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)

To determine if renal functional alterations in diabetes mellitus could be related to disturbances of vasoactive systems, renal plasma flow (RPF), glomerular filtration rate (GFR), PRA (basal and stimulated), plasma catecholamine levels, and urinary excretion of prostaglandin E2 (PGE2), 6-keto-PGF1 alpha, and kallikrein were determined in 21 patients with insulin-dependent diabetes mellitus (IDDM) of short duration and 15 normal subjects. In 7 additional patients with IDDM and in 4 normal subjects, the effect of lysine acetylsalicylate (LAS; 450 mg, iv) on GFR and RPF was studied. Patients with IDDM had higher RPF and GFR than normal subjects. Plasma norepinephrine and basal and stimulated PRA were significantly lower in IDDM than in the control group [161 +/- 82 (+/- SD) vs. 243 +/- 114 pg/ml, 0.19 +/- 0.20 vs. 1.15 +/- 0.33 ng/ml X h, and 0.93 +/- 0.82 vs. 2.8 +/- 1.73 ng/ml X h, respectively). No significant differences were found in the urinary excretion of PGE2, 6-keto-PGF1 alpha, and kallikrein in the two groups. LAS administration significantly reduced RPF (from 641 +/- 72 to 535 +/- 38 ml/min X 1.73 m2) and GFR (from 168 +/- 25 to 150 +/- 18 ml/min X 1.73 m2) in patients with IDDM, but not in normal subjects. In IDDM patients, there was a close direct correlation between the percent decrease in RPF and GFR induced by LAS and the baseline values of these parameters. The results suggest that in IDDM, there may be an imbalance between the degree of activation of the renin-angiotensin and sympathetic nervous systems and the renal production of PGs. The observation that LAS administration reduced RPF and GFR in these patients suggests that renal PGs are involved in the renal hyperperfusion of IDDM.
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PMID:Renal hemodynamic abnormalities in patients with short term insulin-dependent diabetes mellitus: role of renal prostaglandins. 385 81

It has recently been observed that administration of bradykinin to diabetic patients improves peripheral glucose utilization. To verify whether there is an alteration of the kallikrein-kinin system in human diabetes, plasma kallikrein activity was measured in 47 diabetic patients and in 20 control subjects. In diabetics plasma kallikrein activity was significantly higher than in controls: 1.04 +/- 0.04 U/ml (p less than 0.001). Although they do not refute the hypothesis that there is an alteration of the kallikrein-kinin system in diabetes mellitus, these findings do not support such a hypothesis either. Increased synthesis of plasma kallikrein activity may be due to increased synthesis of carbohydrate-protein compounds in diabetes mellitus.
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PMID:Plasma kallikrein activity in human diabetes mellitus. 634 68

It is suggested that the kininogenesis should be assessed from 3 forms of kallikrein which are detected on the basis of their kininogenase activity in whole blood plasma. Heating of blood plasma acidified to pH 3.0 for 15-20 min at 61 degrees C allows for the conditions under which the kallikrein inhibitors (alpha 1-antitrypsin, alpha 2-macroglobulin) are destroyed whereas kallikrein, prekallikrein, low- and high-molecular kininogens (HMK) are preserved, thus constituting a complex of proteins making the kininogenase reaction feasible. Addition of purified preparations of HMK to the neutralized samples of normal and sick individuals' plasma permitted the demonstration that as the kallikrein is raised, the kininogenesis gets actually activated, during which the blood manifests, in the presence of kallikrein hyperactivity, a sufficient amount of HMK. Provided the kallikrein content drops by 50%, the kininogenesis is reduced, which is accounted for by depletion of blood HMK. A 70%- and a greater decrease in the kallikrein content attests to the kininogenesis reduction because of the diminished levels of HMK, prekallikrein and kallikrein. The regularities described have been confirmed by the agreement between the blood plasma kallikrein level and the concentration of blood free kinins revealed during examination of 68 normal individuals and 231 patients suffering from different inflammatory-allergic diseases of the respiratory and hepatobiliary organs, and from diabetes mellitus.
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PMID:[Method of estimating kininogenesis in blood plasma]. 655 1

The renal kallikrein-kinin system is thought to be involved in vasoregulatory and epithelial ion-transporting processes. Renal kallikrein has not been studied in patients with diabetes mellitus, a disease in which abnormalities of renal hemodynamics and electrolyte handling occur. The urinary excretion of this kallikrein was measured in 20 type I diabetic patients and 10 normal subjects. On a 120-meq Na diet, daily kallikrein excretion, determined by both esterase activity and direct RIA, in 12 poorly controlled diabetic patients [hemoglobin A1c (HbA1c) = 14.2 +/- 0.5% (mean +/- SEM)] was significantly greater (P less than 0.05) than excretion in 8 diabetic patients in good to moderately good control (HbA1c = 9.4 +/- 0.5%) or in 10 normal subjects. In these groups, urinary esterase activities were 9.4 +/- 1.0, 6.1 +/- 1.4, and 6.7 +/- 0.5 esterase units/24 h, respectively. Corresponding excretion values of immunoreactive kallikrein were 171 +/- 14, 118 +/- 26, and 123 +/- 11 micrograms/24 h. Creatinine clearances were similar in the three groups. Urinary kallikrein was also measured in 8 diabetic and 8 normal subjects during 7 subsequent days of 10 meq Na intake. It increased less in diabetic patients than in normal subjects during Na depletion (P less than 0.02). The increase in urinary kallikrein in the diabetic patients was inversely related to their HbA1c levels (r = 0.88; P less than 0.01). The effect of glycemic control on urinary kallikrein excretion was determined in nine diabetic patients. Initial glycemic control was achieved using an artificial endocrine pancreas (Biostator) and was maintained by continuous sc insulin infusion with a portable pump. Before glycemic control, urinary kallikrein was 190 +/- 30 micrograms/24 h (by RIA). After 8-12 days of glycemic control, excretion fell to 144 +/- 23 micrograms/24 h (P less than 0.02). The abnormalities in kallikrein excretion in diabetic patients were not correlated with differences in water, electrolyte, protein, glucose, or aldosterone excretion in any of the studies. These results show that kallikrein excretion was increased in patients with poorly controlled insulin-dependent diabetes, and excretion rose less in diabetic subjects with low Na intake than in normal subjects. Strict glycemic control decreased urinary kallikrein excretion. These findings suggest that the renal kallikrein-kinin system is functioning abnormally in diabetes mellitus.
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PMID:Urinary kallikrein excretion in insulin-dependent diabetes mellitus and its relationship to glycemic control. 656 31

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

1. Diabetes mellitus type I was induced in 3-month old male C57 BL/KS-mdb mice (N = 24) by ip injection of streptozotocin (STZ, 45 mg/kg body weight) for 5 days. 2. To determine the possible protective effects of nitric oxide inhibition against hyperglycemia, the STZ-diabetic rats received two doses of NG-nitro-L-arginine- methyl ester (L-NAME) (10 mg/kg body weight and 10 mg/mouse) dissolved in PBS for 45 consecutive days. Another group of STZ-treated rats was similarly treated with L-arginine (5 mg/mouse). 3. Blood glucose levels were 118 +/- 37 mg/dl after 8 days of L-NAME administration (10 mg/kg body weight, N = 12) and 186 +/- 22 mg/dl (N = 12) after 5 days of L-NAME administration at the 5 mg/mouse dose. Treatment with L-arginine (5 mg/mouse, N = 12) caused a significant increase in blood glucose level to 151 +/- 17.5 mg/dl, showing the relevance of nitric oxide formation in this type of diabetes. 4. In STZ-diabetic mice treated with L-NAME (N = 12), diuresis was reduced by approximately 58% compared to STZ animals, whereas in L-arginine-treated animals (N = 12) diuresis returned to STZ levels. Urinary protein excretion, which was significantly affected by STZ (123% compared to control) was significantly reduced by 66% after treatment with L-NAME for 45 days, whereas treatment with L-arginine caused a return to STZ values. 5. Urinary kallikrein excretion, which was reduced by 80% in STZ mice compared to control, returned to control levels after L-NAME treatment. 6. The present results suggest a relationship between nitric oxide levels and the reduction of diabetic state and improved renal function by L-NAME.
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PMID:Streptozotocin-induced hyperglycemia is decreased by nitric oxide inhibition. 774 93

Non-insulin-dependent diabetes mellitus (NIDDM) is associated with an increased risk of macro- and microvascular degenerative complications. Gliclazide is a second generation sulfonylurea that is widely used in the treatment of type II diabetes mellitus. Its hypoglycemic activity is well documented. In addition to its metabolic effects, gliclazide has beneficial effects on the hemobiological abnormalities of NIDDM. These effects are mediated by the azabicyclo-octyl ring grafted on to its aulfonylurea core. Numerous studies have demonstrated that gliclazide reduces platelet hyperadhesion and platelet hyperaggregability. These actions have been extensively confirmed in diabetic patients over periods of up to 3 years. With regard to platelet functions, several groups have demonstrated a significant reduction in serum and intraplatelet beta thromboglobulin and thromboxane B2. In animal models, in-vitro and in-vivo gliclazide stimulates endothelial prostacyclin synthesis. The beneficial effects of the compound on thromboxane/prostacyclin balance have been recently confirmed in type II diabetic patients after a 3-month treatment period. Concerning fibrinolysis, gliclazide restores low plasminogen activity to normal in NIDDM patients previously treated with first-generation sulfonyl-ureas. Gliclazide increases fibrinolytic potential by increasing endothelial cell tissue plasminogen activator and pre-kallikrein activity. More recent studies suggest that gliclazide may have effects on fibrin network structure, rendering the fibrin more amenable to fibrinolysis. Finally, it has been shown that gliclazide has a potent free-radical-scavenging activity in vitro. This property has been recently confirmed in vivo in type II diabetic patients and may suggest that platelet reactivity and oxidative stress are related in these patients.(ABSTRACT TRUNCATED AT 250 WORDS)
J Diabetes Complications
PMID:Hemobiological properties of gliclazide. 783

Renal kallikrein is increased in diabetic patients and streptozotocin (STZ)-induced diabetic rats with hyperfiltration. Chronic inhibition of renal kallikrein reduces glomerular filtration rate (GFR) and renal plasma flow (RPF) in hyperfiltering STZ-induced diabetic rats. To investigate whether these actions of kallikrein and its inhibition are kinin-mediated, we used a B2-kinin receptor antagonist (BKA). In STZ-induced diabetic rats with hyperfiltration, renal kallikrein excretion rate was significantly increased (P < or = 0.01), and kinin excretion rate was increased 57%, as compared with control rats. Left kidney GFR and RPF were measured before and during a 40-min infusion of BKA (0.5 micrograms.kg-1.min-1) or vehicle. Infusion of the kinin receptor antagonist reduced the GFR and RPF significantly. GFR was reduced by 18%, from an average baseline value of 2.07 +/- 0.11 to 1.70 +/- 0.06 ml/min, P < or = 0.001 (means +/- SE). RPF was reduced by 25%, from 6.74 +/- 0.38 to 5.06 +/- 0.17 ml/min, P < or = 0.001. Total renal vascular resistance was significantly increased during BKA infusion, P < or = 0.001. Vehicle infusion for the same period had no significant effect on GFR, RPF, or renal vascular resistance. These findings further support the hypothesis that increased renal production of kinins contributes to the renal vasodilation of diabetes.
Diabetes 1995 Feb
PMID:Kinin, a mediator of diabetes-induced glomerular hyperfiltration. 785 34

To assess possible roles of the renal kallikrein-kinin system in the development of renal impairments in diabetes mellitus, we determined daily excretion of urinary total and active kallikrein in uninephrectomized Wistar-Kyoto rats made diabetic by streptozotocin (45 mg/kg) as a bolus injection. We also evaluated the effect of captopril (50 mg/kg/day) administered orally on the development of diabetic renal impairments in the streptozotocin-treated rats. Active kallikrein was determined by its kininogenase activity, and generated kinins were radioimmunologically measured. Total kallikrein was also determined by measuring kininogenase activity after inactive kallikrein had been activated with trypsin (200 micrograms/ml). Urinary active kallikrein excretion was significantly reduced in streptozotocin-treated rats whereas urinary total kallikrein excretion was unchanged, resulting in the decreased ratio of active to total kallikrein compared to that in the controls. These reductions were preceded by the increased excretion of urine protein measured as an index of renal impairments. The administration of captopril for 12 weeks attenuated the development of diabetic renal impairments evaluated by urine protein excretion in streptozotocin-treated rats, although it did not induce significant changes in urinary total and active kallikrein excretion, and the ratio of active to total kallikrein. Thus the results of this study indicate that the renal kallikrein-kinin system might not play major roles in the development of diabetic renal impairments in the rat, although the pathophysiological relevance of impaired activation of renal kallikrein system to the development of diabetic renal impairments remains to be determined. In addition, they suggest that the renoprotective effects of captopril may be independent of the activation of renal kallikrein system in streptozotocin-treated rats.
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PMID:Urinary active kallikrein excretion and diabetic renal impairments in streptozotocin-treated rats. 812 82

The mechanisms responsible for the increase in blood pressure response to high salt intake in salt-sensitive patients with essential hypertension are complex and only partially understood. A complex interaction between neuroendocrine factors and the kidney may underlie the propensity for such patients to retain salt and develop salt-dependent hypertension. The possible role of vasodilator and natriuretic agents, such as the prostaglandins, endothelium-derived relaxing factor, atrial natriuretic factor, and kinin-kallikrein system, requires further investigation. An association between salt sensitivity and a greater propensity to develop renal failure has been described in certain groups of hypertensive patients, such as blacks, the elderly, and those with diabetes mellitus. Salt-sensitive patients with essential hypertension manifest a deranged renal hemodynamic adaptation to a high dietary salt intake. During a low salt diet, salt-sensitive and salt-resistant patients have similar mean arterial pressure, glomerular filtration rate, effective renal plasma flow, and filtration fraction. On the other hand, during a high salt intake glomerular filtration rate does not change in either group, and effective renal blood flow increases in salt-resistant but decreases in salt-sensitive patients; filtration fraction and glomerular capillary pressure decrease in salt-resistant but increase in salt-sensitive patients. Salt-sensitive patients are also more likely than salt-resistant patients to manifest left ventricular hypertrophy, microalbuminuria, and metabolic abnormalities that may predispose them to cardiovascular diseases. In conclusion, salt sensitivity in hypertension is associated with substantial renal, hemodynamic, and metabolic abnormalities that may enhance the risk of cardiovascular and renal morbidity.
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PMID:Salt sensitivity in hypertension. Renal and cardiovascular implications. 814 22

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