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)

Heroin, like morphine, given intracerebroventricularly produces analgesia by acting on mu opioid receptors in most mice. In contrast, in Swiss Webster mice, heroin has the unusual property of acting on brain delta opioid receptors whereas morphine still acts on mu receptors. The literature indicates that in diabetic mice and rats, the mu agonist potency of morphine is diminished while that to a delta receptor agonist is enhanced. The purpose of the present study was to determine if the response to heroin occurred through a delta receptor in the brain of streptozotocin-induced diabetic Sprague-Dawley rats. One week after a cannula was surgically implanted in the lateral ventricle, diabetes was induced by intravenous administration of 55 mg/kg of streptozotocin. Three days later the receptor selectivity of intraventricular heroin in the tail flick test was determined by coadministration of opioid antagonists. In nondiabetic rats, a rightward shift in the dose response curve for heroin was produced by naloxone. D-Phe-Cys-Tyr-D-Trp-Orn-Thr-Pen-ThrNH2, a more mu receptor selective antagonist given in a single dose experiment, also inhibited heroin action. Thus, heroin acted on mu receptors. In diabetic rats, intracerebroventricular naltrindole, but not naloxone nor CTOP, inhibited the heroin response and indicated a delta agonist action for heroin. Inhibition by intrathecal yohimbine of the mu (nondiabetic) and bicuculline of the delta response (diabetic) suggested spinal alpha2-adrenergic and GABA(A) receptor mediation, respectively, for the descending systems. In conclusion, the response to heroin was changed from mu in nondiabetic rats to a delta receptor action in diabetic rats. Understanding the basis for this change in receptor selectivity of heroin could provide an important avenue for investigating determinants of opioid receptor function.
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PMID:Heroin acts on delta opioid receptors in the brain of streptozocin-induced diabetic rats. 971 77

A total of 12 women (24.2 +/- 1.6 years old, BMI 36.7 +/- 1.5 Kg/m2) with hyperandrogenism (HA) and with normal glucose tolerance test were studied to evaluate the involvement of endogenous opioids in the pathophysiology of insulin secretion and insulin sensitivity in HA by administering naltrexone, an oral opioid receptor antagonist. Six patients received naltrexone orally (75 mg daily) and another six received placebo for 12 weeks (double-blind study). Before and after therapy a frequently sampled intravenous glucose tolerance test (FSIVGTT) was performed. The insulin sensitivity index (SI) was determined by Bergman's program. SHBG, DHEAS, testosterone, free androgen index (FAI) and plasma concentrations of IGF-I and IGFBP-1 were determined in 3 basal samples, before and after therapy. Treatment with naltrexone in hyperandrogenic patients resulted in a decrease in fasting insulin concentrations of 40% and C-peptide concentrations of 50% (p < 0.05). Insulin and C-peptide from the FSIVGTT displayed a similar pattern with a fall in the area under the curve under naltrexone treatment of 34% for insulin and 35% for C-peptide. Insulin sensitivity did not change under naltrexone (1.26 +/- 0.19 vs 1.32 +/- 0.32 10(-4) x min(-1)/(uU/ml)) or placebo (0.95 +/- 0.19 vs 1.12 +/- 0.28 10(-4) x min(-1)/(uU/ml)) administration. However, glucose effectiveness increased significantly with naltrexone (2.231 +/- 0.002 vs 3.354 +/- 0.006 x 10(-2) min(-1)). Glucose (fasting and area under the curve) was not modified significantly after naltrexone administration. Baseline hormone levels were similar in the two groups, and they did not change after long-term treatment with naltrexone or placebo. In conclusion, these results support the hypothesis of elevated opioid tonus and increased insulin secretion as a possible mechanism of hyperinsulinism in a group of hyperandrogenic women of ovarian origin. This alteration could act as an additional factor in the pathogenesis of insulin resistance found in an important proportion of these patients.
Exp Clin Endocrinol Diabetes 1998
PMID:Naltrexone effects on insulin sensitivity and insulin secretion in hyperandrogenic women. 983 4

CD-1 mice were treated intravenously with streptozotocin, 200 mg/kg, and tested 2 weeks later or treated with 60 mg/kg and tested 3 days later. Both treatments changed the tail flick response of heroin and 6-monoacetylmorphine (6 MAM) given intracerebroventricularly from a mu- to delta-opioid receptor-mediated action as determined by differential effects of opioid receptor antagonists. The response to morphine remained mu. Heroin and 6 MAM responses involved delta1 (inhibited by 7-benzylidenenaltrexone) and delta2 (inhibited by naltriben) receptors, respectively. These delta-agonist actions did not synergize with the mu-agonist action of morphine in the diabetic mice. The expected synergism between the delta agonist, [D-Pen2-D-Pen5]enkephalin (DPDPE), and morphine was not obtained in diabetic mice. Thus, diabetes disrupted the purported mu/delta-coupled response. In nondiabetic CD-1 mice, heroin and 6 MAM produced a different mu-receptor response (not inhibited by naloxonazine) from that of morphine (inhibited by naloxonazine). Also, these mu actions, unlike that of morphine, did not synergize with DPDPE. The unique receptor actions and changes produced by streptozotocin suggest that extrinsic in addition to genetic factors influence the opioid receptor selectivity of heroin and 6 MAM.
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PMID:Heroin antinociception changed from mu to delta receptor in streptozotocin-treated mice. 992 Feb 1

The present study was conducted to characterize the development of tactile allodynia in the streptozotocin-induced rat model of diabetes, and to evaluate the antinociceptive effects of systemically administered morphine and the adenosine kinase inhibitor, 5'-deoxy-5-iodotubercidin (5'd-5IT) in this model. Rats were injected with 75 mg/kg streptozotocin (i.p.), and blood glucose levels were determined 3-4 weeks later. Diabetic (blood glucose levels > or = 250 mg/dl) and vehicle-injected rats were examined weekly for the development of tactile allodynia by measuring the threshold for hind paw withdrawal using von Frey hairs. Withdrawal thresholds were reduced to 6.8+/-0.6 g (mean+/-S.E.M.) in approximately one-third of streptozotocin-treated rats 7 weeks after streptozotocin treatment as compared to control thresholds (13.2+/-0.1 g), and this allodynia persisted for at least an additional 7 weeks. In additional experiments, morphine sulfate (5-21 micromol/kg, i.p.) produced dose-dependent antinociceptive effects on tactile allodynia for up to 2 h post-dosing. The adenosine kinase inhibitor, 5'd-5IT (2.5 and 5 micromol/kg, i.p.) also dose-dependently attenuated tactile allodynia. Pretreatment with the opioid receptor antagonist, naloxone (27 micromol/kg, i.p.) or the non-selective adenosine receptor antagonist, theophylline (111 micromol/kg, i.p.) significantly diminished the anti-allodynic effects of morphine and 5'd-5IT, respectively. The present study demonstrates that the potent and selective adenosine kinase inhibitor, 5'd-5IT, is equally effective as morphine in blocking tactile allodynia in this model.
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PMID:An adenosine kinase inhibitor attenuates tactile allodynia in a rat model of diabetic neuropathic pain. 993 16

Many clinical and experimental studies have suggested that diabetes or hyperglycemia alter pain sensitivity, and sensitivity to several drugs. It has been reported that the antinociceptive potency of morphine is decreased in several rodent models of hyperglycemia, including streptozotocin-induced diabetes, an animal models of type I diabetes. The present study was designed to investigate in streptozotocin-induced diabetic mice the effect of the selective micro-opioid agonist [D-Ala(2), NMePhe(4), Gly-ol(5)]enkephalin (DAMGO) on G-protein activation by monitoring guanosine-5'-O-(3-[35S]thio)triphosphate ([35S]GTPgammaS) binding to pons/medulla membranes, which contain the key areas for opioid antinociception. In the tail-flick test, DAMGO (1-10 ng, intracerebroventricularly) produced a marked dose-dependent antinociception in non-diabetic mice. In streptozotocin-induced diabetic mice, the effect of DAMGO was significantly attenuated as compared to that in non-diabetic mice. In the [35S]GTPgammaS binding assay, DAMGO (0.1-10 microM) increased the binding of [35S]GTPgammaS to pons/medulla membranes from non-diabetic mice in a concentration-dependent manner, affording approximately 100% maximal stimulation at 10 microM. The maximal stimulation of [35S]GTPgammaS binding by DAMGO (10 microM) in streptozotocin-induced diabetic mice (100.55+/-3.12%), was similar to non-diabetic mice. The present results indicated that the antinociceptive effect of DAMGO given supraspinally was less potent in streptozotocin-induced diabetic mice than that in non-diabetic mice, whereas the mu-opioid receptor-mediated G-protein activation in pons/medulla was unaltered in streptozotocin-induced diabetic mice. Thus, the attenuation of DAMGO-induced antinociception in streptozotocin-induced diabetic mice is probably caused by dysfunction in cellular pathways after the activation of G-proteins.
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PMID:Effects of a mu-opioid receptor agonist on G-protein activation in streptozotocin-induced diabetic mice. 1091 37

Previous evaluation of antinociceptive action in experimental diabetes has been conducted almost exclusively in chemically induced diabetes mellitus. The purpose of the present study was to evaluate antinociceptive response and G-protein activation by mu-opioid receptor and delta-opioid receptor agonists in the genetic non-obese diabetic (NOD) mouse, a model of type I insulin-dependent diabetes mellitus (IDDM). Tail-flick latency before and after hyperglycemia was unaltered. Hyperglycemic NOD mice were hyporesponsive to intracerebroventricular (i.c.v.) injections of [D-Ala(2)]deltorphin II but not to [D-Ala(2), N-MePhe(4), Gly-ol(5)]enkephalin (DAMGO); however, G-protein activation in pons/medulla assessed by [35S]GTPgammaS binding was not diminished. This suggests that a G-protein defect in signaling cannot account for the hyporesponsiveness of antinociception in this genetic model of IDDM.
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PMID:Decreased opioid-induced antinociception but unaltered G-protein activation in the genetic-diabetic NOD mouse. 1093 96

Diabetic neuropathy is a most-convoluted complication. Diabetic gastropathy, ulcers, diarrhea, and bladder dysfunction are the major peripheral neuropathies. Peripheral neuropathies have been the primary neuroscience focus of diabetes research. In contrast to the periphery, the brain is not usually thought to be a target of chronic diabetic complications. However, the impact of diabetes mellitus on the central nervous system has recently gained attention. It is well known that diabetes or hyperglycemia influences the sensitivity of laboratory animals to various pharmacological agents. An increased sensitivity of hyperglycemic or diabetic animals to barbiturates and a decreased sensitivity of D-amphetamine, p-chloroamphetamine, and carbon tetrachloride have been demonstrated. Furthermore, it was reported that mice and rats with streptozotocin-induced diabetes and spontaneously diabetic mice are significantly less sensitive than non-diabetic mice to the antinociceptive effect of morphine. However, little information is available regarding the mechanism responsible for these changes. It is well established that anxiety and depression are common in patients with diabetes. Moreover, diabetic animals showed significantly more anxiogenic activity than non-diabetic animals did. However, the mechanisms through which diabetes may contribute to the development of, or be a risk factor for, psychiatric disorders are not clear. We provide an overview of our current understanding of the effects of streptozotocin-induced diabetes on the opioid receptor and the benzodiazepine receptor.
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PMID:[Modifications of several pharmacological actions by diabetes: effects on the opioid receptor agonist and benzodiazepines]. 1237 65

Diabetic neuropathic pain, an important microvascular complication in diabetes mellitus, has been recognised as one of the most difficult types of pain to treat. Lack of understanding of etiology involved, inadequate relief, development of tolerance and potential toxicity of classical antinociceptives warrant the investigation of newer agents to relieve pain. The aim of the present study was to explore the antinociceptive effect of a bioflavonoid, quercetin, both in control and streptozotocin (STZ)-induced diabetic mice. After 4 weeks of a single intraperitoneal injection of STZ (200 mg/kg), both control and diabetic mice were subjected to test thermal hyperalgesia by tail-immersion assay (warm water). Diabetic mice exhibited a significant hyperalgesia as compared with control mice. Quercetin (100 but not 50 mg/kg p.o.) produced a marked increase in tail-flick latencies in both diabetic and nondiabetic mice. Quercetin-induced increase in nociceptive threshold was reversed by naloxone (2 mg/kg i.p.), an opioid receptor antagonist. These preliminary results indicate an antinociceptive activity of quercetin, probably through modulation of opioidergic mechanism and point towards its potential to attenuate diabetic neuropathic pain.
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PMID:Quercetin, a bioflavonoid, attenuates thermal hyperalgesia in a mouse model of diabetic neuropathic pain. 1449 17

Endomorphins, the endogenous, potent and selective mu-opioid receptor agonists, have been shown to decrease systemic arterial pressure (SAP) in rats. In the present study, responses to endomorphins were investigated in systemic vascular bed of alloxan-induced diabetic rats and in non-diabetic rats. Diabetes was induced by alloxan (220 mg/kg, i.p.) in male Wistar rats. At 4-5 weeks after the onset of diabetes, intravenous injections of endomorphins (1-30 nmol/kg) led to an increase of SAP and heart rate (HR) consistently and dosed-dependently. SAP increased 7.68+/-3.73, 11.19+/-4.55, 21.19+/-2.94 and 27.48+/-6.21% from the baseline at the 1, 3, 10 and 30 nmol/kg dose, respectively, of endomorphin 1 (n=4; p<0.05), and similar changes were observed in response to endomorphin 2. The hypertension could be antagonized markedly by i.p. 2 mg/kg of naloxone. On the other hand, bilateral vagotomy would attenuate the effects of hypertension and diminished the changes of HR in response to endomorphins. With diabetic rats, 6-10 weeks after the induction of diabetes, intravenous injections of endomorphins produced non-dose-related various changes in SAP, such as a single decrease, or a single increase, or biphasic changes characterized by an initial decrease followed by a secondary increase, or no change at all. These results suggest that diabetes may lead to the dysfunction of the cardiovascular system in response to endomorphins. Furthermore, the diabetic rats of 4-5 weeks after alloxan-treatment, the increase in SAP and HR caused by i.v. endomorphins might be explained by a changed effect of vagus and by a naloxone-sensitive mechanism.
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PMID:Cardiovascular effects of endomorphins in alloxan-induced diabetic rats. 1575 75

Using pharmacological tools, a role for opioid receptors in the regulation of food intake has been documented. However, the involvement of specific receptor subtypes remains questionable, and little information is available regarding a role for opioid receptors in energy metabolism. Using adult male mice lacking the mu-opioid receptor (MOR) gene (MOR-/-), we show that the MOR is not essential for the maintenance of normal levels of ad libitum food intake but does modulate the efficiency of energy storage during high-fat diets through the regulation of energy partitioning. When fed a regular diet, MOR-/- mice displayed only subtle alterations in energy homeostasis, suggesting a relative overuse of fat as a fuel source in the fed state. When fed a high-fat diet, MOR-/- mice were resistant to obesity and impaired glucose tolerance, despite having similar energy intake to wild-type mice. This resistance to obesity was associated with a strong induction of the expression of key mitochondrial enzymes involved in fatty acid oxidation within skeletal muscle. This metabolic role of the MOR, which is consistent with the properties of a "thrifty gene," suggests that the MOR pathway is a potential target for pharmacological intervention in the treatment of obesity associated with the intake of fatty diets.
Diabetes 2005 Dec
PMID:Resistance to diet-induced obesity in mu-opioid receptor-deficient mice: evidence for a "thrifty gene". 1630 69


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