Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: 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)

In 1928, Frey and co-workers discovered kallikrein in human urine and described its prolonged hypotensive effect in the dog. Four years later, the same authors first reported a blood glucose-lowering effect of orally administered kallikrein in diabetic patients. However, the observed blood glucose-lowering effect of kallikrein appeared to fade with repeated administration, and therefore its possible metabolic role was not further investigated and fell into disregard. One decade ago, experimental data yielded indirect evidence that the regulation of local skeletal muscle blood flow and glucose uptake during work was mediated by proteolytically cleaved kinins. Further experiments demonstrated that in insulin-resistant states such as postoperative stress and type II diabetes, reduced muscular insulin sensitivity was increased and partly restored by continuous low-dose infusion of synthetic bradykinin. Recent work showing that tissue kallikrein is present in a number of different tissue sites, including skeletal muscle and our own observation of local kinin overflow after muscle work in healthy subjects, but not in type II diabetics, support the concept of a skeletal muscle kallikrein-kinin system (KKS) that is locally activated upon contraction. Moreover, in isolated perfused rat heart preparations, favorable effects of kinins on myocardial glucose uptake, oxidation, and glycolytic flux have been reported. Most interestingly, cardioprotective effects of kinins have been observed and attributed to improved energy and substrate metabolism in ischemic hearts. Taken together, these data gave rise to the concept that tissue KKS might be involved in the local modulation of skeletal muscle and myocardial tissue blood flow and substrate metabolism, and that activation of the KKS is defective in insulin-resistant states.
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PMID:Metabolic effects of kinins: historical and recent developments. 169 62

A tissue kallikrein was purified from rat skeletal muscle. Characterization of the enzyme showed that it has alpha-N-tosyl-L-arginine methylesterase activity and releases kinin from purified bovine low-Mr kininogen substrate. The pH optimum (9.0) of its esterase activity and the profile of inhibition by serine-proteinase inhibitors are identical with those of purified RUK (rat urinary kallikrein). Skeletal-muscle kallikrein also behaved identically with urinary kallikrein in a radioimmunoassay using a polyclonal anti-RUK antiserum. On Western-blot analysis, rat muscle kallikrein was recognized by affinity-purified monoclonal anti-kallikrein antibody at a position similar to that of RUK (Mr 38,000). Immunoreactive-kallikrein levels were measured in skeletal muscles which have different fibre types. The soleus, a slow-contracting muscle with high mitochondrial oxidative-enzyme activity, had higher kallikrein content than did the extensor digitorum longus or gastrocnemius, both fast-contracting muscles with low oxidative-enzyme activity. Streptozotocin-induced diabetes reduced muscle weights, but did not alter the level of kallikrein (pg/mg of protein) in skeletal muscle, suggesting that insulin is not a regulator of kallikrein in this tissue. Although the role of kallikrein in skeletal muscle is unknown, its localization and activity in relation to muscle functions and disease can now be studied.
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PMID:Identification and characterization of a tissue kallikrein in rat skeletal muscles. 331 Oct 22

Based on a study of the kininogenase activity of the total plasma kallikrein in the presence of 3 concentrations of the soybean inhibitor trypsin (0.5, 1.0, 10.0 micrograms/ml) one can measure at a time the activity of tissue kallikrein (without specifying the source) and the activity of 3 forms of plasma kallikrein, including its adsorption on kaolin that characterizes the conformational structure of the enzyme. Examination of 10 healthy subjects and 136 patients revealed a 10 to 20-fold increase in the content of tissue kallikrein in plasma of 70% of diabetes mellitus patients and a 2.5 to 3-fold elevation in 50% of patients with chronic occupational bronchitis, and in 30% of patients suffering from chronic hepatitis. The method suggested makes it possible to have a better insight into the physiological and pathogenetic role of the kinin system and may be used for laboratory control over the treatment efficacy.
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PMID:[Method for determining kallikrein of tissue origin in blood plasma and its clinical significance]. 384 14

The levels of tissue kallikrein, tonin, and other kallikrein-like proteinases were determined in extracts of rat submandibular glands 3 mo after the induction of diabetes with STZ (65 mg/kg i.v.). Total kallikrein-like proteinase activity was assayed catalytically with the fluorogenic substrate DVLR-AFC. Tissue kallikrein was assayed by using the same substrate in the presence of SBTI. Activity of other kallikrein-like proteinases was defined as the difference between the total kallikrein-like activity and that of tissue kallikrein. Tonin was assayed by using the substrate ZVKKR-AFC in the presence of aprotinin. Results were compared with age-matched controls and with diabetic rats that had received daily insulin injections for the last week of the test period. The results showed that all activities were significantly reduced in diabetic glands compared with controls. Insulin treatment restored concentrations of tissue kallikrein activity, whereas the activities of tonin and other kallikrein-like proteinases were unchanged. RIA supported these findings. The results indicate that in rat submandibular glands, insulin affects the synthesis of kallikrein-like proteinases in different ways and, allowing for the slowness of the processes involved, insulin may exert a direct influence on the regulation of tissue kallikrein synthesis but only have indirect effects on the synthesis of tonin and the closely related kallikrein-like proteinases.
Diabetes 1993 Jan
PMID:Tissue kallikrein and tonin levels in submandibular glands of STZ-induced diabetic rats and the effects of insulin. 838 May 62

The kallikrein-kinin system has been implicated in the inflammatory process, blood pressure regulation, renal homeostasis, and glucose utilization. The effects of kallikrein and kinin on glucose uptake by the skeletal muscle are well established; however, the occurrence and the cellular distribution of the kinin receptor(s) mediating these effects in the striated muscle are unknown. Using anti-peptide antibodies raised against the predicted intra- and extracellular domains of the B2 receptor and the peroxidase/antiperoxidase system, we have been able to detect the B2 receptor on the plasma membrane of striated skeletal muscle cells of the rat hindlimb. A strong immunostaining appeared as a rim of immunoreactive material located on the periphery of striated muscle cells. Cross-sectioned and longitudinally sectioned cells revealed a similar staining pattern. Alternatively, the immunostaining with specific antibodies to tissue kallikrein and to T-kininogen did not yield a significant staining of the striated muscle cells. Localization of the B2 receptor on the surface of striated muscle cells provides a structural basis for the hypothesized physiological functions of the kinin system in the skeletal muscle.
Diabetes 1996 Jan
PMID:Immunolocalization of bradykinin B2 receptors on skeletal muscle cells. 852 96

This study examined the effects of streptozotocin-induced diabetes on blood pressure and cardiac tissue kallikrein levels in WKYR and SHR. Streptozotocin-induced diabetes caused significant (p < 0.001) increase in SBP and DBP in WKYR and SHR as compared with their respective controls. We also observed that the active cardiac tissue kallikrein levels reduced greatly (p < 0.001) in diabetic WKYR and SHR than the normal rats. These findings suggest for the first time that the cardiac tissue kallikrein formation may have a greater role in the regulation of blood pressure and cardiac function.
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PMID:Cardiac kallikrein in hypertensive and normotensive rats with and without diabetes. 885 81

Tissue kallikrein is a serine proteinase which processes kininogens to release bioactive kinins. Kinins mediate a variety of biological processes through the interaction with kinin receptors. Kinins are involved in the regulation of blood pressure and local blood flow, vasodilation, smooth muscle contraction and relaxation, production of pain and inflammation, and stimulation of cell proliferation. The tissue kallikrein-kinin system has been implicated in a number of pathophysiological processes such as hypertension, allergy and diabetes mellitus. In the present study, we have identified the expression and localization of components of the kallikrein-kinin system in the human eye by reverse transcription-polymerase chain reaction (RT-PCR) and Southern blot analyses, and in situ hybridization histochemistry. RT-PCR and Southern blot analyses have detected mRNAs of the key components of the system including tissue kallikrein, low molecular weight kininogen, and bradykinin B1 and B2 receptors at high levels in human retina, choroid and ciliary body, and relatively low levels in the optic nerve. In situ hybridization has identified cellular localization of these four mRNAs in ocular tissues. They are expressed in retinal neuronal cells including the outer nuclear layer, inner nuclear layer and ganglion cell layer. These mRNAs were also identified in endothelial cells of ocular blood vessels, ciliary muscle and lens epithelial cells. The sense riboprobes showed negative staining, which indicates the specificity of the antisense riboprobes. These results suggest that the tissue kallikrein-kinin system is produced endogenously in human ocular tissues. Similar expression patterns of kallikrein, kininogen and kinin receptors indicate that the kallikrein-kinin system may function in an autocrine or paracrine fashion in the eye.
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PMID:Expression and cellular localization of the kallikrein-kinin system in human ocular tissues. 898 60

The renal kallikrein-kinin system and the renin-angiotensin system are implicated in the pathogenesis of diabetic nephropathy. We have shown that renal kallikrein and renin gene expression are altered by diabetes. To investigate the cellular mechanisms responsible for these changes, we examined the effects of acute insulin and insulin-like growth factor I (IGF-I) treatment on renal kallikrein-kinin and renin-angiotensin system components. Three weeks after induction of diabetes, we measured renal kallikrein and renin mRNA levels, renal kallikrein and renal renin activity, and plasma renin activity in control and diabetic rats and diabetic rats treated with insulin or IGF-I for 2 or 5 h. In diabetic rats, kallikrein and renin mRNA levels were reduced >50% compared with control rats. Renal tissue kallikrein levels and plasma renin activity were decreased, whereas renal renin content was unchanged. Insulin increased kallikrein and renin mRNA levels after 2 h. IGF-I, at a dosage that stimulated kallikrein mRNA levels in control rats, had no effect on renal kallikrein and renin content or mRNA levels in diabetic rats. However, infusion of a fivefold higher IGF-I dosage resulted in a two- to threefold increase in kallikrein and renin mRNA levels in 2 h. These data suggest that 1) diabetes suppresses kallikrein and renin gene expression, and these abnormalities are reversed by insulin or IGF-I; and 2) the diabetic state produces resistance to IGF-I induction of kallikrein and renin gene expression. These changes in regulated synthesis of kallikrein and renin in the kidney may underlie renal vascular changes that develop in diabetes.
Diabetes 1997 Dec
PMID:Induction of renal kallikrein and renin gene expression by insulin and IGF-I in the diabetic rat. 939 95

Sub-diabetogenic doses of streptozotocin (STZ) produce insulitis, beta cell destruction and diabetes in mice. Since kinin have been proposed as an inflammatory mediator in several diseases, we decided to evaluate the role of the kallikrein-kinin system in the evolution of insulitis. Male C 57 BL/KsJ mdb mice were injected with STZ (40 mg/kg) for 5 consecutive d. Aprotinin (4000 KIU/d) was injected simultaneously with STZ during 10 d. Plasma and urine samples collected on day 15 were assayed for glucose concentration and proteins, nitrites and kallikrein. Diabetic mice showed hyperglycemia and increased diuresis, marked proteinuria, nitrites and kallikrein. Administration of aprotinin, a potent tissue kallikrein inhibitor, to STZ mice, reduced the hyperglycemia and the altered renal function of the diabetic mice to level no different from normal mice. The present studies are consistent with the hypothesis that the over-production of tissue kallikrein in insulitis could be controlled by the effect of aprotinin.
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PMID:Effects of aprotinin on the kallikrein-kinin system in type I diabetes (insulitis). 940 44

Kallikreins are serine proteases that release kinins from kininogens. Kinins, via their effects on cardiovascular and renal function, may be involved in the pathogenesis of hypertension and renal failure. Two groups of kallikreins exist, glandular or tissue kallikrein and plasma kallikrein. In this study, we examined the human plasma kallikrein gene KLK3 to determine whether it contributed to end-stage renal disease (ESRD) susceptibility. We identified two novel polymorphic sequences closely linked to the KLK3 gene, designated KLK3b and KLK3c (heterozygosities: 0.64 to 0.68 and 0.48 to 0.52, respectively). We mapped the KLK3 gene and the marker KLK3c to the long arm of human chromosome 4 between F11 and D4S426 using a radiation hybrid panel. The study population consisted of 142 sibling pairs concordant for ESRD from 121 African American families. The 142 sibling pairs were stratified into 78 pairs with hypertension- and chronic glomerulonephritis-associated ESRD and 64 with non-insulin-dependent diabetes mellitus-associated ESRD. Linkage analyses, using SIBPAL of SAGE, and exclusion analysis, using MAPMAKERS/SIBS, were performed. Linkage analysis of affected sibling pairs did not reveal any evidence of linkage of KLK3 to ESRD in all 142 sib-pairs or in the two stratified subsets. Exclusion analysis indicated that the KLK3 gene could be excluded from contributing to ESRD at a relative risk of 3 when the maximum log of the odds score of -2 was used as the criterion for exclusion. However, an association analysis using the relative predispositional effect technique showed that alleles 7 and 9 of KLK3b were consistently associated with ESRD. Alleles 7 and 9 were present in 11.2% and 10.8% of the 113 unrelated ESRD probands and in 6.6% and 6.6% of the 204 race-matched control subjects without renal disease (allele P=.0041 and .0016, respectively). Alleles 7 and 9 were also present in 13% and 10.4% of the proband's first siblings (allele P=.00014 and .0087, respectively). The association of KLK3b alleles with ESRD raises the possibility that polymorphisms in KLK3 may play a role in ESRD susceptibility. The lack of linkage might reflect our relatively small family set.
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PMID:Identification of human plasma kallikrein gene polymorphisms and evaluation of their role in end-stage renal disease. 953 13


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