals with indomethacin produced no effect on the responses of these animals to histamine or bradykinin, tested as antagonists of noradrenaline on mesenteric microvessels, or as vascular permeability-increasing factors in the skin. Pretreatment of normal animals with chloroquine, mepacrine or dexamethasone had no effect on the reactivity of mesenteric microvessels to histamine and bradykinin, acting as antagonists to noradrenaline. 7 It is suggested that vasoactive substances, endowed with permeability-increasing properties, evoke relaxation of microvessels through an insulin-dependent action on endothelial cells, unrelated to the release of arachidonic acid metabolites. This action would lead to increased vascular permeability, with opening of interendothelial junctions, and temporary changes in composition of extravascular fluid, which in turn, would provide the basis for vasodilatation. Diabetes mellitus apparently impairs such responses as a result of the accompanying cellular glucopaenia. Adrenal corticosteroids are not involved in the impaired responses.
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PMID:Vascular reactivity in diabetes mellitus: possible role of insulin on the endothelial cell. 643 70

The response to vasoactive agents of microvessels in situ and large arteries in vitro was compared in normal and alloxan-diabetic rats. Noradrenaline was equally effective in evoking a constrictor response of mesenteric microvessels in normal and diabetic animals. The constrictor response to a standard amount of noradrenaline in such vessels was fully antagonized by acetylcholine or papaverine, the minimum effective doses being equivalent in normal and diabetic animals. In contrast, the minimum doses of histamine or bradykinin, effective in normal animals, had to be increased about 20 fold to be active in diabetic animals. Increased osmolarity of extracellular fluid caused a significant and equivalent increase in latency of the vasoconstrictor response of microvessels to noradrenaline in normal and diabetic animals. Concentration-effect curves, constructed from the response of isolated aortae to noradrenaline, were similar in normal and diabetic animals, provided the endothelium was removed. Diabetes only affected preparations in which the endothelium was left intact. In these, the median effective concentrations of noradrenaline were greatly increased in comparison with normal values. Precontracted aortae from normal and diabetic animals were equally relaxed by acetylcholine and histamine, provided the endothelium was left intact. Loss of the relaxant response of the preparations in all groups of animals was observed following removal of endothelial cells. It is suggested that different mechanisms may be involved in the effects of vasodilator agents on large arteries in vitro or small vessels in situ. Histamine and bradykinin which are potent permeability-increasing factors, may antagonize the vasoconstrictor response of microvessels to noradrenaline through an action on endothelial cells with increased vascular permeability and temporary changes in composition of extracellular fluid. The reactive process of endothelial cells to permeability factors was affected by diabetes mellitus. However, the response of microvessels to acetylcholine and papaverine which are devoid of permeability-increasing properties, was not influenced by diabetes.
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PMID:Vascular reactivity in diabetes mellitus: role of the endothelial cell. 665 56

1 Noradrenaline (NA) evoked a vasoconstrictor response in rat mesenteric microvessels in situ, the latency and nature of which was analogous in normal and alloxan-diabetic animals.2 Histamine and bradykinin (Bk) were capable of antagonizing the response to NA in normal but not in diabetic animals. In contrast, acetylcholine (ACh) was equally effective as an antagonist to NA in both groups of animals.3 The altered responses to histamine and Bk were not associated with hyperglycaemia since fasting rendered the diabetic animals normoglycaemic and yet did not restore the reactivity of microvessels. Previous administration of insulin to diabetic animals corrected the impaired responses to histamine and Bk.4 A similar condition of impaired responses to histamine and Bk was produced in normal animals by the intravenous injection of 2-deoxyglucose although ACh remained fully active.5 Apparently, the functional changes observed in the response to histamine or Bk, as antagonists of the vasoconstrictor reaction to NA, were not associated with a defective response of all smooth muscle. First, because ACh remained active in diabetic animals, and, second, because extravascular smooth muscles obtained from either normal or diabetic rats were equally relaxed by histamine or Bk in vitro.6 It is suggested that histamine and Bk antagonized the vasoconstrictor response of microvessels to NA through an action on lining endothelial cells resulting in increased vascular permeability and hyperosmolarity of extracellular fluids.7 The process depended on the availability of insulin, and, therefore, might be affected by intracellular glucopaenia as occurring in diabetes.8 Intracellular glucopaenia markedly affected other structures. Reduced atria rates were observed in diabetes, despite the fact that the isolated preparation responded normally to NA, ACh or tyramine. Partial substitution of glucose in the bathing fluid by 2-deoxyglucose or addition of NaF to the organ bath evoked similar changes in atria from normal animals.9 ACh which has little effect on vascular permeability must exert its vasodilator effects through mechanisms which are different from those influenced by the biochemical changes occurring in diabetes.
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PMID:Influence of diabetes on the reactivity of mesenteric microvessels to histamine, bradykinin and acetylcholine. 682 15

Nitric oxide (NO), a potent vasodilator produced by endothelial cells, is thought to be the endothelium-dependent relaxing factor (EDRF) which mediates vascular relaxation in response to acetylcholine, bradykinin and substance P in many vascular beds. NO has been implicated in the regulation of blood pressure and regional blood flow, and also affects vascular smooth-muscle proliferation and inhibits platelet aggregation and leukocyte adhesion. Abnormalities in endothelial production of NO occur in atherosclerosis, diabetes and hypertension. Pharmacological blockade of NO production with arginine analogues such as L-nitroarginine (L-NA) or L-N-arginine methyl ester affects multiple isoforms of nitric oxide synthase (NOS), and so cannot distinguish their physiological roles. To study the role of endothelial NOS (eNOS) in vascular function, we disrupted the gene encoding eNOS in mice. Endothelium-derived relaxing factor activity, as assayed by acetylcholine-induced relaxation, is absent, and the eNOS mutant mice are hypertensive. Thus eNOS mediates basal vasodilation. Responses to NOS blockade in the mutant mice suggest that non-endothelial isoforms of NOS may be involved in maintaining blood pressure.
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PMID:Hypertension in mice lacking the gene for endothelial nitric oxide synthase. 754 86

1. There is growing evidence that an impairment in the function of nitric oxide synthase may play a role in the vascular complications of diabetes mellitus. The relaxation of resistance arteries from the mesenteric and hindlimb circulations of streptozotocin-induced diabetic rats and age-matched controls were investigated using two endothelium-dependent vasodilators, bradykinin and acetylcholine, and the endothelium-independent vasodilator sodium nitroprusside. The contractile responses to the alpha 1-adrenergic agonist phenylephrine were also studied. 2. Endothelium-dependent relaxation to acetylcholine was impaired in the diabetic rats in arteries from both mesenteric and hindlimb circulations (hindlimb pEC50, 7.93 +/- 0.08 in the control compared with 7.38 +/- 0.10 in the diabetic rat; mesenteric pEC50, 7.47 +/- 0.04 in the control compared with 6.65 +/- 0.06 in the diabetic rat; unpaired t-test P < 0.0001). Bradykinin elicited relaxation in only the mesenteric arteries, and this was not attenuated in the diabetic rats compared with controls. 3. Endothelium-independent relaxation to sodium nitroprusside was similar in the two circulations and was not abnormal in the diabetic rats. There was no significant difference in constrictor responses to phenylephrine between diabetic rats and controls in either the hindlimb or mesenteric arteries, in contrast to an earlier study in which we showed increased sensitivity to noradrenaline. 4. The diabetic rats therefore demonstrated a specific impairment of receptor-mediated endothelium-dependent relaxation to acetylcholine. These results suggest that, in this diabetic model, the ability of the endothelium to relax arteries via nitric oxide may involve a defect of a specific signal transduction pathway, leading to reduced production of nitric oxide.
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PMID:Selective impairment of acetylcholine-mediated endothelium-dependent relaxation in isolated resistance arteries of the streptozotocin-induced diabetic rat. 761 10

ODU Plaque-susceptible rats (ODUS/Odu) exhibit markedly heavy plaque formation in the lower incisors and develop both periodontal pockets and gingivitis after being fed a commercially available powder diet. These rats have been established as an inbred strain. We have demonstrated that the ODUS/Odu are a very suitable experimental model for studying periodontitis. We already reported about the allelic distribution, changes of plaque formation and body weight, biochemical nature, toxic activity, vascular permeability factor and bradykinin inactivating factor of the plaque, histological and immunological studies, the pH in the periodontal pocket, amount of saliva, IgA in the saliva, salivary kallikrein, the relationship between sialic acid in the saliva and the serum, leukocyte functions (chemotaxis and superoxide anion) in ODUS/Odu, histamine, mast cell, free radicals, superoxide dismutase activities in gingiva and gingival nerve fibers with substance P or calcitonin gene-related peptide, and effect of diabetes. Streptozotocin-induced diabetic ODUS/Odu may be a useful tool for studying the pathological mechanisms in the development of periodontal tissue breakdown in diabetes. ODUS/Odu should help to further establish the utility of this strain as a model for experimental periodontal disease.
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PMID:[Experimental periodontitis in rats]. 762 82

Microvascular clearance of FITC-Dextran 150 (fluorescein isothiocyanate dextran, MW 150,000) was studied in cremaster muscles of control (BB/W-R) and diabetic (BB/W-DM) rats following daily injections of a full (FD) or a 1/2 (reduced; RD) dose of insulin. The cremaster muscle was placed in an intravital chamber and superfused with bicarbonate buffer (pH 7.4, equilibrated with 95% N2-5% CO2). A 1-hour period of stabilization was followed by the i.v. injection of FITC-dextran 150 and an equilibration period of 45 min. Suffusate samples were collected for 1 h for control measurements. Following this period, bradykinin was applied topically at a concentration of 10(-7) M. Samples were collected for a final hour for the assessment of clearance. The mean +/- SEM FITC-dextran 150 clearance values (microliter/60 min/g) for BB/W-R, BB/W-DM FD, and BB/W-DM RD were 11.5 +/- 1.8, 14.8 +/- 3.4, and 90.5 +/- 12.0, respectively. The corresponding values after topical application of 10(-7) M bradykinin were 23.7 +/- 5.9, 24.2 +/- 4.4, and 98.7 +/- 25.0. Our results indicate that bradykinin evokes a twofold increase in FITC-dextran 150 clearance in the BB/W-R (control) animals and in the BB/W-DM rats receiving full-dose insulin. In contrast, bradykinin does not further enhance the eightfold increase in FITC-Dextran 150 clearance observed in the reduced-insulin dose-treated BB/W-DM group. Thus, our data show that insulin, administered at a full dose, protects the functional integrity of microvascular perm-selectivity in diabetes mellitus.
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PMID:Microvascular clearance of macromolecules in skeletal muscle of spontaneously diabetic rats. 768 75

Hypertension and diabetes mellitus often co-exist and both conditions may be expected to cause synergistic vascular damage. Our group has introduced an animal model for simultaneously occurring hypertension and diabetes mellitus by treating spontaneously hypertensive rats with streptozotocin (STZ). We investigated the drug-induced endothelium-independent and -dependent relaxation in isolated mesenteric small arteries (resistance vessels). Concerning the influence of hypertension, the responses to sodium nitroprusside, methacholine, histamine and nifedipine proved unchanged, the vasodilator response to bradykinin was diminished, whereas that to the K(+)-channel opener cromakalim was enhanced. With respect to the influence of STZ-induced diabetes we found that the responses to sodium nitroprusside, methacholine and nifedipine were unchanged, and that to cromakalim was enhanced, also when the preparations were pretreated with glibenclamide. The responses to histamine (STZ WKY versus control WKY) and bradykinin (STZ SHR versus control SHR) proved enhanced in the isolated vessels taken from diabetic animals. These findings suggest that the influence of the diabetic state is more pronounced than that of hypertension. However, our findings do not indicate that either hypertension or diabetes is associated with generalised endothelial damage in the resistance arteries.
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PMID:Drug-induced endothelium-dependent and -independent relaxations in isolated resistance vessels taken from simultaneously hypertensive and streptozotocin-diabetic rats. 770 91

Angiotensin converting enzyme (ACE) inhibitors not only reduce angiotensin II (ANG II) levels but also inhibit kinin degradation. The relative roles of ANG II and bradykinin in the acute action of ACE inhibitors on renal hemodynamic parameters in rats after 3 wk of diabetes were explored using antagonists of the ANG II type 1 (AT1) and the bradykinin B2 receptors. Conscious control and streptozotocin diabetic male Sprague-Dawley rats were randomized to receive vehicle, the ACE inhibitor, ramiprilat, the B2-receptor blocker, HOE-140, the AT1-receptor blocker, valsartan, or the combination of ramiprilat and HOE-140. Systolic blood pressure, glomerular filtration rate (GFR), renal plasma flow (RPF), filtration fraction and urinary flow, and sodium excretion were assessed before and during treatment. Diabetic animals had higher GFR and a tendency toward increased RPF and filtration fraction compared with control animals. Acute ramiprilat infusion decreased GFR significantly in diabetic but not in control animals. Valsartan and the combination of ramiprilat and HOE-140 reduced blood pressure to a similar degree to ramiprilat alone, yet did not reduce GFR. No decrease in GFR was observed in any control rat groups. Ramiprilat decreased RPF in diabetic rats but increased RPF in control rats. No such effects on RPF were observed with valsartan. HOE-140 alone did not influence any renal parameter in the diabetic rats. Diabetic rats had increased urinary flow and sodium excretion, but these parameters were not influenced by any drug regimen.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Acute renal hemodynamic effects of ACE inhibition in diabetic hyperfiltration: role of kinins. 773 15

The vascular wall itself, through a complex interplay of endocrine, neurocrine and autoparacrine mechanisms, plays an active role in vascular homeostasis. The endothelial cell senses humoral and hemodynamic changes and responds by secreting a variety of metabolically active substances that act locally causing either vasodilatation or vasoconstriction. Kallikrein (KK) and the mRNA for KK are present in arteries and veins. Vascular KK releases kinins from kininogen which circulate in plasma and is also present in vascular tissue. Vascular-derived kinins induce vasodilatation through the release of endothelial compounds (prostacyclin, EDRFs and cytochrome P-450). Disturbance in the delicate balance between vasodilators and vasoconstrictors may play a role in the development of hypertension. Vascular kallikrein (VKK) was significantly (P < 0.05) elevated after 2 weeks of development of renovascular and mineralocorticoid hypertension, and blood pressure was only slightly elevated. However, VKK decreased in both experimental models when blood pressure was increased. It is possible that the increase in VKK in the early stages resulted in increased local vasodilatory activity, thus counteracting the rise in blood pressure. As hypertension developed, KK was significantly decreased in arteries. The decrease in arterial KK during established hypertension is most likely secondary to high blood pressure. When the endothelium is damaged by high blood pressure, diabetes, excessive LDL cholesterol or cigarette smoking, a net imbalance favoring vasoconstriction, proliferation and migration of cells and increased lipid deposition predisposes to specific vascular diseases. Converting enzyme inhibitors (CEI) blunt the proliferative response of vascular smooth muscle cells after endothelial injury. The cardiovascular protective effects of CEI are mediated in part by the antihypertrophic, antihyperplastic and antithrombotic effects of kinins. The vascular kallikrein-kinin system has a promising role in the regulation of vascular homeostasis and some of the CEI effects may be explained by potentiation of the vascular-derived kinins.
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PMID:Vascular-derived kinins and local control of vascular tone. 774 91

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