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Query: UMLS:C0011849 (
diabetes
)
277,896
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
We studied the effect of pyridoxal-5'-phosphate (PAL-P) on protein glycosylation and diabetic nephropathy in
NSY
mice. In experiment 1, an in vitro model of the browning phenomenon involving the incubation of lysine and glucose was inhibited by PAL-P. In experiment 2, administration of PAL-P to congenitally diabetic
NSY
mice markedly reduced the thickening of the glomerular basement membrane. These results suggest that PAL-P has the potential to be used for reducing the nephrotic complications of
diabetes mellitus
.
...
PMID:The in vitro and in vivo inhibition of protein glycosylation and diabetic vascular basement membrane thickening by pyridoxal-5'-phosphate. 191 2
The
NSY
(Nagoya-Shibata-Yasuda) mouse was established as an inbred strain of mouse with spontaneous development of
diabetes mellitus
, by selective breeding for glucose intolerance from outbred Jcl:ICR mice.
NSY
mice spontaneously develop
diabetes mellitus
in an age-dependent manner. The cumulative incidence of
diabetes
is 98% in males and 31% in females at 48 weeks of age. Neither severe obesity nor extreme hyperinsulinaemia is observed at any age in these mice. Glucose-stimulated insulin secretion was markedly impaired in
NSY
mice after 24 weeks of age. In contrast, fasting plasma insulin level was higher in male
NSY
mice than that in male C3H/He mice (545 +/- 73 vs 350 +/- 40 pmol/l, p < 0.05, at 36 weeks of age). Pancreatic insulin content was higher in male
NSY
mice than that in male C3H/He mice (76 +/- 8 vs 52 +/- 5 ng/mg wet weight, p < 0.05, at 36 weeks of age). Morphologically, no abnormal findings, such as hypertrophy or inflammatory changes in the pancreatic islets, were observed in
NSY
mice at any age. These data suggest that functional changes of insulin secretion in response to glucose from pancreatic beta cells may contribute to the development of non-insulin-dependent
diabetes mellitus
(NIDDM) in the
NSY
mouse. Although insulin sensitivity was not measured, fasting hyperinsulinaemia in
NSY
mice suggests that insulin resistance may also contribute to the pathogenesis of NIDDM. Since these findings are similar to the pathophysiologic features of human NIDDM patients, the
NSY
mouse is considered to be useful for investigating the pathogenesis and genetic predisposition to NIDDM.
...
PMID:The NSY mouse: a new animal model of spontaneous NIDDM with moderate obesity. 748 31
Although studies of families and twin studies have demonstrated that non-insulin-dependent
diabetes mellitus
(NIDDM) has a strong genetic component, the genes responsible for the common forms of NIDDM are largely unknown, due to the complex and heterogeneous nature of the disease. To study the genetics of NIDDM, we used an inbred animal model of NIDDM, the
NSY
mouse, in which NIDDM spontaneously develops in an age-dependent manner. The inheritance pattern of glucose tolerance, fasting insulin levels, insulin response to glucose, body mass index, and epididymal fat pad weight in F 1 hybrids of
NSY
with control C3H/He mice suggested the different modes of inheritance in these phenotypes. Multipoint linkage analysis of glucose tolerance in F2 mice with microsatellite markers throughout the genome mapped at least three loci on different chromosomes. Positional cloning of susceptibility genes for NIDDM in
NSY
mice may increase our understanding of the genetics and etiology of human NIDDM and may lead to more effective methods for prevention and intervention.
...
PMID:[Positional cloning of susceptibility genes for non-insulin-dependent diabetes mellitus]. 964 12
Type 2
diabetes
is a complex trait with both genes and environmental factors contributing to susceptibility. Except for rare subtypes with monogenic inheritance, the genetic basis of type 2 diabetes is unknown because of the complex and heterogeneous nature of the disease. By using the
NSY
mouse, an inbred mouse model of type 2 diabetes, we genetically dissected late-onset type 2 diabetes and demonstrated age-dependent changes in the genetic control of type 2 diabetes as well as polygenic inheritance. Three major loci (Nidd1nsy, Nidd2nsy, Nidd3nsy) were mapped on mouse chromosomes (Chr) 11, 14, and 6, respectively. The existence of a fourth locus (Nidd4nsy) with an age-dependent effect was suggested by longitudinal, but not cross-sectional, analysis of linkage data. Nidd1nsy and Nidd4nsy appear to affect insulin secretion, whereas Nidd2nsy and Nidd3nsy appear to affect insulin sensitivity. A locus on Chr 6 was significantly linked to epididymal fat weight. A candidate disease gene (Tcf2) on Chr 11, encoding hepatic nuclear factor-1beta, was shown to have a rare sequence variant in the DNA binding domain in the model. The mouse model we used will serve as a useful model for future studies on the etiology of late-onset polygenic type 2 diabetes in humans.
Diabetes
1999 May
PMID:Genetic analysis of late-onset type 2 diabetes in a mouse model of human complex trait. 1033 25
To study the contribution of beta-cell vulnerability to susceptibility to
diabetes
, we studied beta-cell vulnerability to a single high dose of streptozotocin (STZ) in an animal model of type 2 diabetes, the
NSY
mouse, a sister strain of the STZ-sensitive NOD mouse, in comparison with the STZ-resistant C3H mouse.
NSY
mice were found to be extremely sensitive to STZ. Introgression of a single Chr 11, where STZ-sensitivity was mapped in the NOD mouse, from
NSY
mice converted STZ-resistant C3H mice to STZ-sensitive. Two nucleotide substitutions were identified in the nucleoredoxin gene, a positional and functional candidate gene for STZ-induced
diabetes
on Chr 11. These data, together with the co-localization of type 1 (Idd4) and type 2 (Nidd1n) susceptibility genes on Chr 11, suggest that the intrinsic vulnerability of pancreatic beta cells is determined by a gene or genes on Chr 11, which may also contribute to susceptibility to spontaneous
diabetes
.
...
PMID:Susceptibility to streptozotocin-induced diabetes is mapped to mouse chromosome 11. 1567 Jul 64
The effect of hardness of the diet as an environmental factor on the development of
diabetes
was investigated in a mouse model of type 2 diabetes.
NSY
and control C3H/He mice were fed several types of dietary chow from 4 weeks of age. Autoclaved CRF-1, whose major components are almost the same as those of the MF diet except for increased pellet hardness, resulted in a significant reduction in body weight in both
NSY
(p<0.05) and C3H (p<0.001) mice at 16 weeks of age. The prevalence of
diabetes
in
NSY
mice fed autoclaved CRF-1 was significantly lower than that in those fed MF at 36 weeks of age (p<0.05), which was associated with a significant decrease in body weight (p<0.0001). At 16 weeks of age,
NSY
mice fed with a hard diet (autoclaved CRF-1) showed a significantly lower body weight (32.1+/-0.3g) and blood glucose levels during ipGTT than those with fed a normal (gamma-irradiated CRF-1) (35.6+/-1.3g, p<0.05 and <0.01, respectively) or soft (powdered CRF-1) (p<0.05 and <0.05, respectively) diet. Switching from normal (gamma-irradiated) to hard (autoclaved) chow, even after the development
diabetes
at 36 weeks of age, markedly improved glucose intolerance after 4 weeks in
NSY
mice despite the small change in body weight. These results indicate the importance of food hardness as an environmental factor in the development of type 2 diabetes.
Diabetes
Res Clin Pract 2006 Oct
PMID:Food hardness as environmental factor in development of type 2 diabetes. 1673 Aug 44
Recent epidemiological studies suggest that
diabetes mellitus
is a strong risk factor for Alzheimer disease. However, the underlying mechanisms remain largely unknown. In this study, to investigate the pathophysiological interaction between these diseases, we generated animal models that reflect the pathologic conditions of both diseases. We crossed Alzheimer transgenic mice (APP23) with two types of diabetic mice (ob/ob and
NSY
mice), and analyzed their metabolic and brain pathology. The onset of
diabetes
exacerbated Alzheimer-like cognitive dysfunction without an increase in brain amyloid-beta burden in double-mutant (APP(+)-ob/ob) mice. Notably, APP(+)-ob/ob mice showed cerebrovascular inflammation and severe amyloid angiopathy. Conversely, the cross-bred mice showed an accelerated diabetic phenotype compared with ob/ob mice, suggesting that Alzheimer amyloid pathology could aggravate
diabetes
. Similarly, APP(+)-
NSY
fusion mice showed more severe glucose intolerance compared with diabetic
NSY
mice. Furthermore, high-fat diet feeding induced severe memory deficits in APP(+)-
NSY
mice without an increase in brain amyloid-beta load. Here, we created Alzheimer mouse models with early onset of cognitive dysfunction. Cerebrovascular changes and alteration in brain insulin signaling might play a pivotal role in this relationship. These findings could provide insights into this intensely debated association.
...
PMID:Diabetes-accelerated memory dysfunction via cerebrovascular inflammation and Abeta deposition in an Alzheimer mouse model with diabetes. 2038 30
Environmental enrichment (EE) can reduce anxiety and stress in experimental animals, while little is known about the influence on autonomic nervous activity especially in disease animal models.
Diabetes mellitus
(DM) is associated with cardiovascular autonomic dysfunction, which can be characterized by a higher resting heart rate and a lower heart rate variability (HRV). We hypothesized that EE can enhance parasympathetic nervous activity while reducing disease progression in type 2 diabetic mice. A telemetry transmitter was implanted in
NSY
mice to continuously record electrocardiograms (ECG). Animals were kept in a cage with or without a nest box as EE. The autonomic nervous activity was evaluated using power spectral analysis of HRV. Four weeks of EE could increase high frequency (HF) power, but no change was observed in the absence of EE. Although animals showed impaired glucose tolerance at 48 weeks of age regardless of EE, a worsen case was observed in control. These results indicate that EE can be necessary for long-term housing of experimental animals and may reduce the risk of impaired glucose tolerance in
NSY
mice by enhancing parasympathetic nervous activity. In future, it is demanded whether increasing parasympathetic nervous activity, whatever the method is, can prevent
diabetes
from worsening.
...
PMID:Effects of environmental enrichment on autonomic nervous activity in NSY mice. 3173 65
