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)

Insulin might play a role in the hypertension occurring in insulin-resistant diabetes. In addition, insulin has recently been shown to potentiate norepinephrine (NE) induced vascular tone. We used ring segments of the rabbit facial artery mounted in a myograph to test the hypothesis that potentiation of NE-induced tone by insulin may be related to activation of protein kinase C (PKC) and tyrosine kinase (TK). NE-induced contractions in the presence of insulin (1 mU/mL) were 200% (NE 0.1 and 0.3 microM), 252% (NE 1 microM), and 129% (NE 3 microM) of control. Insulin (1 mU/mL) had no effect on NE (10 and 100 microM) induced contractions. The potentiation by insulin of NE-induced tone was not altered by endothelium removal and could be mimicked by phorbol-12-myristate-13-acetate (PMA, 0.1 microM). Histamine-induced contractions were not altered by insulin (1 mU/mL). Insulin potentiation of NE-induced tone was suppressed by pretreatment of the rabbit facial artery with the PKC inhibitor calphostin C (0.1 microM) or the TK inhibitor genistein (10 microM). 45Ca2+ influx due to NE (3 microM) did not change in the presence of insulin (1 mU/mL) or PMA (0.1 microM) despite a higher contractile response, so that wall force per unit of 45Ca2+ influx was increased by insulin (1 mU/mL) and PMA (0.1 microM). Calphostin C (0.1 microM) and genistein (10 microM) both prevented the increase in wall force per unit of 45Ca2+ influx due to insulin (1 mU/mL). Our study shows that insulin potentiates NE-induced tone through a TK- and PKC-dependent mechanism.
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PMID:Insulin potentiates norepinephrine-induced vascular tone by activation of protein kinase C and tyrosine kinase. 753 May 92

Disturbances in gastric secretions are commonly associated with diabetes mellitus and are usually attributed to autonomic neuropathy. Systematic documentation of the effects of experimental diabetes on parietal cell functions are not available. This study has been designed to evaluate the acid secretory status of the parietal cells in streptozotocin (STZ) induced rat model of diabetes mellitus by assessing the effect of bilateral gastric vagotomy and histamine administration on them. Results show that bilateral gastric vagotomy in the control rats as well as in experimental diabetes lowers the acid secreting capacity of the parietal cells. In the diabetic rats, however, vagotomy does not further decrease the gastric acid secretion. Histamine stimulation augments the acid secretory response in the controls but this rise is substantially prevented in the diabetic state. Histamine challenge following vagotomy in normal controls elicits a sharp rise in gastric acid secretion though not to the same extent as seen in rats with intact vagi. In the diabetic rats however, histamine fails to augment acid secretion after vagotomy. Diabetes is thus seen to severely impair the acid secretory response of the parietal cells and their responsiveness to histamine.
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PMID:The effect of bilateral gastric vagotomy and histamine stimulation on parietal cell activity in streptozotocin induced diabetic rat model. 844 42

1. Effects of alloxan-induced diabetes on the rat gastric acid secretion were investigated using a number of biostatistical models described earlier. 2. Histamine-induced gastric acid secretion was found to be decreased in alloxan-diabetic rats when compared with their age-matched controls. 3. Basal acid secretion was also decreased depending on experimentally-induced diabetes. 4. The above results strongly suggest that alloxan-induced diabetes depresses vagal activity and H2-receptor activity in the stomach.
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PMID:Basal and histamine-induced gastric acid secretion in alloxan diabetic rats. 848 86

1. The activity of the human endothelial cell L-arginine transporter (system y+) has been correlated with cGMP production (index of nitric oxide) and prostacyclin (PGI2) release in umbilical vein endothelial cells cultured from normal or gestational diabetic pregnancies. 2. In non-diabetic and diabetic cells, transport of L-arginine was Na+ and pH independent, inhibited by other cationic L-arginine analogues and unaffected by neutral amino acids. 3. Diabetes was associated with an increased Vmax for saturable L-arginine transport (4.6 +/- 0.13 vs. 9.9 +/- 0.5 pmol (microgram protein)-1 min-1, P < 0.01), but had no effect on initial rates of transport for L-serine, L-citrulline, L-leucine or 2-deoxyglucose. 4. In non-diabetic and diabetic cells, elevated K+ resulted in a concentration-dependent inhibition in the initial rates of transport for L-arginine and the membrane potential-sensitive probe tetra[3H]phenylphosphonium (TPP+). 5. When resting membrane potential was measured using the whole-cell patch voltage clamp technique, diabetic cells were hyperpolarized (-78 +/- 0.3 mV) compared with non-diabetic cells (-70 +/- 0.04 mV, P < 0.04). Accumulation of [3H]TPP+ was also increased in diabetic compared with non-diabetic cells. 6. Basal intracellular cGMP levels were elevated 2.5-fold in diabetic cells, and L-NAME (100 microM), an inhibitor of nitric oxide synthase, abolished basal cGMP accumulation in non-diabetic and diabetic cells. 7. Histamine (10 microM) had no effect on L-arginine transport but evoked significant increases in cGMP in non-diabetic and diabetic cells, which were completely inhibited by L-NAME but unaffected by superoxide dismutase. 8. Basal and histamine-stimulated PGI2 release was decreased markedly in diabetic cells. 9. Our findings demonstrate that gestational diabetes is associated with phenotypic changes in fetal endothelial cells, which result in a membrane hyperpolarization, activation of the human endothelial cell L-arginine transporter (system y+), elevation of basal nitric oxide synthesis and decreased PGI2 production.
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PMID:Diabetes-induced activation of system y+ and nitric oxide synthase in human endothelial cells: association with membrane hyperpolarization. 858 1

The effects of a clinically used purified micronized flavonoid fraction (S5682) containing 90% diosmin and 10% hesperidin on increased microvascular permeability induced by histamine, bradykinin and leukotriene B4 (LTB4) were investigated by intravital microscopy in the cheek pouch preparation of diabetic hamsters. We also investigated the effects of S 5682 on macro- molecular permeability increase and leukocyte adhesion during ischemia-reperfusion using the same preparation. Diabetes was induced by an intraperitoneal injection of streptozotocin (50 mg/kg). S 5682, suspended in 10% lactose solution, or vehicle (10% lactose) was administered orally for 25 days at 20 mg/kg/day (10 mg/kg twice a day), starting 5 days after the streptozotocin injection. Fluorescein isothiocyanate-labelled dextran (molecular weight 150,000) was given intravenously, 30 min after completion of the cheek pouch preparation. The leukocytes were stained by continuous intravenous infusion of acridine orange (0.5 mg/ kg/min). Histamine (2 microMs), bradykinin (1 microM), and LTB4 (0.01 microM), applied topically for 5 min, increased the number of fluorescent vascular leakage sites in postcapillary venules. A temporary ischemia (duration: 30 min) with total circulatory arrest of the cheek pouch was obtained by clamping the neck of the everted pouch. The maximum number of leaky sites (per cm2 in the prepared area) which occurs either at 5 min after the beginning of each topical application or 10 min after the onset of reperfusion was quantified in UV light microscopy. The results from 60 animals divided into ten groups of 6 animals each are presented as means +/- SEM. In comparison with vehicle, S 5682 significantly inhibited the macromolecular permeability increasing the effect of histamine (343.8 +/- 18.5 vs. 91.0 +/- 8.2 leaks/ cm2; p > 0.001), bradykinin (347.0 +/- 14.6 vs. 110.3 +/- 8.5 leaks/cm2; p < 0.001) and LTB4 (323.0 +/- 15.5 vs. 161.3 +/- 13.8 leaks/cm2; p < 0.001). At reperfusion, after 30 min ischemia, S 5682 significantly decreased the observed macromolecular permeability (168.5 +/- 19.7 vs. 52.7 +/- 6.3 leaks/cm2; p < 0.01). Flavonoid-treated animals also tended to have a lower number of leukocytes adhering to the venular endothelium (104.8 +/- 11.0 vs. 75.8 +/- 9.7/6 mm2; p > 0.05). These results demonstrate that oral administration of S 5682 for 25 days at 20mg/kg body weight/day has a protective effect on leakage of macromolecules after application of permeability-increasing substances and during ischemia-reperfusion in the cheek pouch microvasculature of diabetic hamsters. In conclusion, the present data illustrating the inhibitory effect of a clinically relevant doses of S 5682 on the inflammatory processes induced in this in vivo model of microcirculation may serve as a rational basis to explain its clinical efficacy.
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PMID:Effects of oral administration of purified micronized flavonoid fraction on increased microvascular permeability induced by various agents and on ischemia/reperfusion in diabetic hamsters. 872 38

The goal of this study was to determine whether exogenous application of L-arginine could restore impaired agonist-induced increases in arteriolar diameter during diabetes mellitus. We used intravital microscopy to examine reactivity of cheek pouch arterioles (50 microns in diameter) in nondiabetic and diabetic (2 weeks after injection of streptozotocin) hamsters in response to histamine and substance P. In nondiabetic hamsters histamine (1.0 and 5.0 microM) dilated cheek pouch arterioles by 15 +/- 1 and 22 +/- 1%, respectively, and substance P (50 and 100 nM) dilated arterioles by 14 +/- 3 and 21 +/- 4%, respectively. In addition, dilatation of arterioles in response to histamine and substance P in nondiabetic hamsters was abolished by application of an enzymatic inhibitor of nitric oxide synthase (L-NMMA). In contrast, histamine- and substance P-induced increases in arteriolar diameter were markedly reduced in diabetic hamsters. Histamine (1.0 and 5.0 microM) dilated arterioles by only 5 +/- 1 and 4 +/- 2%, respectively, and substance P (50 and 100 nM) dilated arterioles by only 6 +/- 2 and 5 +/- 3%, respectively (p < 0.05 vs. nondiabetic hamsters). Nitroglycerin produced similar vasodilatation in nondiabetic and diabetic hamsters. Next, we examined whether exogenous application of L-arginine (100 microM) could restore impaired histamine- and substance P-induced increases in arteriolar diameter in diabetic hamsters. We found that L-arginine did not restore altered nitric oxide synthase-dependent vasodilatation in diabetic hamsters. These findings suggest that short-term diabetes mellitus alters agonist-induced increases in arteriolar diameter. In addition, the mechanism of altered arteriolar reactivity during diabetes mellitus does not appear to be related to an impaired availability of L-arginine.
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PMID:Effect of L-arginine on reactivity of hamster cheek pouch arterioles during diabetes mellitus. 927 60

A postal questionnaire was sent on two occasions to specialist anaesthetists within New Zealand. Questions were related to fasting status, anti-aspiration prophylaxis, incidence of aspiration, definition of high risk groups for aspiration pneumonitis, and identification of departmental guidelines. Two-hundred-and-twenty-three replies were received (72% response rate). Most adults, children and infants were fasted for 6 hours for solids, whilst the majority fasted for 2 to 4 hours for liquids. Two-thirds indicated that they would delay emergency surgery (not life/limb threatening) to optimize gastric emptying. Histamine type 2 receptor antagonists, metoclopramide and cricoid pressure were used commonly, more so in the obstetric population compared to non-obstetric surgery. Preinduction nasogastric intubation and suction were used infrequently. Anti-aspiration prophylaxis was deemed important in morbidly obese patients, those in the third trimester of pregnancy and those with a hiatus hernia, whilst diabetes mellitus, sepsis and renal failure were not considered risk factors for aspiration pneumonitis. 71% of respondents had at least one episode of aspiration (range 0-10), with an overall mortality rate of 5%. Half of these cases of aspiration were deemed to be preventable by the respondent.
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PMID:Anti-aspiration prophylaxis in New Zealand: a national survey. 951 72

Leptin resistance has recently been confirmed not only in animal obese models but in human obesity. Evidence is rapidly emerging that suggests that activation of histamine signaling in the hypothalamus may have substantial anti-obesity and antidiabetic actions, particularly in leptin-resistant states. To address this issue, effects of central, chronic treatment with histamine on food intake, adiposity, and energy expenditure were examined using leptin-resistant obese and diabetic mice. Infusion of histamine (0.05 pmol x g body wt(-1) x day(-1)) into the lateral cerebroventricle (i.c.v.) for 7 successive days reduced food intake and body weight significantly in both diet-induced obesity (DIO) and db/db mice. Histamine treatment reduced body fat weight, ob gene expression, and serum leptin concentration more in the model mice than in pair-fed controls. The suppressive effect on fat deposition was significant in visceral fat but not in subcutaneous fat. Serum concentrations of glucose and/or insulin were reduced, and tests for glucose and insulin tolerance showed improvement of insulin sensitivity in those mice treated with histamine compared with pair-fed controls. On the other hand, gene expression of uncoupling protein (UCP)-1 in brown adipose tissue and UCP-3 expression in white adipose tissue were upregulated more in mice with i.c.v. histamine infusion than in the pair-fed controls. These upregulating effects of histamine were attenuated by targeted disruption of the H1-receptor in DIO and db/db mice. Sustained i.c.v. treatment with histamine thus makes it possible to partially restore the distorted energy intake and expenditure in leptin-resistant mice. Together, i.c.v. treatment with histamine contributes to improvement of energy balance even in leptin-resistant DIO and db/db mice.
Diabetes 2001 Feb
PMID:Central infusion of histamine reduces fat accumulation and upregulates UCP family in leptin-resistant obese mice. 1127 50

Histamine neurons are widely distributed in the brain and suppress food intake through the histamine H1 receptor (H1-R) in the hypothalamus. To examine the role of neuronal histamine in leptin signaling pathways, we investigated the effects of H1-R knockout (H1KO) mice on both food intake and mRNA expressions of uncoupling proteins (UCPs) as regulated by leptin, and concomitantly on basal changes in both expression of hypothalamic neuropeptides and diet-induced fat deposition in adipose tissues. H1KO mice showed no change in daily food intake, growth curve, body weight, or adiposity. Reflecting no specificity in these parameters, H1KO mice induced no basal changes in mRNA expression of hypothalamic neuropeptides, ob gene, or peripheral UCPs. Loading H1KO mice with a high-fat diet accelerated fat deposition and ob gene expression compared with the controls. Leptin-induced feeding suppression was partially attenuated in H1KO mice, indicating involvement of histamine neurons in feeding regulation as a downstream signal of leptin. Upregulation of fat UCP mRNA and reduction of body fat induced by central infusion of leptin were attenuated in the H1KO mice. These results show that H1KO mice are a novel leptin-resistant model and that H1-R is a key receptor for downstream signaling of leptin in the brain that contributes to regulation of feeding, fat deposition, and UCP mRNA expression.
Diabetes 2001 Feb
PMID:Targeted disruption of histamine H1-receptor attenuates regulatory effects of leptin on feeding, adiposity, and UCP family in mice. 1127 51

Histamine is a classical, but still interesting inflammatory mediator. Many people have long believed that histamine is derived from mast cells or basophils alone. However, the histamine-forming enzyme, histidine decarboxylase (HDC), is induced in a variety of tissues in response (i) to gram-positive and gram-negative bacterial components (lipopolysaccharides, peptidoglycan, and enterotoxin A) and (ii) to various cytokines (IL-1, IL-3, IL-12, IL-18, TNF, G-CSF, and GM-CSF). HDC is induced even in mast-cell-deficient mice. The histamine newly formed via the induction of HDC is released immediately and may be involved in a variety of immune responses. Reviewing our work and that of Schayer and Kahlson, the pioneers in this field, lead us to the conclusion that nowadays we need to understand that histamine can be produced via the induction of HDC by a mechanism coupled with the cytokine network. We call this histamine "neohistamine", to distinguish it from the classical histamine derived from mast cells or basophils. Neohistamine is involved in physiological reactions, inflammation, immune responses and a variety of diseases such as periodontitis, muscle fatigue (or temporomandibular disorders), stress- or drug-induced gastric ulcers, rheumatoid arthritis, complications in diabetes, hepatitis, allograft rejection, allergic reactions, tumor growth, and inflammatory side effects of aminobisphosphonates.
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PMID:[Induction of histidine decarboxylase in inflammation and immune responses]. 1149 27

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