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Query: UMLS:C0011849 (
diabetes
)
277,896
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
We examined the effects of calcium modulators on mu and delta opioid receptor agonist-induced antinociception in both diabetic and nondiabetic mice. In nondiabetic mice, intracerebroventricular (i.c. v.) pretreatment with calcium and thapsigargin, which increase intracellular calcium, reduced [D-Ala2,N-MePhe4,
Gly
-ol5]-enkephalin (DAMGO)-induced antinociception by shifting its dose-response curve to the right. However, in diabetic mice i.c.v. pretreatment with calcium and thapsigargin did not affect DAMGO-induced antinociception. In contrast i.c.v. administration of agents that decrease intracellular calcium, such as EGTA and ryanodine, enhanced DAMGO-induced antinociception in both diabetic and nondiabetic mice. In contrast with DAMGO i.c.v. pretreatment with calcium and thapsigargin enhanced (-)-TAN67-induced antinociception in nondiabetic mice by shifting its dose-response curve to the left. However, (-)-TAN67-induced antinociception in diabetic mice was not affected by pretreatment with calcium or thapsigargin. Moreover i.c. v. pretreatment with EGTA, but not with ryanodine, reduced (-)-TAN67-induced antinociception in nondiabetic mice. In diabetic mice i.c.v. pretreatment with both EGTA and ryanodine reduced (-)-TAN67-induced antinociception. These results suggest that cytosolic calcium has different effects on mu and delta opioid receptor agonist-induced antinociception. Further, these results suggest that the modification of mu and delta opioid receptor agonist-induced antinociception by
diabetes
in mice may be due to increased levels of intracellular calcium.
...
PMID:Role of intracellular calcium in modification of mu and delta opioid receptor-mediated antinociception by diabetes in mice. 969 34
Hemoglobin (Hb) Rambam, or beta69[E13]
Gly
-->Asp, has been identified in a German woman also suffering from non-insulin-dependent
diabetes mellitus
and chronic obstructive pulmonary disease. This is the first observation of this Hb variant in a German family thus far. The detailed evaluation of its structure using electrospray mass spectrometry revealed new minor glycohemoglobin components and showed that the attachment of glucose to the beta NH2 terminus occurred at an almost identical rate in both wild-type and mutant beta-chains. However, the introduction of a carboxyl group at beta69 seems to increase the glycation of epsilon-amino groups of lysine residues. The glycemic state in the propositus was well reflected by the total glycohemoglobin concentrations but not by the Hb A1c values, which did not reflect hemoglobin glycation in this patient. This case demonstrates that Hb A1c cannot be used reliably in the management of diabetic patients carrying Hb variants such as Hb Rambam. Functional studies of the whole blood of the heterozygous carrier demonstrated extremely low oxygen affinity, which may have been caused by increased 2,3-diphosphoglycerate related to chronic obstructive pulmonary disease and hyperthyroidism. None of the clinical symptoms could be directly associated to Hb Rambam.
...
PMID:Hemoglobin Rambam (beta69[E13]Gly-->Asp), a pitfall in the assessment of diabetic control: characterization by electrospray mass spectrometry and HPLC. 976 Dec 52
Mutations in human glucokinase are implicated in the development of
diabetes
and hypoglycemia. Human glucokinase shares 54% identical amino acid residues with human brain hexokinase I. This similarity was used to model the structure of glucokinase by analogy to the crystal structure of brain hexokinase. Glucokinase was modeled with both its substrates, glucose and MgATP, to understand the effect of mutations. The glucose is predicted to form hydrogen bond interactions with the side chains of glucokinase residues Thr 168, Lys 169, Asn 204, Asp 205, Asn 231, and Glu 290, similar to those observed for brain hexokinase I. The magnesium ion is coordinated by the carboxylates of Asp 78 and Asp 205 and the gamma-phosphate of ATP. ATP is predicted to form hydrogen bond interactions with residues
Gly
81, Thr 82, Asn 83, Arg 85, Lys 169, Thr 228, Lys 296, Thr 332, and Ser 336. Mutations of residues close to the predicted ATP binding site produced dramatic changes in the Km for ATP, the catalytic rate, and a loss of cooperativity, which confirmed our model. Mutations of residues in the glucose binding site dramatically reduced the catalytic activity, as did a mutation that was predicted to disrupt an alpha-helix. Other mutations located far from the active site gave smaller changes in kinetic parameters. In the absence of a crystal structure for glucokinase, our models help rationalize the potential effects of mutations in
diabetes
and hypoglycemia, and the models may also facilitate the discovery of pharmacological glucokinase activators and inhibitors.
Diabetes
1999 Sep
PMID:Structural model of human glucokinase in complex with glucose and ATP: implications for the mutants that cause hypo- and hyperglycemia. 1048 May 97
The
Gly
972 Arg variant in the insulin receptor substrate-1 (IRS-1) gene may interact with the pathogenesis of common insulin-resistance disorders raising the hypothesis that the mutation may predispose to type 2 diabetes. We examined the codon 972 variant in 144 non-diabetic first degree relatives of patients with type 2 diabetes (FDR), who underwent extensive phenotyping: Glucose tolerance was determined by an oral glucose load, insulin sensitivity by euglycaemic-hyperinsulinaemic glucose clamp (glucose metabolic clearance rate, MCR) and body composition by bioelectrical impedance. 20 (14%) of the FDR showed the
Gly
972 Arg variant in heterozygous form, 2 (1.3%) probands were homozygous. Carriers of the polymorphism did not differ in MCR independent of body weight and total body fat. The polymorphism does not seem to determine clamp-derived insulin sensitivity. Despite identical fasting plasma glucose, carriers of the polymorphism showed a slightly lower fasting serum insulin and lower insulin response to an oral glucose load but higher glucose concentrations. In an obese subgroup (BMI > 25) the polymorphism did not show a higher frequency and was not associated with lower insulin sensitivity. In the investigated group of young, healthy relatives of type 2 diabetes patients, the frequency of the mutation corresponded to that of a diabetic population. In summary our data show that the polymorphism is not suitable to predict insulin resistance.
Exp Clin Endocrinol
Diabetes
1999
PMID:Amino acid polymorphism Gly 972 Arg in IRS-1 is not associated to lower clamp-derived insulin sensitivity in young healthy first degree relatives of patients with type 2 diabetes. 1048 45
A heterozygous polymorphism changing GGT40 (
Gly
) to AGT40 (Ser) in the glucagon receptor gene (GCG-R) was reported to be associated with non-insulin-dependent
diabetes mellitus
(NIDDM). A possible involvement of this polymorphism in impaired glucose tolerance was also suggested in a French population. However, the prevalence of this polymorphism differs markedly among different ethnic groups, whereby the results in German populations were found to be contradictory. We thus investigated the association of this mutation with NIDDM and healthy subjects in 508 German subjects (196 NIDDM, and 312 controls). None of the control subjects, but one of the NIDDM patients demonstrated the Gly40Ser polymorphism. Since no first-degree relative of the index patient had this genetic variance, a de novo mutation is suggested. Although the frequency of the Gly40Ser polymorphism in NIDDM observed in France is not confirmed in our population, this genetic variance is also evident in Germany.
...
PMID:Analysis of the Gly40Ser polymorphism in the glucagon receptor gene in a German non-insulin-dependent diabetes mellitus population. 1051 Jul 28
Glucagon-like peptides (GLPs) are secreted from enteroendocrine cells in the gastrointestinal tract. GLP-1 actions regulate blood glucose, whereas GLP-2 exerts trophic effects on intestinal mucosal epithelium. Although GLP-1 actions are preserved in diseases such as
diabetes
, GLP-2 action has not been extensively studied in the setting of intestinal disease. We have now evaluated the biological effects of a human GLP-2 analog in the setting of experimental murine nonsteroidal antiinflammatory drug-induced enteritis. Human (h)[
Gly
(2)]GLP-2 significantly improved survival whether administered before, concomitant with, or after indomethacin. h[
Gly
(2)]GLP-2-treated mice exhibited reduced histological evidence of disease activity, fewer intestinal ulcerations, and decreased myeloperoxidase activity in the small bowel (P < 0.05, h[
Gly
(2)]GLP-2- vs. saline-treated controls). h[
Gly
(2)]GLP-2 significantly reduced cytokine induction, bacteremia, and the percentage of positive splenic and hepatic bacterial cultures (P < 0.05). h[
Gly
(2)]GLP-2 enhanced epithelial proliferation (P < 0.05 for increased crypt cell proliferation in h[
Gly
(2)]GLP-2- vs. saline-treated mice after indomethacin) and reduced apoptosis in the crypt compartment (P < 0.02). These observations demonstrate that a human GLP-2 analog exerts multiple complementary actions that serve to preserve the integrity of the mucosal epithelium in experimental gastrointestinal injury in vivo.
...
PMID:Glucagon-like peptide 2 decreases mortality and reduces the severity of indomethacin-induced murine enteritis. 1056 23
Mutations in the transcription factors hepatocyte nuclear factor (HNF)-4alpha and -1alpha, insulin promoter factor-1, and HNF-1beta are the causes of four forms of maturity-onset
diabetes
of the young (MODY1 and 3-5, respectively). The winged-helix transcription factor HNF-3beta has been implicated in the regulation of expression of each of these MODY genes, suggesting that mutations in the HNF-3beta gene (HNF3B) may also cause MODY. We have tested this hypothesis by screening a panel of 57 unrelated Japanese subjects with a clinical diagnosis of MODY for mutations in HNF3B. This analysis revealed four frequent polymorphisms that were not associated with MODY, including one in the promoter region (-213A/G), two silent mutations in the codons for Ala 97 (291C/T) and
Gly
279 (837A/G), and one in the 3'-untranslated region (1424C/T). Two rare substitutions in the 5'-untranslated region, -156C/T and -67A/C, were found in a heterozygous state in two subjects, and two subjects were heterozygous for putative missense mutations, S109N (326G > A) and A328V (983C>T). The two missense mutations were not found in 106 normal chromosomes from nondiabetic subjects. It was not possible to test for co-segregation of these mutations with
diabetes
and thus, it is unclear whether or not these mutations can cause MODY. The results of our study suggest that mutations in HNF3B are not a common cause of MODY in Japanese subjects.
Diabetes
2000 Feb
PMID:Beta-cell transcription factors and diabetes: no evidence for diabetes-associated mutations in the hepatocyte nuclear factor-3beta gene (HNF3B) in Japanese patients with maturity-onset diabetes of the young. 1086 48
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.
...
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.
...
PMID:Decreased opioid-induced antinociception but unaltered G-protein activation in the genetic-diabetic NOD mouse. 1093 96
Studies of the stability of HLA-DQ have revealed a correlation between SDS stability of MHC class II alphabeta dimers and insulin-dependent
diabetes mellitus
(IDDM) susceptibility. The MHC class II alphabeta dimer encoded by HLA-DQA1*0102/DQB1*0602 (DQ0602), which is a dominant protective allele in IDDM, exhibits the greatest SDS stability among HLA-DQ molecules in EBV-transformed B-lymphoblastoid cells and PBLs. DQ0602 is also uniquely SDS stable in the HLA-DM-deficient cell line, BLS-1. We addressed the molecular mechanism of the stability of DQ0602 in BLS-1. A panel of mutants based on the polymorphic differences between HLA-DQA1*0102/DQB1*0602 and HLA-DQA1*0102/DQB1*0604 were generated and expressed in BLS-1. An Asp at beta57 was found to be critical for SDS stability, whereas Tyr at beta30,
Gly
at beta70, and Ala at beta86 played secondary roles. Furthermore, the level of class II-associated invariant chain peptide bound to HLA-DQ did not correlate with SDS stability, suggesting that class II-associated invariant chain peptide does not play a direct role in the unique SDS stability of DQ0602. These results support a role for DQB1 codon 57 in HLA-DQ alphabeta dimer stability and IDDM susceptibility.
...
PMID:Beta 57-Asp plays an essential role in the unique SDS stability of HLA-DQA1*0102/DQB1*0602 alpha beta protein dimer, the class II MHC allele associated with protection from insulin-dependent diabetes mellitus. 1097 39
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