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Query: UMLS:C0011849 (
diabetes
)
277,896
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
Interleukin-1beta (IL-1beta) has been implicated as an effector molecule of beta-cell destruction in autoimmune
diabetes
. IL-1beta inhibits insulin secretion from pancreatic beta-cells by stimulating the expression of inducible nitric oxide synthase (iNOS) that generates the free radical nitric oxide. IL-1beta also induces the coexpression of the inducible isoform of
cyclooxygenase
(COX-2) that results in the overproduction of proinflammatory prostaglandins. The current studies were designed to characterize the involvement of protease(s) in the signaling pathway of IL-1beta-induced iNOS and COX-2 expression by rat islets and transformed rat pancreatic beta-cells. Because of the limitations of cell numbers of purified primary beta-cells obtained from rat islets, biochemical and molecular studies were performed using the rat insulinoma beta-cell line RINm5F. A serine protease inhibitor, Nalpha-P-tosyl-L-lysine chloromethyl ketone (TLCK), and a proteasome complex (26S) inhibitor, MG 132, inhibited IL-1beta-induced nitrite formation, an oxidation product of nitric oxide produced by iNOS, in a concentration-dependent manner, with complete inhibition observed at 100 micromol/l and 10 micromol/l, respectively. Both TLCK and MG 132 also inhibited iNOS gene expression at the level of mRNA and protein. In an analogous manner, TLCK (100 micromol/l) and MG 132 (10 micromol/l) inhibited IL-1beta-induced COX-2 enzyme activity (PGE2 formation) and COX-2 gene expression at the level of mRNA and protein. In human islets, the proteasome inhibitor MG 132 also inhibited the formation of the products of iNOS and COX-2 enzyme activity, nitrite, and PGE2, respectively. These findings suggest that the inhibitory action of TLCK and MG 132 on iNOS and COX-2 expression precedes transcription. The transcription factor NFkappaB is essential for activation of a number of cytokine-inducible enzymes and was evaluated as a possible site of protease action necessary for IL-1beta-induced coexpression of iNOS and COX-2. TLCK and MG 132 inhibited both IL-1beta-induced activation of NFkappaB and degradation of IkappaBalpha by islets and RINm5F cells. These results implicate protease activation as an early signaling event in IL-1beta-induced inhibition of beta-cell function. This study also suggests that IL-1beta-induced iNOS and COX-2 coexpression by pancreatic beta-cells share a common signaling pathway in utilizing the proteasome complex (26S) and the transcription factor NFkappaB, and it identifies sites of intervention to prevent the overproduction of their inflammatory products.
Diabetes
1998 Apr
PMID:Evidence for involvement of the proteasome complex (26S) and NFkappaB in IL-1beta-induced nitric oxide and prostaglandin production by rat islets and RINm5F cells. 956 91
Previous studies have suggested that the metabolism of arachidonic acid and radical oxygen species (ROS) are altered in
diabetes
and that these disturbances may induce severe embryonic dysmorphogenesis in diabetic pregnancy. We tested this hypothesis by studying whether an inhibition of the rate-limiting enzyme of prostaglandin biosynthesis,
cyclooxygenase
(
COX
), caused developmental disturbances analogous to those seen in embryos exposed to high glucose concentration. Whether antioxidants could prevent such developmental alterations was also investigated. Whole embryo culture was used in which day-9 embryos were exposed to high concentrations of glucose, arachidonic acid, prostaglandin (PG)E2,
COX
inhibitors, and antioxidants for 48 h. Increased glucose concentration (from 10 to 30 mmol/l) caused embryonic dysmorphogenesis, and addition of either 60 pmol/l arachidonic acid or 280 nmol/l PGE2 largely protected the embryo from this maldevelopment. Furthermore, exposure to the
COX
inhibitors indomethacin (200 micromol/l) or acetylsalicylic acid (700 micromol/l) in 10 mmol/l glucose concentration yielded embryonic dysmorphogenesis similar to that caused by 30 mmol/l glucose. Supplementation of either arachidonic acid or PGE2 to the culture medium with
COX
inhibitors in low glucose rectified the embryonic development, and PGE2 supplementation also normalized the development of embryos cultured with
COX
inhibitors in high glucose concentration. Interestingly, the antioxidants superoxide dismutase (SOD) and N-acetylcysteine (NAC) were each able to diminish the dysmorphogenesis induced by the
COX
inhibitors, at doses previously shown to diminish glucose-induced embryonic damage in the same in vitro culture system. In conclusion, the present study shows that a high glucose concentration disturbs embryonic development and that this disturbance may be partly mediated via altered metabolism of arachidonic acid and ROS in the embryo.
Diabetes
1998 Apr
PMID:Antioxidants diminish developmental damage induced by high glucose and cyclooxygenase inhibitors in rat embryos in vitro. 956 3
Dramatic, scientifically important discoveries in prostaglandin (PG) pharmacology and physiology have taken place over the past decade. Chief among these discoveries is the identification of two separate forms of
cyclooxygenase
(
COX
), a constitutive and an inducible form, both of which exist in most tissues. The pancreatic islet is an exception to this rule because it continually and dominantly expresses the inducible form, COX-2. It has also been learned that nonsteroidal anti-inflammatory drugs affect the two forms of
COX
with different potencies, a finding with far-reaching clinical implications. An equally important finding is that PGE2, which is known to negatively modulate glucose-induced insulin secretion, has at least four different subtypes of receptors with different mechanisms of action and metabolic consequences. These recent changes in our understanding of the molecular regulation of PG synthesis call for a reconsideration of previous hypotheses involving PGE2 as a regulator of beta-cell function in physiological and pathophysiological states.
Diabetes
1998 Sep
PMID:Dominance of cyclooxygenase-2 in the regulation of pancreatic islet prostaglandin synthesis. 972 24
Troglitazone is a new class of antidiabetic agent possessing radical scavenging ability similar to vitamin E. Because of this ability, it is expected to improve decreased nutritive capillary blood flow in
diabetes
. In the present study, we investigated the effects of troglitazone on skin blood flow(SBF) in normal and streptozotocin(STZ)-induced diabetic rats. Effects of troglitazone on vasodilation, PGI2 and PGE2 production were also assessed in perfused hindlimb, isolated rat aorta rings and 3T6 fibroblasts, respectively. SBF at the base of the tail was decreased in STZ diabetic rats (2.1+/-0.2 ml/min/100 g) compared with normal rats (3.8+/-0.2 ml/min/100 g). This decrease of SBF was significantly improved (2.9+/-0.2 ml/min/100 g) by troglitazone treatment (approximately 220 mg/kg/day) for 7 days in STZ diabetic rats without alleviating hyperglycemia. Similar troglitazone treatment (approximately 160 mg/kg/day for 7 days) tended to increase SBF (approximately 30%) even in normal rats. In normal rats, subcutaneous administration of troglitazone (60 mg/kg) acutely increased SBF and, this increase was suppressed by 70% with pretreatment (10 mg/kg s.c.) of indomethacin,
cyclooxygenase
inhibitor, suggesting that troglitazone increases skin blood flow predominantly by increasing PGI2 and PGE2 production. In hindlimb perfusion under fixed flow rate, troglitazone infusion (20 microM) significantly decreased perfusion pressure by 13%, which reflects vasodilation of blood vessels. This decrease of perfusion pressure was inhibited by concomitant infusion of indomethacin but not N-monomethyl-L-arginine, inhibitor of nitric oxide synthase. In vitro studies, using isolated rat aorta rings, revealed that troglitazone (4.5 to 45 microM) increases PGI2 production by 31 and 70%, respectively. In 3T6 fibroblast (a component of skin tissue), troglitazone at a low dose of 0.3 microM increased PGI2 and PGE2 by 200% and 25%, respectively. Overall all, these results suggest that troglitazone increases nutritive SBF probably by virtue of its radical scavenging thus the resulting in an increase in PGI2 and PGE2 production in blood vessels and fibroblast. Troglitazone may alleviate impaired microcirculation in diabetic patients through these effects.
...
PMID:Troglitazone, a new antidiabetic agent possessing radical scavenging ability, improved decreased skin blood flow in diabetic rats. 983 48
Severe
diabetes
in pregnant rats produces persistent metabolic consequences in adult offspring. This study investigated whether
diabetes
in pregnant rats could also lead to cardiovascular abnormalities in the adult offspring. Blood pressure, heart rate and in vitro vascular reactivity of small arteries were evaluated in female adult offspring of control rats and of rats rendered diabetic with streptozotocin. Rise in blood pressures were similar in both groups of offspring but heart rate was lower in the diabetic offspring (p < 0.05). The rise in blood pressure associated with infusion of a nitric oxide synthase inhibitor was similar in both groups, but the associated decrease in heart rate was more pronounced in diabetic offspring (p < 0.01). Small mesenteric arteries from this group showed enhanced sensitivity to noradrenaline (p < 0.05) and abnormal endothelium-dependent relaxation to acetylcholine (p < 0.01) and bradykinin (p < 0.05). Reduction in acetylcholine induced relaxation, reflected reduced synthesis of nitric oxide or a
cyclooxygenase
product and was not attributable to an endothelium-derived hyperpolarizing factor. Sensitivity to exogenous nitric oxide was normal. A subgroup of pups born to diabetic dams were suckled by control maternal dams and a subgroup of those born to controls by diabetic dams. Suckling was an important determinant of impaired growth; offspring of diabetic rats suckled by their own mother and those of control rats by diabetic dams showed impaired growth rates whereas growth of offspring of diabetic rats suckled by control dams paralleled those of control rats suckled by their own mother.
...
PMID:Streptozotocin diabetes in the pregnant rat induces cardiovascular dysfunction in adult offspring. 1002 83
Previous experimental studies suggest that diabetic embryopathy is associated with an excess of radical oxygen species (ROS), as well as with a disturbance of prostaglandin (PG) metabolism. We aimed to investigate the relationship between these pathways and used hyperglycemia in vitro (embryo culture for 24-48 h) and maternal
diabetes
in vivo to affect embryonic development. Subsequently, we assessed lipid peroxidation and gene expression of
cyclooxygenase
(
COX
)-1 and -2 and measured the concentration of prostaglandin E2 (PGE2) in embryos and membranes. Both hyperglycemia in vitro and maternal
diabetes
in vivo caused embryonic dysmorphogenesis and increased embryonic levels of 8-epi-PGF2alpha, an indicator of lipid peroxidation. Addition of N-acetylcysteine (NAC) to the culture medium normalized the morphology and 8-epi-PGF2alpha concentration of the embryos exposed to high glucose. Neither hyperglycemia nor
diabetes
altered COX-1 expression, but embryonic COX-2 expression was diminished on gestational day 10. The PGE2 concentration of day 10 embryos and membranes was decreased after exposure to high glucose in vitro or
diabetes
in vivo. In vitro addition of NAC to high glucose cultures largely rectified morphology and restored PGE2 concentration, but without normalizing the COX-2 expression in embryos and membranes. Hyperglycemia/
diabetes
-induced downregulation of embryonic COX-2 gene expression may be a primary event in diabetic embryopathy, leading to lowered PGE2 levels and dysmorphogenesis. Antioxidant treatment does not prevent the decrease in COX-2 mRNA levels but restores PGE2 concentrations, suggesting that
diabetes
-induced oxidative stress aggravates the loss of COX-2 activity. This may explain in part the antiteratogenic effect of antioxidant treatment.
Diabetes
1999 Apr
PMID:Developmental damage, increased lipid peroxidation, diminished cyclooxygenase-2 gene expression, and lowered prostaglandin E2 levels in rat embryos exposed to a diabetic environment. 1010 98
The contribution of diacylglycerol (DAG) and protein kinase C (PKC) to diabetic complications has been the subject of debate. In vascular tissues,
diabetes
increases DAG content, which activates PKC and causes abnormal tissue perfusion. Reduced nerve blood flow has been implicated in the development of neuropathy. However, nerve DAG/PKC activity is not increased and may even be reduced by
diabetes
, which has also been implicated in neuropathy. The aim was to test whether 2 weeks of treatment with cremophor, an agent that complexes DAG and prevents PKC activation, could correct nerve-conduction velocity (NCV) deficits in rats with 6 weeks of untreated
diabetes
, as predicted on a vascular hypothesis, or whether this worsened the deficits, as predicted for a direct effect on nerve fibers.
Diabetes
caused 17.9 +/- 0.9% (+/- SEM) and 15.5 +/- 1.6% reductions in sciatic motor and saphenous sensory NCV, respectively, that were largely (79.6 +/- 6.3% and 57.8 +/- 11.5%) corrected by 100 mg x kg(-1) x day(-1) cremophor treatment. The effects of cremophor on motor and sensory NCV were completely attenuated by co-treatment with the nitric oxide synthase inhibitor, N(G)-nitro-l-arginine. In contrast, co-treatment with the
cyclooxygenase
inhibitor, flurbiprofen, had no effect on NCV. Sciatic nutritive and total endoneurial perfusion were 49.7 +/- 3.4% and 51.8 +/- 4.2% reduced by
diabetes
, respectively, and these deficits were 69.5 +/- 7.4% and 79.0 +/- 11.6% corrected by cremophor treatment. Thus the data suggest that an increased DAG/PKC vascular mechanism, perhaps linked to the nitric oxide system, contributes to the etiology of diabetic nerve dysfunction.
J
Diabetes
Complications
PMID:Effects of the diacylglycerol complexing agent, cremophor, on nerve-conduction velocity and perfusion in diabetic rats. 1023 3
Prostaglandins (PGs) are lipid molecules that profoundly affect cellular processes including inflammation and immune response. Pathways contributing to PG output are highly regulated in antigen-presenting cells such as macrophages and monocytes, which produce large quantities of these molecules upon activation. In this report, we demonstrate aberrant constitutive expression of the normally inducible
cyclooxygenase
PG synthase 2 (PGS(2)/ COX-2) in nonactivated monocytes of humans with insulin-dependent
diabetes mellitus
(IDDM) and those with islet autoantibodies at increased risk of developing this disease. Constitutive PGS(2) appears to characterize a high risk for
diabetes
as it correlates with and predicts a low first-phase insulin response in autoantibody-positive subjects. Abnormal PGS(2) expression in at-risk subjects affected immune response in vitro, as the presence of a specific PGS(2) inhibitor, NS398, significantly increased IL-2 receptor alpha-chain (CD25) expression on phytohemagglutinin-stimulated T cells. The effect of PGS(2) on CD25 expression was most profound in subjects expressing both DR04 and DQbeta0302 high-risk alleles, suggesting that this
cyclooxygenase
interacts with
diabetes
-associated MHC class II antigens to limit T-cell activation. These results indicate that constitutive PGS(2) expression in monocytes defines an antigen-presenting cell defect affecting immune response, and that this expression is a novel cell-associated risk marker for IDDM.
...
PMID:Aberrant prostaglandin synthase 2 expression defines an antigen-presenting cell defect for insulin-dependent diabetes mellitus. 1044 43
Thyroid-associated orbitopathy (TAO) involves a remodelling of the connective tissue in the orbit, accumulation of the non-sulfated glycosaminoglycan, hyaluronan, and often intense inflammation. Orbital fibroblasts exhibit a remarkable susceptibility to various actions of pro-inflammatory cytokines and these molecular interactions we hypothesize are the basis for the peculiar tissue changes seen in ophthalmopathy, including the accumulation of hyaluronan. We have found that several pro-inflammatory cytokines can dramatically induce prostaglandin endoperoxide H synthase-2 (PGHS-2), the inflammatory
cyclooxygenase
, and that this induction results in a substantial increase in PGE2 production. The increase in
cyclooxygenase
expression and PGE2 synthesis can be blocked with glucocorticoids. The magnitude of the up-regulation of the prostanoid biosynthetic machinery in orbital fibroblasts from patients with ophthalmopathy was considerably greater than that found in dermal cultures or in orbital fibroblasts from normal tissue. Orbital fibroblasts, unlike most fibroblasts, express CD40 and when that surface receptor is cross-linked with CD154, its natural ligand, a number of inflammation-related genes are activated. These include IL-1alpha, IL-6, IL-8 and PGHS-2. It would appear that orbital fibroblasts, especially those from patients with ophthalmopathy, exhibit several exaggerated responses to pro-inflammatory signals and that those cellular actions could provide the molecular basis for orbital tissue remodelling.
Exp Clin Endocrinol
Diabetes
1999
PMID:The putative role of prostaglandin endoperoxide H synthase-2 in the pathogenesis of thyroid-associated orbitopathy. 1061 12
In this study, the anti-inflammatory actions of the peroxisome proliferator-activated receptor (PPAR)-gamma agonists 15-deoxy-delta 12,14-prostaglandin J2 (15-d-delta 12,14-PGJ2) and troglitazone have been examined. Treatment of RAW 264.7 cells and CD-1 mouse peritoneal macrophages with lipopolysaccharide (LPS) + interferon-gamma (IFN-gamma) results in inducible nitric oxide synthase (iNOS), inducible
cyclooxygenase
(COX-2) and interleukin-1 (IL-1) expression, increased production of nitric oxide, and the release of IL-1. In a concentration-dependent manner, 15-d-delta 12,14-PGJ2 inhibits each of these proinflammatory actions of LPS + IFN-gamma, with half-maximal inhibition at approximately 0.5 microg/ml and complete inhibition at 1-5 microg/ml. The inhibitory actions of 15-d-delta 12,14-PGJ2 on LPS + IFN-gamma-induced inflammatory events are not associated with the inhibition of iNOS enzymatic activity or macrophage cell death, but appear to result from an inhibition of iNOS and IL-1 transcription. In addition, the anti-inflammatory actions of 15-d-delta 12,14-PGJ2 are not limited to peritoneal macrophages, as 15-d-delta 12,14-PGJ2 prevents TNF-alpha + LPS-induced resident islet macrophage expression of IL-1beta and beta-cell expression of iNOS stimulated by the local release of IL-1 in rat islets. 15-d-delta 12,14-PGJ2 appears to be approximately 10-fold more effective at inhibiting resident islet macrophage activation (in response to TNF + LPS) than IL-1-induced nitrite production by beta-cells. Two mechanisms appear to be associated with the antiinflammatory actions of both 15-d-delta 12,14-PGJ2 and troglitazone: 1) the direct inhibition of cytokine- and endotoxin-stimulated iNOS and IL-1 transcription; and 2) the inhibition of IL-1 signaling, an event associated with PPAR-gamma agonist-induced activation of the heat shock response (as assayed by heat shock protein 70 expression). These findings indicate that the PPAR-gamma agonists, troglitazone and the J series of prostaglandins, are potent anti-inflammatory agents that prevent cytokine- and endotoxin-stimulated activation of peripheral and resident tissue macrophages and cytokine-induced iNOS expression by beta-cells by the inhibition of transcriptional activation and induction of the heat shock response.
Diabetes
2000 Mar
PMID:Anti-inflammatory actions of 15-deoxy-delta 12,14-prostaglandin J2 and troglitazone: evidence for heat shock-dependent and -independent inhibition of cytokine-induced inducible nitric oxide synthase expression. 1086 55
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