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Query: UMLS:C0002736 (
amyotrophic lateral sclerosis
)
19,048
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
ALS
and ALR mice were developed as mouse models of
alloxan
-induced diabetes. These strains do not show spontaneous onset of diabetes. When an obesity gene (Ay) was introduced to these two strains, severe diabetic conditions occurred spontaneously in the produced
ALS
-Ay and ALR-Ay strains. These strains were examined body weight gain, food consumption, water consumption, urinary sugar content, ketone body level and blood sugar level, and subjected to glucose tolerance test. As a result, in comparison with
ALS
mice, male
ALS
-Ay mice showed no obesity and very low tolerance to the glucose tolerance test performed 24 weeks after birth. The level of insulin secretion was 5.0 microU/ml or less, showing hardly any secretory reaction. On the other hand, female
ALS
-Ay mice were obese and showed no marked decrease in glucose tolerance. The level of insulin secretion was high, and the secretory reaction was strong. In ALR-Ay strain, both male and female mice were obese and showed diabetic conditions similar to those of
ALS
-Ay mice, though the severity tended to be lower. The characteristic features of diabetic conditions in these mice suggest that these strains, particularly
ALS
-Ay, may serve as useful new-type models of diabetes.
...
PMID:[Diabetic peculiarity of the ALS-Ay and ALR-Ay strains]. 191 99
To produce an experimental model of diabetes in animals, ICR mice were inbred until the 20th generation by two-way selection toward the high- and low-incidences of
alloxan
-induced diabetes. Changes in successive generations in the incidence of such diabetes, in blood glucose levels, growth patterns and reproductive performance were studied. The incidence of
alloxan
-induced diabetes was 41.1% in the basal population; in the high-incidence strain, it was 98.7% in F13, ranging between 90 and 99% in later generations; and in the low-incidence strain, it reached 0% in F7, remaining near that level in later generations. The heritability of the incidence of
alloxan
-induced diabetes determined at the beginning of selection was 50-60%. The blood glucose level was 251 +/- 19 mg/dl in the basal population; in the high-incidence strain, it was 423 +/- 11 mg/dl in F13, ranging thereafter between 340 and 455 mg/dl; and in the low-incidence strain, it was 128 +/- 4 mg/dl in F7, then varying from 120 to 140 mg/dl in following generations. The heritability of the blood glucose level determined at the beginning of selection was 40-60%. No marked decrease in growth or reproductive performance accompanied successive selections. Successive generations of the high-incidence mice, however, tended to become heavier than the low-incidence animals. The high- and low-incidence strains, established in the 20th generation, were named the
ALS
(
alloxan
-induced diabetes-susceptible) and ALR (
alloxan
-induced diabetes-resistant) strains, respectively.
...
PMID:Selection of mouse strains showing high and low incidences of alloxan-induced diabetes. 200 36
Alloxan
(AL), a potent generator of superoxide and hydroxyl radicals, selectively destroys rodent pancreatic beta-cells.
Alloxan
-susceptible (
ALS
/Lt) and AL-resistant (ALR/Lt) are inbred mouse strains derived in Japan by inbreeding CD-1 (ICR) mice with concomitant selection for high or low sensitivity to a relatively low AL dose. The present study was undertaken to examine whether resistance was mediated by differences in either systemic or beta-cell antioxidant defense status. Superoxide dismutase (SOD), catalase (CAT), glutathione reductase (GR), and glutathione peroxidase (GPX) activities were determined in tissues of AL-untreated ALR/Lt and
ALS
/Lt male mice at 7 weeks of age. Specific activities of pancreatic SOD1, GR, and GPX were significantly increased in ALR/Lt mice compared with
ALS
/Lt mice. ALR/Lt mice further exhibited higher levels of glutathione in plasma, blood, pancreas, and liver combined with lower constitutive lipid peroxides in serum, liver, and pancreas. These results support the hypothesis that the selection process leading to the development of an AL-resistant mouse strain entailed accumulation of a gene or genes contributing to upregulated antioxidant status.
...
PMID:Constitutive differences in antioxidant defense status distinguish alloxan-resistant and alloxan-susceptible mice. 1046 21
ALS
/Lt and ALR/Lt are inbred mouse strains selected for susceptibility and resistance to
alloxan
(AL)-induced diabetes. Within 24-h after AL administration in vivo,
ALS
/Lt islets were distinguished from ALR/Lt islets by more extensive necrotic changes. Within 7 days post-AL,
ALS
/Lt mice exhibited hyperglycemia and hypoinsulinemia, whereas ALR/Lt mice maintained normal plasma insulin and glucose levels. We have recently shown that resistance in ALR/Lt correlated with constitutively elevated systemic (and pancreatic) free radical defense status. In the present report, we examined whether ability to detoxify free radical stress extended to the level of ALR/Lt pancreatic islets. Cultured
ALS
/Lt islets exposed for 5 min to increasing (0-3 mmol/l) AL concentrations in vitro exhibited an 80% decline in numbers of intact islets after a subsequent 6-day culture period, as well as a 75% reduction in islet insulin content and a 94% decrease in glucose-stimulated insulin secretory capacity. In contrast, ALR/Lt islets remained viable and retained glucose-stimulated insulin secretory capacity as well as normal insulin content. This ALR/Lt islet resistance extended to hydrogen peroxide, a free radical generator whose entry into beta-cells is not dependent on glucose transporters. The elevated antioxidant defenses previously found in ALR/Lt pancreas were extended to isolated islets, which exhibited significantly higher glutathione and Cu-Zn superoxide dismutase 1 levels compared with
ALS
/Lt islets. A dominant genetic trait from ALR/Lt controlling this unusual AL resistance was indicated by the finding that reciprocal F1 mice of both sexes were resistant to AL administration in vivo. A backcross to
ALS
/Lt showed 1:1 segregation for susceptibility/resistance, indicative of a single gene controlling the phenotype. In conclusion, the ALR/Lt mouse may provide important insight into genetic mechanisms capable of rendering islets strongly resistant to free radical-mediated damage.
...
PMID:Resistance of ALR/Lt islets to free radical-mediated diabetogenic stress is inherited as a dominant trait. 1053 53
Changes in norepinephrine-induced transient contractions in Ca2+-deficient solution were investigated in the aortic smooth muscles of diabetic
ALS
(
alloxan
-induced diabetes susceptible) mice. The transient contractions in diabetic mice were significantly larger than those in normal mice. The longer incubation of the muscle preparations in Ca2+-deficient solution made the transient contractions smaller, probably due to the leakage and decrease in norepinephrine-releasable stored Ca2+. The rate of this reduction in contraction was slower in diabetic mice. These results suggest that the leakage of intracellular stored Ca2+ caused by extracellular Ca2+ deficiency is attenuated in diabetic mice, contributing to enhanced norepinephrine-induced transient contractions.
...
PMID:Enhancement of norepinephrine-induced transient contraction in aortic smooth muscle of diabetic mice. 1276 24
Outbred CD-1 mice carry a spectrum of genetic susceptibilities for obesity and type 2 diabetes.
ALS
is an inbred strain with low antioxidant defenses produced by inbreeding CD-1 mice, with selection for susceptibility to
alloxan
, a generator of highly reactive oxygen free radicals and a potent beta-cell toxin. The objective of this study was to determine if the low ability to diffuse free radical stress would contribute to spontaneous type 2 diabetes development in
alloxan
-untreated males. Indeed, both hyperinsulinemia and impaired glucose tolerance developed spontaneously between 6 and 8 weeks of age in
alloxan
-untreated males. Further aging was accompanied by increases in body mass, progressively more severe hyperinsulinemia, and development of overt hyperglycemia. Transition from impaired glucose tolerance to overt hyperglycemia correlated with a decreased ratio of reduced to oxidized glutathione. Evidence that the increased oxidative burden elicited the type 2 diabetes syndrome was obtained by the systemic elevation of the antioxidative capacity through daily administration of R-lipoic acid. R-lipoic acid (30 mg/kg) prevented hyperglycemia, reduced insulin levels, and increased free radical scavenging potential. This mouse model with reduced ability to diffuse free radical stress is of obvious interest because free radical-mediated damage is implicated in the pathogenesis and complications of both type 1 and type 2 diabetes.
...
PMID:ALS/Lt: a new type 2 diabetes mouse model associated with low free radical scavenging potential. 1474 77
