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 our in vitro experiments was to study the role of oxytocin (OT), cAMP/protein kinase A (PKA), and mitogen-activated protein kinase (ERKs MAP-kinase) in the control of ovarian cell functions as well as the role of PKA and MAPK in mediating OT effects on these processes. The whole porcine ovarian follicles were cultured in the presence or absence of OT (1, 10, 100 ng/ml), PKA inhibitor Rp-cAMPS (10 nM), MAP-kinase inhibitor PD98059 (1 microg/ml), or their combination. The release of prostaglandins F (PGF) and E (PGE) were determined by RIA, PKA (alpha-cat subunit), the proliferation-associated peptide PCNA and ERK-1, -2 expression in cell lyzates were analysed by Western-blotting. OT stimulated the release of PGF and PGE, and accumulation of PKA, ERK-1/-2, and PCNA in cell lysate. PD98059 decreased the basal PGF and PGE output, as well as reduced both ERK-1 and ERK-2 accumulation in cell lysates. Rp-cAMPS decreased PKA accumulation in cell lysates. Rp-cAMPS prevented the OT-induced stimulation of PKA, ERK-1, ERK-2, PGF, and PGE, PD98059 did so for PKA, PGF, and PGE. However, PD98059 reduced either basal or OT-induced p-ERK level. OT-stimulated PCNA accumulation was only slightly modified by these blockers. These observations suggest that OT, PKA, and ERKs MAPK can be involved in the control of PGs release and proliferation of ovarian cells. The influence of OT on both PKA and MAPK, and the ability of PKA and MAPK blockers to prevent completely or partially OT effects suggest, that effects of OT on PGF and PGE can be mediated by both PKA and MAPK. The role of MAPK and PKA in mediating the proliferative effects of OT seems to be minor assuming the involvement of other intracellular messengers.
Exp Clin Endocrinol Diabetes 2004 Feb
PMID:The role of oxytocin, protein kinase A, and ERK-related MAP-kinase in the control of porcine ovarian follicle functions. 1503 77

Diabetes activates all three groups of MAP kinases in sensory ganglia. Inhibition of this activation for the ERK and p38 groups prevents nerve damage, and agents that improve neuronal function in diabetic rats-antioxidants and aldose reductase inhibitors-also inhibit activation of ERK and p38 in dorsal root ganglia (DRG). However, these same treatments consistently increase activation of JNK. Thus, in DRG from rats with streptozotocin (STZ)-induced diabetes of 12-week duration, the p54/56 isoforms of JNK were activated by 2.75 compared to controls (P <.05). In DRG from diabetic rats treated with a gamma-linolenic acid and alpha-lipoic acid diester (GLA/LA), the activity of the p54/56 isoform was 3.75 that of controls and the p46 isoform was also increased to 1.75 that of controls (both P <.05 compared to both controls and untreated diabetics). We therefore tested the hypothesis that JNK activation is protective. Exposure of rats to diabetes increased activation of JNK in DRG, but treatment with GLA/LA increased this effect (P <.05). Specific inhibition of JNK in primary cultures of DRG neurons using a peptide inhibitor of JNK (JNKi1, 159-600-R100, 7.5 micro M, Alexis Biochemicals) increased the release of LDH and reduced MTT staining; both findings indicate an increase in neuronal damage. Taken together these findings indicate that multiple isoforms of JNK were activated in sensory neurons of diabetic rats, probably by a combination of raised glucose and oxidative stress, and that this activation of JNK serves to protect the neurons from damage.
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PMID:Activation of JNK in sensory neurons protects against sensory neuron cell death in diabetes and on exposure to glucose/oxidative stress in vitro. 1503 1

In contrast to earlier views, new data indicate that proinsulin C-peptide exerts important physiological effects and shows the characteristics of an endogenous peptide hormone. C-peptide in nanomolar concentrations binds specifically to cell membranes, probably to a G-protein coupled receptor. Ca(2+)- and MAP-kinase dependent signalling pathways are activated, resulting in stimulation of Na(+), K(+)-ATPase and endothelial nitric oxide (NO) synthase, two enzyme systems known to be deficient in diabetes. C-peptide may also interact synergistically with insulin signal transduction. Studies in intact animals and in patients with type 1 diabetes have demonstrated multifaceted effects. Thus, C-peptide administration in streptozotocin-diabetic animals results in normalization of diabetes-induced glomerular hyperfiltration, reduction of urinary albumin excretion and diminished glomerular expansion. The former two effects have also been observed in type 1 diabetes patients given C-peptide in replacement dose for up to 3 months. Peripheral nerve function and structure are likewise influenced by C-peptide administration; sensory and motor nerve conduction velocities increase and nerve structural changes are diminished or reversed in diabetic rats. In patients with type 1 diabetes, beneficial effects have been demonstrated on sensory nerve conduction velocity, vibration perception and autonomic nerve function. C-peptide also augments blood flow in several tissues in type 1 diabetes via its stimulation of endothelial NO release, emphasizing a role for C-peptide in maintaining vascular homeostasis. Continued research is needed to establish whether, among the hormones from the islets of Langerhans, C-peptide is the ugly duckling that--nearly 40 years after its discovery--may prove to be an endogenous peptide hormone of importance in the treatment of diabetic long-term complications.
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PMID:C-peptide: new findings and therapeutic implications in diabetes. 1523 31

Besides the classical cardiovascular diseases, high levels of blood glucose directly interfere with cardiomyocytes. The mechanisms responsible for this have not yet been explored in detail. This study aims to determine if hyperglycaemia has any impact on prominent signalling molecules and on the contractile function of cardiomyocytes. Freshly isolated cardiomyocytes from adult rats were treated with various concentrations of glucose. Formed free radicals were measured by DCF-fluorescence. TGFbeta expression and p38 MAP-kinase (MAPK) activation were measured by Western blotting. The contractile efficiency was determined by measurement of the maximal amount of cell shortening. Glucose (30 mM) caused an increase in formation of radicals, phosphorylation of p38 MAPK, and TGFbeta expression. Under conditions of low viscosity (1 cp), contractile responses to hyperglycaemia (15 mM) were not altered in contrast to control. However, enhancement of viscosity (400 cp) effected a limitation of contractile function. The responsiveness to beta-adrenoceptor stimulation did not change. Neither inhibition of p38 MAPK with SB 202190 (1 microM) nor inhibition of reactive oxygen species with vitamin C did alter these measured functional parameters. Diabetes mellitus directly influences the activation degree of prominent signalling molecules and the contractile function of adult ventricular cardiomyocytes, which results in facilitating in the development of diabetic cardiomyopathy.
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PMID:No correlation between the p38 MAPK pathway and the contractile dysfunction in diabetic cardiomyocytes: hyperglycaemia-induced signalling and contractile function. 1604 1

ACE inhibition protects kidney function, but ACE insertion/deletion (I/D) polymorphism affects renal prognosis in type 1 diabetic patients. ACE genotype may influence the renal benefits of ACE inhibition. We studied the impact of ACE I/D polymorphism on the renal hemodynamic changes induced by ACE inhibition in type 1 diabetes. We studied renal hemodynamics (glomerular filtration rate [GFR], effective renal plasma flow [ERPF], filtration fraction [GFR/ERPF], mean arterial pressure [MAP], and total renal resistances [MAP/ERPF]) repeatedly during normoglycemia and then hyperglycemia in 12 normotensive, normoalbuminuric type 1 diabetes and the II genotype (associated with nephroprotection) versus 22 age- and sex-matched subjects with the ACE D allele after three randomly allocated 2- to 6-week periods on placebo, 1.25 mg/day ramipril, and 5 mg/day ramipril in a double-blind, cross-over study. During normoglycemia, the hemodynamic changes induced by ramipril were similar in both genotypes. During hyperglycemia, the changes induced by ramipril were accentuated in the II genotype group and attenuated dose dependently in the D allele group (treatment-genotype interaction P values for ERPF, 0.018; MAP, 0.018; and total renal resistances, 0.055). These results provide a basis to different renal responses to ACE inhibition according to ACE genotype in type 1 diabetes.
Diabetes 2005 Oct
PMID:Modulation of the renal response to ACE inhibition by ACE insertion/deletion polymorphism during hyperglycemia in normotensive, normoalbuminuric type 1 diabetic patients. 1618 99

Increased oxidative stress and reduced nitric oxide (NO) bioactivity are key features of diabetes mellitus that eventually result in cardiovascular abnormalities. We assessed whether N-acetylcysteine (NAC), an antioxidant and glutathione precursor, could prevent the hyperglycaemia induced increase in oxidative stress, restore NO availability and prevent depression of arterial blood pressure and heart rate in vivo in experimental diabetes. Control (C) and streptozotocin-induced diabetic (D) rats were treated or not treated with NAC in drinking water for 8 weeks, initiated 1 week after induction of diabetes. At termination, plasma levels of free 15-F2t-isoprostane, a specific marker of oxygen free radical induced lipid peroxidation, was increased while the plasma total antioxidant concentration was decreased in untreated diabetic rats as compared to control rats (P<0.05). This was accompanied by a significant reduction of plasma levels of nitrate and nitrite, stable metabolites of NO, (P<0.05, D vs. C) and a reduced endothelial NO synthase protein expression in the heart and in aortic and mesenteric artery tissues. Systolic, diastolic and mean arterial blood pressures (SBP, DBP and MAP) and heart rate (HR) were reduced in diabetic rats (P<0.05 vs. C) and NAC normalised the changes that occurred in the diabetic rats. The protective effects may be attributable to restoration of NO bioavailability in the circulation.
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PMID:Antioxidant N-acetylcysteine restores systemic nitric oxide availability and corrects depressions in arterial blood pressure and heart rate in diabetic rats. 1639 Aug 27

Tissue factor (TF), formerly known as thromboplastin, is the key initiator of the coagulation cascade; it binds factor VIIa resulting in activation of factor IX and factor X, ultimately leading to fibrin formation. TF expression and activity can be induced in endothelial cells, vascular smooth muscle cells, and monocytes by various stimuli such as cytokines, growth factors, and biogenic amines. These mediators act through diverse signal transduction mechanisms including MAP kinases, PI3-kinase, and protein kinase C. Cellular TF is present in three pools as surface, encrypted, and intracellular protein. TF can also be detected in the bloodstream, referred to as circulating or blood-borne TF. Elevated levels of TF are observed in patients with cardiovascular risk factors such as hypertension, diabetes, dyslipidemia, and smoking as well as in those with acute coronary syndromes. TF may indeed be involved in the pathogenesis of atherosclerosis by promoting thrombus formation; in addition, it can induce migration and proliferation of vascular smooth muscle cells. As a consequence, therapeutic strategies have been developed to specifically interfere with the action of TF such as antibodies against TF, site-inactivated factor VIIa, or recombinant TF pathway inhibitor. Inhibition of TF action appears to be an attractive target for the treatment of cardiovascular diseases.
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PMID:Tissue factor in cardiovascular diseases: molecular mechanisms and clinical implications. 1646 45

Diabetes and ageing induce reduction and dysfunction of vascular progenitor cells. Advanced glycation endproducts (AGEs) accumulate in diabetes and ageing. We investigated the influence of AGEs on function of CD34 progenitor cells. CD34 cells were co-cultured with HUVECs in a three-dimensional spheroid assay. Sprout length growth and incorporation of CD34 cells into the sprouts were analyzed under 2, 20 or 200 microg/ml AGEs. AGE-receptor expression, MAP-kinase signal transduction and apoptosis were analyzed using PCR, Western blotting and flow cytometry. In the spheroid assay, AGEs concentration-dependently cause a reduction of sprout length growth by 6+/-6 to 32+/-6% and an attenuation of progenitor cells incorporation into the sprouting endothelium by up to 43+/-6%. This functional impairment is accompanied by activation of CD34 cell proliferation at lower concentrations (2 or 20 microg/ml) and by apoptosis activation under 200 microg/ml AGEs. The mRNA expression of the receptors for AGEs and the AGEs-induced activation of p38 and p44/42 MAP-kinases are demonstrable in CD34 cells. This AGEs-mediated impairment of progenitor cell function identifies a new pathophysiological mechanism of disturbed vascular adaptation in diabetes or ageing and suggests that lowering AGEs in recipients of progenitor cell therapy might be beneficial for the success of this therapy.
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PMID:Depression of progenitor cell function by advanced glycation endproducts (AGEs): potential relevance for impaired angiogenesis in advanced age and diabetes. 1651 51

Acrolein, which is a highly reactive alpha,beta-unsaturated aldehyde generated by lipid peroxidation, can affect cells and tissues and cause various disorders. Increased levels of unsaturated aldehydes play an important role in the pathogenesis of a number of human diseases such as Alzheimer's disease, atherosclerosis and diabetes. Acrolein is a highly ubiquitous toxic environmental pollutant. Because of human exposure, there is a need for investigating the mechanisms involved in acrolein toxicity at the cellular and molecular levels. Acrolein can induce cell death by apoptosis, although the mechanisms are not entirely clear. The present study investigates whether mitogen-activated protein kinases (MAPKs) play a role in activation of apoptosis by acrolein. Our findings show that acrolein-mediated apoptosis is in fact MAPK-dependent in Chinese hamster ovary cells. The MAP family kinases, including ERK and p38 kinase, and the transcription factor c-Jun were all activated by phosphorylation after 1 h exposure to acrolein. Phosphorylation of ERK and p38 kinases and their blockade by an ERK inhibitor, U0126, or a p38 inhibitor, SB203580, respectively, suggested that activation of apoptosis by acrolein is ERK- and p38-dependent. Thus, blockade of ERK and p38 inhibited chromatin condensation, caspase-7 and -9 activation as well as ICAD cleavage induced by acrolein. JNK and AKT kinases seem to be implicated in survival pathways against acrolein insult, since their respective inhibitors, SP600125 and LY294002/Wortmannin switched the mode of cell death from apoptosis to total necrosis. Finally, acrolein induced phosphorylation of the pro-apoptotic factor p53 which is responsible for transcription of pro-apoptotic factors such as Bax and Fas ligand. These results provide new information demonstrating the implication of MAPKs and AKT in acrolein-induced apoptosis, and this information may be useful for understanding the pathogenesis of a number of tissue diseases and environmental toxicity in response to acrolein.
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PMID:P38 and ERK mitogen-activated protein kinases mediate acrolein-induced apoptosis in Chinese hamster ovary cells. 1719 91

MAP Kinase Phosphatase-1 (MKP-1) is a dual specific phosphatase selective for MAP kinases, and was believed to implicate in the development of cardiac hypertrophy. However, whether MKP-1 is involved in the pathogenesis of diabetic cardiomyopathy is still unknown. We employed streptozotocin (STZ)-induced diabetic Sprague-Dawley rats to study the alteration of the MKP-1 expressions in the left ventricular myocardium in diabetic and normal groups by immunohistochemistry and real-time quantitative reverse transcription-polymerase chain reaction. The weight, blood sugar and urine sugar were measured before and after model induction in both control and diabetic groups. Changes of heart ultrastructure were analyzed by using transmission electron microscopy. The data of weight, blood sugar and urine sugar indicated no significant difference between the two groups before animal model induction. Eight weeks after the induction of diabetes, the differences between the control and the diabetic groups in weight, blood sugar and urine sugar were significant ( P<0.01). When compared with control, diabetic myocardium ultrastructural changes included myofibrillar disarrangements, mitochondria disruption, and increase in nuclear membrane invaginations. A significant decrease of MKP-1 expression was observed in the diabetic rats' myocardium ( P<0.01). Our study provides experimental evidences that hyperglycemia could damage myocardial ultrastructure. Moreover, we provided first evidence that down-regulation of cardioprotective peptide MKP-1, the MAPK pathway negative regulator, in myocardium of streptozotocin-induced diabetic rats, which may contribute to the deterioration of cardiac function and lead to diabetic cardiomyopathy.
Exp Clin Endocrinol Diabetes 2007 Jul
PMID:Expression changes of mitogen-activated protein kinase phosphatase-1 (MKP-1) in myocardium of streptozotocin-induced diabetic rats. 1764 44

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