Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UMLS:C0011849 (diabetes)
 277,896 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The kallikrein kinin system is a tissue-derived system with potent renal and cardiovascular effects. Within the kidney, the components of the kallikrein kinin system (kallikrein, kininogen, kinins, kininases, kinin receptors and mediators/modulators) originate from or are located in discrete segments of the nephron in highly specialized cells which determine its physiological effects. The kallikrein system acts on the kidney in a paracrine fashion in two anatomical microenvironments where the system regulates glomerular function, renal hemodynamics, and salt and water excretion. Impairment of the renal kallikrein system contributes to the development of hypertension, in particular to the salt-sensitive hypertension, and other pathologies like diabetes. There are several links between the vasodepressor kallikrein system and the vasopressor renin system which are relevant to normal renal function and to the pathophysiology of hypertension and renal diseases. Local induction of kininase II or angiotensin converting enzyme in the kidney could be a novel mechanism contributing to the renal damage in hypertension and other renal diseases. This review evaluates cellular and functional aspects of the renal kallikrein system with emphasis placed on the cellular localization of its components along the nephron, the links to other vasoactive systems, and the contribution of the system to the pathogenesis of hypertension.
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PMID:Cellular and functional aspects of the renal kallikrein system in health and disease. 983 May 18

The onset of preeclampsia at or near to term is associated with low maternal and neonatal morbidity and mortality. In contrast, those patients (1%) who suffer early onset preeclampsia engender significant maternal and perinatal morbidity and mortality. Therefore, because of the lack of proven prophylaxis for preeclampsia, prediction of risk or identification of subclinical disease is desirable to identify patients for more intensive observation. There are certain at-risk groups of patients such as those with chronic hypertension, pregestational diabetes, multifetal gestation, and previous preeclampsia. These patients account for the majority of cases of preeclampsia in multiparas, yet only account for 14% of preeclampsia in nulliparous women. Thus, the majority of cases of preeclampsia arises from nulliparous women without medical complications at low risk. Differences in the time of onset, severity, and organ system involvement suggest there may be different underlying etiologies that ultimately lead to preeclampsia manifested as the triad of maternal hypertension, proteinuria, and edema. Distinct markers therefore may identify subgroups of at-risk patients with separate underlying causes. These markers ultimately could be used for diagnosis of disease before the clinical appearance of maternal disease (hypertension, proteinuria, and edema). Based on data from patients with established disease, with the involvement of various organ systems, potential candidate markers would include renal function (kallikrein-creatinine); coagulation and fibrinolytic systems and platelet activation (platelet volume); markers of vascular function (fibronectin, prostacyclin, thromboxane) and oxidant stress (lipid peroxides, 8-isoprostane, antioxidants, anticardiolipin antibodies, hemoglobin, iron, transferrin, homocysteine, hypertriglyceridemia, albumin isoforms); placental peptide hormones (CRH, CRHbp, activin, inhibin, hCG); vascular resistance (uteroplacental flow velocity waveforms); genetic markers; insulin resistance; and glucose intolerance. Although cross-sectional studies have identified these potential markers, they need to be evaluated in prospective longitudinal studies with rigorous definition of outcome to determine if they are useful in predicting preeclampsia and whether they can identify different subgroups of patients.
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PMID:Prediction of preeclampsia. 1010 70

Twelve days following treatment with 50 mg/kg streptozotocin (STZ), male rats were diabetic, with a three-fold increase in blood glucose (P<0.001) and increased plasma bradykinin (BK) kininogen reserves of [high-(HK)- and low- (LK)-molecular-weight kininogens,+162%, P<0.01 and +63%, P=0.05, respectively], as determined by bioassay of BK released by trypsin from these precursors under standardized conditions. Administration of a single dose (10 U/kg i.v.) of regular insulin decreased plasma HK and LK to near non-diabetic values. Within 24 h these values had returned to levels characteristic of uncorrected diabetes. Prekallikrein (PK), the precursor of plasma kallikrein, an enzyme which releases BK from HK, was increased by 63.4% (P<0.05) in STZ-diabetes, but dropped to near normal levels following insulin treatment. Incubation of whole blood of normal or diabetic rats with 0.02-0.2 mU/ml regular insulin for 10 min at 37 C, decreased HK (P<0.01) and PK (P<0.05) and led to the appearance (P<0.05) of Arg-Pro-Pro-Gly-Phe, a partially stable product of BK metabolism, detected in the incubation media by an enzyme-linked immunosorbent assay (ELISA). Incubation of cell-free plasma insulin had no effect on these parameters, suggesting that blood cells, possibly neutrophils, are required by insulin for the activation of plasma PK to kallikrein leading to BK release. Insulin may be a factor modulating BK formation; its reduction in diabetes may explain increases of plasma kininogen and PK observed in this condition.
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PMID:Kininogen and prekallikrein increases in the blood of streptozotocin-diabetic rats are normalized by insulin in vivo and in vitro. 1049 93

To characterize the role of the kallikrein-kinin system in diabetic cardiopathy, we studied the effect of streptozotocin (STZ) on the regulation of the myocardial bradykinin (BK) receptors, the B1 and B2 type, and two tissue kallikrein genes, rat kallikrein 1 (rKLK1) and rKLK7, in severely hyperglycemic rats. Experiments were performed in STZ-induced diabetic male Wistar rats (n = 7) and compared to controls (n = 7). After extraction of myocardial total RNA, specific oligonucleotides were used to generate reverse transcription PCR (RT-PCR) products from myocardial rKLK1 and rKLK7 mRNA. Southern blot analyses of these RT-PCR products were hybridized with appropriate gene-specific oligonucleotide probes. Myocardial B1 and B2 receptor expression were analyzed by RNase protection assays using specific probes from the coding region of the receptor genes. Twelve weeks after diabetes induction, the rats were normotensive and hyperglycemic and polyuric. We observed an impairment of the main myocardial kinin-forming enzymes, indicated by a reduction of the expression of both, rKLK1 and rKLK7. At this time the myocardial expression of the B1 receptor was not detectable in either group. Thus, the B1 receptor does not play a regulatory role in either the healthy or in STZ-diabetic heart. In contrast, the B2-receptor expression was detectable but did not differ significantly in either group. The reduced synthesis of myocardial tissue KLK implies a reduced capacity to generate BK in diabetic rats. This reduction is not compensated by elevated BK receptor levels. We suggest that alterations of the KKS may contribute to myocardial dysfunction in diabetes mellitus.
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PMID:Myocardial expression of rat bradykinin receptors and two tissue kallikrein genes in experimental diabetes. 1060 22

Systemic gene therapy involves the transfer into the body of a gene whose protein product reaches the blood and has a beneficial effect on a patient. Both retroviral and adenovirus-associated viral vectors have resulted in stable but only moderate systemic levels of blood proteins. Adenoviral vectors have resulted in very high levels of expression that diminishes over days or weeks. Hepatic gene therapy has achieved levels of the anticoagulant protein C in blood that would protect against spontaneous thromboses in homozygous protein-C deficiency, and levels of tissue plasminogen activator that can lyse pulmonary emboli. Hypercholesterolemia has been ameliorated transiently by transfer of the low-density lipoprotein receptor gene into the livers of animals with familial hypercholesterolemia or by promoting lipid transfer via a variety of alternative mechanisms. Hypertension has been reduced by the transfer of genes for kallikrein or atrial natriuretic peptide into the liver, or by expressing antisense for the angiotensin II type I receptor after intravenous injection in neonates. Finally, fasting but not fed hyperglycemia has been ameliorated in animal models of diabetes by transfer of an insulin gene into the liver or by expression of insulin from implanted fibroblasts. Gene therapy has the potential to treat these cardiovascular diseases. However, improvements in levels of long-term expression and the ability to regulate expression in response to physiologic changes will be required before this approach will be implemented for most of these disorders in humans.
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PMID:Systemic gene therapy for cardiovascular disease. 1063 21

Our previous study indicated that nitric oxide (NO)-dependent coronary vasodilation was impaired in conscious dogs with diabetes. Our goal was to determine whether modulation of O(2) consumption by NO is depressed in canine cardiac muscle after diabetes. Diabetes was induced by injection of alloxan (40-60 mg/kg iv), dogs were killed after diabetes was induced (4-5 wk), and the cardiac muscle from the left ventricle was cut into 15- to 30-mg slices. O(2) uptake by the muscle slices was measured polarographically with a Clark-type O(2) electrode. S-nitroso-N-acetylpenicillamine decreased O(2) consumption in normal and diabetic tissues (10(-4) M, 61 +/- 7 vs. 61 +/- 8%, P > 0.05). Bradykinin (10(-4) M)- or carbachol (CCh, 10(-4) M)-induced inhibition of O(2) consumption was impaired in diabetic tissues (51 +/- 6 vs. 17 +/- 4% or 48 +/- 4 vs. 19 +/- 3%, respectively, both P < 0.05 compared with normal). The inhibition of O(2) consumption by kininogen or kallikrein was depressed in diabetic tissues as well. In coronary microvessels from diabetic dogs, bradykinin or ACh (10(-5) M) caused smaller increases in NO production than those from normal dogs. Our results indicate that the modulation of O(2) consumption by endogenous, but not exogenous, NO is depressed in cardiac muscle from diabetic dogs, most likely because of decreased release of NO from the vascular endothelium.
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PMID:Depressed modulation of oxygen consumption by endogenous nitric oxide in cardiac muscle from diabetic dogs. 1092 49

The development of vascular disease is accelerated in hyperglycemic states. Vascular injury plays a pivotal role in the progression of atherosclerotic vascular disease in diabetes, which is characterized by increased vascular smooth muscle cell (VSMC) proliferation and extracellular matrix accumulation. We previously reported that diabetes alters the activity of the kallikrein-kinin system and results in the upregulation of kinin receptors in the vessel wall. To determine whether glucose can directly influence the regulation of kinin receptors, the independent effect of high glucose (25 mM) on B(2)-kinin receptors (B2KR) in VSMC was examined. A threefold increase in B2KR protein levels and a 40% increase in B2KR surface receptors were observed after treatment with high glucose after 24 h. The mRNA levels of B2KR were also significantly increased by high glucose as early as 4 h later. To elucidate the cellular mechanisms by which glucose regulates B2KR, we examined the role of protein kinase C (PKC). High glucose increased total PKC activity and resulted in the translocation of conventional PKC isoforms (beta(1) and beta(2)), novel (epsilon), and atypical (zeta) PKC isoforms into the membrane. Inhibition of PKC activity prevented the increase in B2KR levels induced by ambient high glucose. These findings provide the first evidence that glucose regulates the expression of B(2) receptors in VSMC and provide a rationale to further study the interaction between glucose and kinins on the pathogenesis of atherosclerotic vascular disease in diabetes.
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PMID:Regulation of B(2)-kinin receptors by glucose in vascular smooth muscle cells. 1124 64

Eighty percent of patients with diabetes mellitus die a thrombotic death. Seventy-five percent of these deaths is due to cardiovascular complications, and the remainder is due to cerebrovascular events and peripheral vascular complications. Vascular endothelium, the primary defense against thrombosis, is abnormal in diabetes. Endothelial abnormalities undoubtedly play a role in the enhanced activation of platelets and clotting factors seen in diabetes. Coagulation activation markers, such as prothrombin activation fragment 1+2 and thrombin-anti-thrombin complexes, are elevated in diabetes. The plasma levels of many clotting factors including fibrinogen, factor VII, factor VIII, factor XI, factor XII, kallikrein, and von Willebrand factor are elevated in diabetes. Conversely, the level of the anticoagulant protein C (PC) is decreased. The fibrinolytic system, the primary means of removing clots, is relatively inhibited in diabetes due to abnormal clot structures that are more resistant to degradation and an increase in plasminogen activator inhibitor type 1 (PAI-1). Increased circulating platelet aggregates, increased platelet aggregation in response to platelet agonists, increased platelet contractile force (PCF), and the presence of higher plasma levels of platelet release products, such as beta-thromboglobulin, platelet factor 4, and thromboxane B(2), demonstrate platelet hyperactivity in diabetes. This constellation of findings supports the clinical observation that diabetes is a hypercoagulable state. This article briefly reviews the published evidence for this conclusion and the putative roles played by hyperglycemia and hyperinsulinemia in its development.
J Diabetes Complications
PMID:Diabetes mellitus: a hypercoagulable state. 1125 26

The aim of this study was to determine the influence of metabolic control of diabetes on natriuresis, the effect of natriuretic peptides and renal kallikrein on the kidney and the participation of proximal and distal tubules in natriuresis. The study was done in 41 individuals: 27 IDDM patients and 14 healthy controls. The patients were on insulin only, had normal blood pressure, and were prescribed a standard diabetic diet without sodium or protein restriction. Diabetic patients were assigned to subgroups, depending on the stage of nephropathy and level of metabolic control. Urine collection was done three times daily in all participants. The first collection was done after 500 mg lithium carbonate (p.o.) and was followed by 10 mg amilorid (Midamor, Thomas Morson Pharmaceuticals). The third collection of urine was used to evaluate excretion of cGMP. In addition to sodium, lithium, potassium and creatinine clearances, excretion of renal kallikrein, and levels of microalbuminuria, fructosamine and glycated hemoglobin were also determined. Lithium clearance was used to evaluate tubular sodium transport. The influence of diuretic peptides--ANP and urodilatin, on natriuresis was reflected by urinary cGMP excretion. Function of the kallikrein-kinin system was studied on the basis of excretion of kallikrein. Amilorid was used to test the effect of blocking amiloride-sensitive sodium channels in distal tubules on natriuresis (Tab. 1). A statistically significant decrease in mean lithium clearance was observed in IDDM patients as compared to healthy controls. Creatinine clearance was the same in both groups (Tab. 2). Lower lithium clearance was observed in the subgroup of diabetic patients with "silent" nephropathy. Diabetic patients with "silent" and early nephropathy had significantly higher levels of fractional sodium reabsorption in the proximal tubule when compared with controls (Tab. 3). Moreover, lower daily excretion of kallikrein was observed in patients with stage II nephropathy in comparison to the control group (Tab. 4). Amilorid uptake had no influence on urinary kallikrein. However, natriuresis after amilorid was significantly higher in diabetic patients than in controls. In conclusion, reabsorption in the proximal tubule is increased in patients with "silent" diabetic nephropathy, as revealed by decreased lithium clearance and unchanged creatinine clearance. Hyperactivity of the proximal tubule in stage II and III of diabetic nephropathy results in increased sodium reabsorption in the proximal tubule, as reflected by the increase in fractional sodium reabsorption in this tubule. Amilorid, a distal tubule blocker, reduces distal tubule activity independently of urinary kallikrein excretion. Elevated natriuresis was observed after amilorid without any change in urinary kallikrein excretion.
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PMID:[Regulation of natriuresis in diabetic nephropathy]. 1171 8

Recent advances in the understanding of vascular disease genesis suggest that atherosclerosis and hypertension, primary targets of therapy in the INternational VErapamil SR/trandolapril STudy (INVEST), are closely related. A unified model for the development of cardiovascular disease (CVD) is emerging from recent advances related to atherosclerosis and hypertension. The process of vascular disease appears to begin early in life, when signs of endothelial dysfunction first appear. A primary cause of CVD progression is increased oxidative stress in the endothelium caused by multiple risk factor conditions, including heredity, dyslipidemia, smoking, diabetes, and elevated systolic blood pressure (SBP > 110 mmHg). The renin-angiotensin and kallikrein-kinin systems are important regulators of blood pressure and atherosclerosis. In the renin-angiotensin system, angiotensin-converting enzyme (ACE) mediates generation of angiotensin II (ang II) at local vascular sites and in the plasma and also degrades bradykinin. Information derived from INVEST will help to identify treatment strategies, such as those containing a calcium antagonist and an ACE inhibitor, that are targeted directly at the vascular disorder responsible for hypertension and atherosclerosis.
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PMID:The vascular biology of hypertension and atherosclerosis and intervention with calcium antagonists and angiotensin-converting enzyme inhibitors. 1171 69


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