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Query: UMLS:C0011849 (
diabetes
)
277,896
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
Type 2
diabetes
is a complex disease in which genetic and environmental factors interact to produce alterations in insulin action and insulin secretion, leading to hyperglycemia. To evaluate the influence of genetic background on development of
diabetes
in a genetically susceptible host, we generated mice that are double heterozygous (DH) for knockout of the insulin receptor and insulin receptor substrate-1 on three genetic backgrounds (C57BL/6 [B6], 129Sv, and
DBA
). Although DH mice on all backgrounds showed insulin resistance, their phenotypes were dramatically different. B6 DH mice exhibited marked hyperinsulinemia and massive islet hyperplasia and developed early hyperglycemia, with 85% overtly diabetic by 6 months. By contrast, 129Sv DH mice showed mild hyperinsulinemia and minimal islet hyperplasia, and < 2% developed
diabetes
.
DBA
mice had slower development of hyperglycemia, intermediate insulin levels, and evidence of islet degeneration, with 64% developing
diabetes
. Thus, mice carrying the same genetic defects on different backgrounds exhibited the full spectrum of abnormalities observed in humans with type 2 diabetes, which allowed for identification of potential loci that promote development of the diabetic phenotype.
Diabetes
2003 Jun
PMID:Impact of genetic background on development of hyperinsulinemia and diabetes in insulin receptor/insulin receptor substrate-1 double heterozygous mice. 1276 66
Recently published results revealed linkage of obesity traits to a chromosomal region near the leptin receptor gene (Lepr) locus in high body weight selected big and fat DU6i mice. The purpose of this study was the search for variants of the Lepr gene in selected and unselected mouse lines as a candidate for different body composition traits. The complete Lepr cDNA sequence was analysed in DU6i mice. In addition, body weight, abdominal fat weight and serum leptin levels were measured in 42 day old, male mice of the strains DU6i, DUKs, Him : OF1 and
DBA
/2. Sequence comparison to the published wild type sequence revealed three silent mutations and an amino acid exchange (I359 V) in the C2 domain of the putative leptin binding site in the line DU6i. Compared to the high body weight selected mice also unselected lean control DUKs mice and Him : OF1 mice harbour the amino acid substitution, although they show significantly lower values for body weight, abdominal fat weight and serum leptin levels. Therefore, we assume that the mutation in the C2 domain of Lepr alone might not result in impaired leptin binding or signaling.
Exp Clin Endocrinol
Diabetes
2003 Aug
PMID:A novel leptin receptor variant with a conservative amino acid substitution (I359 V) in body weight selected and unselected mouse lines. 1295 35
Dietary restriction (DR) increases the life span and retards aging, in part, by limiting free radical generation and oxidative damage. DR also reduces body mass, a major determinant of bone mass across the life span. We tested the hypothesis that DR has its most beneficial effects on bone in mouse strains with high free radical generation (sensitive to carcinogenesis [SENCAR] > C57 >
DBA
) versus the hypothesis that bone mass at weight-bearing sites is determined by body mass in DR and ad libitum (AL)-fed mice. Male mice of each strain were killed at 10 weeks of age (t(0)) or randomized to an AL-fed or 30% DR feeding regimen for 6 months. Food consumption by AL-fed mice was measured daily, and DR mice received 70% of the amount of food consumed by their respective AL-fed mice the previous day. Body fat (%) and bone mineral density (BMD) and content (BMC) were determined by PIXImus densitometry. There were strain-dependent effects on body mass, crown-to-rump length, percent body fat, and total body, femoral, and vertebral BMD and BMC under all conditions. SENCAR mice were heavier, longer, had larger bones, and generally exhibited higher total body, femoral, and vertebral BMC and BMD than C57 and
DBA
mice. DR had beneficial effects on BMD and BMC in the vertebrae of the SENCAR mouse model of high free radical generation and in the obese,
diabetes
-prone C57 mouse model of high end-stage protein glycation. DR
DBA
and SENCAR mice had lower femoral BMDs and BMCs than their respective AL-fed controls. Regression analysis confirmed linear relationships between total and lean body mass and total body and femoral BMDs and BMCs, suggesting that physiologic adaptation to a lower body mass accounts for the lower femoral bone mineral values observed in DR versus AL-fed mice. Thus, both hypotheses are, at least, partially valid. DR is beneficial in the trabeculae-rich vertebrae of animal models of high oxidant stress, and total/lean body mass determines BMD and BMC in the weight-bearing femur in DR and AL-fed mice.
...
PMID:Effects of dietary restriction on total body, femoral, and vertebral bone in SENCAR, C57BL/6, and DBA/2 mice. 1456 77
Interleukin 15 (IL-15) and Interleukin 18 (IL-18) are key cytokines produced by macrophages during innate immune response. These cytokines can profoundly affect subsequent adaptive immune responses including autoimmunity. We have investigated the role of IL-15 and IL-18 in the development of autoimmune
diabetes
in mice induced by multiple low dose streptozotocin (MLD-STZ). To analyze the role of IL-15, we tested the effects of a soluble murine IL-15 receptor alpha-chain (smIL-15Ralpha), on the development of MLD-STZ in C57BL/6 mice. Animals were treated with 10 daily injections of 32 microg of smIL-15Ralpha starting on the first day of
diabetes
induction. This treatment significantly attenuated the development of
diabetes
as evaluated by significantly lower glycemia compared with control mice treated with an inactive mutant form of sIL-15Ra. To directly address the role of IL-18 in MLD-STZ we used IL-18 knockout (KO) mice on
DBA
/1 background. IL-18 deficient mice were significantly more resistant to the induction of
diabetes
compared with the wild-type controls and did not develop the typical mononuclear cell infiltrates in the islets. Taken together our data suggest that the innate mediators, IL-15 and IL-18, are essential for the development of
diabetes
and may be important targets in prevention and early treatment of autoimmune
diabetes
.
...
PMID:Lack of the mediators of innate immunity attenuate the development of autoimmune diabetes in mice. 1459 48
Autoimmune diseases including insulin-dependent
diabetes mellitus
(IDDM) are characterized by the loss of tolerance to self determinants, activation of autoreactive lymphocytes, and subsequent damage to target organs. Recent evidence suggests that the development of autoimmune
diabetes
in the nonobese diabetic mouse (NOD), an animal model of IDDM, is under the control of dendritic cells. The potent antigen-presenting capacity of dendritic cells can be strongly influenced by the cell maturation state and by the cytokine milieu, and in fact these cells may acquire disparate functional abilities, from immunity to tolerance. We have previously demonstrated that, in the
DBA
/2 mouse, IFN-gamma potentiates the tolerogenic potential of a subset of splenic dendritic cells via activation of the enzyme indoleamine 2,3-dioxygenase (IDO) and production of tryptophan catabolites capable of inducing apoptosis in T cells. In the present study, we wanted to examine whether dendritic cells from NOD mice could be subjected to regulation by proinflammatory cytokines in the same fashion as in conventional mice. We found that IFN-gamma does not potentiate the tolerogenic effects of dendritic cells from NOD mice at four weeks of age. This finding correlates with a low expression of IDO activity, thus suggesting that poor expression of IDO by dendritic cells may play a role in the development of
diabetes
.
...
PMID:Tryptophan catabolism in nonobese diabetic mice. 1520 15
The mode of occurrence of the D variant of encephalomyocarditis (EMC-D) virus-induced acute sialodacryoadenitis was investigated using three strains of mice differing in their sensitivity to EMC-D virus-induced
diabetes
(C57BL/6: resistant; BALB/c: moderately sensitive;
DBA
/2: highly sensitive). Mice were intranasally inoculated with high (10(5) PFU/mouse) or low dose (10(2) PFU/mouse) of EMC-D virus. Although there were individual differences, the blood virus titer generally reached the peak earlier in the high-dose group than in the low-dose group. Signals of viral RNA and histopathological changes were seen in parotid glands and intraorbital and extraorbital lachrymal glands. In these glands, signals of viral RNA and histopathological changes were detected only in acinar cells and initial lesions were characterized by pyknosis of acinar cells. Coagulative necrosis with interstitial inflammatory cell infiltration developed later in parotid glands of BALB/c mice of the high-dose group and in intraorbital and extraorbital lachrymal glands of all groups except for C57BL/6 mice of the low-dose group. Such changes were not observed in epithelial cells of the ductal system. The present results indicate that EMC-D virus shows clear tissue and cell tropism within the salivary and lachrymal glands, probably due to the distribution of receptors for EMC virus.
...
PMID:Encephalomyocarditis (EMC) virus-induced sialodacryoadenitis in mice. 1559 62
To identify new genetic determinants relevant to type 2 diabetes (T2D), diabetic F2 progeny were generated by intercrossing F1 mice obtained from a cross of BKS.Cg-Lepr(db)+/+m and
DBA
/2, and T2D-related phenotypes were measured. In the F2 population, increased susceptibility to
diabetes
and obesity was observed. We also detected the major quantitative trait loci (QTL) modifying the severity of
diabetes
on chromosome 9, where peaks of logarithm of odds (LOD) overlapped for three traits. To identify candidate genes in the QTL intervals, we combined "expression QTL" (eQTL), taking mRNA levels as quantitative traits, and "interstrain sequence variations, including cSNPs." As a result, four genes were identified from cosegregation of clinical QTL with eQTL and 13 genes were found from interstrain cSNPs as candidates in the T2D modifier QTL. Our combined approach shows the acceleration of the discovery of candidate genes in the QTL of interest, spanning several megabases.
...
PMID:Identification of candidate genes in the type 2 diabetes modifier locus using expression QTL. 1582 Mar 11
Type 1
diabetes
, a multifactorial disease involving genetic and environmental factors, results from the destruction of pancreatic beta-cells. The maternal environment has been suggested to be important in the development of
diabetes
. To assess the role of maternal factors in the development of insulitis and overt
diabetes
, we transplanted pre-implantation stage embryos of nonobese diabetic (NOD) mice, a model of type 1 diabetes, into the uterus of each recipient. Recipients were ICR and
DBA
/2J mice without diabetic genetic predisposition and NOD mice not exhibiting overt
diabetes
during the experiment; offspring were designated as NOD/ICR, NOD/
DBA
, and NOD/NOD, respectively; unmanipulated NOD offspring were also examined. NOD/ICR and NOD/
DBA
offspring developed insulitis significantly earlier than NOD/NOD offspring. However, overt
diabetes
was significantly suppressed in NOD/ICR and NOD/
DBA
offspring in comparison with NOD/NOD offspring. Insulin autoantibodies (IAAs) were undetectable in ICR and
DBA
/2J surrogate mothers and in NOD/ICR and NOD/
DBA
offspring at the onset of insulitis, suggesting that maternal factors other than transmitted IAAs induced the earlier onset. The present study indicates that altered maternal factors modify the immune response to islets, which in turn might affect the pathogenic course from insulitis to overt
diabetes
.
Diabetes
2005 Jul
PMID:Maternal factors in a model of type 1 diabetes differentially affect the development of insulitis and overt diabetes in offspring. 1598 3
Type 2
diabetes
is characterized by islet dysfunction resulting in hyperglycemia, which can then lead to further deterioration in islet function. A possible mechanism for hyperglycemia-induced islet dysfunction is the accumulation of advanced glycation end products (AGE). The
DBA
/2 mouse develops pancreatic islet dysfunction when exposed to a high glucose environment and/or obesity-induced insulin resistance. To determine the biochemical cause of dysfunction,
DBA
/2 and C57BL/6 control islets were incubated in 11.1 mM or 40 mM glucose in the absence or presence of the AGE inhibitor aminoguanidine (AG) for 10 days. Basal (2.8 mM glucose) insulin release was increased in both
DBA
/2 and C57BL/6 islets incubated with 40 mM vs 11.1 mM glucose for 10 days. Chronic exposure to hyperglycemia decreased glucose (20 mM)-stimulated insulin secretion in
DBA
/2 but not in C57BL/6 islets. AG significantly increased fold-induced insulin release in high glucose cultured
DBA
/2 mouse islets, but did not affect C57BL/6 islet function.
DBA
/2 islet glucokinase was significantly reduced following 40 mM glucose culture, compared with 11.1 mM glucose cultured
DBA
/2 islets and 40 mM glucose cultured C57BL/6 islets. Incubation of islets with AG resulted in a normalization of
DBA
/2 islet glucokinase levels. In conclusion, chronic high glucose-induced increases in AGE can result in islet dysfunction and this is associated with reduced glucokinase levels in a mouse model with susceptibility to islet failure.
...
PMID:High glucose-induced impairment in insulin secretion is associated with reduction in islet glucokinase in a mouse model of susceptibility to islet dysfunction. 1608 20
With the goal of identifying optimal platforms for developing better models of diabetic nephropathy in mice, we compared renal effects of streptozotocin (STZ)-induced
diabetes
among five common inbred mouse strains (C57BL/6, MRL/Mp, BALB/c,
DBA
/2, and 129/SvEv). We also evaluated the renal consequences of chemical and genetic
diabetes
on the same genetic background (C57BL/6). There was a hierarchical response of blood glucose level to the STZ regimen among the strains (
DBA
/2 > C57BL/6 > MRL/MP > 129/SvEv > BALB/c). In all five strains, males demonstrated much more robust hyperglycemia with STZ than females. STZ-induced
diabetes
was associated with modest levels of albuminuria in all of the strains but was greatest in the
DBA
/2 strain, which also had the most marked hyperglycemia. Renal structural changes on light microscopy were limited to the development of mesangial expansion, and, while there were some apparent differences among strains in susceptibility to renal pathological changes, there was a significant positive correlation between blood glucose and the degree of mesangial expansion, suggesting that most of the variability in renal pathological abnormalities was because of differences in hyperglycemia. Although the general character of renal involvement was similar between chemical and genetic
diabetes
, Akita mice developed more marked hyperglycemia, elevated blood pressures, and less variability in renal structural responses. Thus, among the strains and models tested, the
DBA
/2 genetic background and the Akita (Ins2(+/C96Y)) model may be the most useful platforms for model development.
...
PMID:Impact of genetic background on nephropathy in diabetic mice. 1611 94
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