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Query: UNIPROT:P61278 (
somatostatin
)
22,083
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
The cyclophosphamide model of accelerated diabetes in the
NOD
mouse is a useful model of insulin-dependent diabetes mellitus (IDDM). Knowledge on the progressive destruction of beta cells and the fate of other islet endocrine cell-types in this model is sparse. We employed immunohistochemistry and histochemistry, to study temporal changes in islet cell populations, insulitis and glucose transporter-2 expression during cyclophosphamide administration. Cyclophosphamide was administered to day 95 female
NOD
mice and the pancreas studied at days 0 ( = day 95), 4, 7, 11 and 14 after treatment and in age-matched control mice. At day 0, a majority of the endocrine cells were insulin-positive. Glucagon and
somatostatin
cells were mostly in the islet periphery and also internally. In the cyclophosphamide group, insulitis was moderate at day 0, declined at day 4 but increased progressively from day 7. The extent of insulitis in treated mice which were diabetes-free at day 14 was comparable to age-matched control mice. From day 11, the marked increase in insulitis correlated with a reciprocal decline in the extent of insulin immunostained islet area. At day 14, the mean insulin area per islet was markedly less in diabetic mice than in age-matched non-diabetic treated and controls. At diabetes, some islets showed co-expression of glucagon and insulin. Our studies suggest that the mean number of glucagon or
somatostatin
cells per islet does not vary during the study. Glucose transporter-2 immunolabelling was restricted to beta cells but declined in those adjacent to immune cells. We conclude that in the cyclophosphamide model, there is specific and augmented destruction of beta cells immediately prior to diabetes onset. We speculate that the selective loss of glucose transporter-2 shown in this study suggests the existence of a deleterious gradient close to the immune cell and beta cell surface boundary.
...
PMID:Histopathological changes in insulin, glucagon and somatostatin cells in the islets of NOD mice during cyclophosphamide-accelerated diabetes: a combined immunohistochemical and histochemical study. 1620 Apr 62
IA-2 and IA-2beta are members of the transmembrane protein tyrosine phosphatase family located in dense core vesicles of neuroendocrine cells, including the beta-cells of pancreatic islets. In the present study, by mating C57BL/6Nci IA-2(+/-) with IA-2beta(+/-) mice, we generated double knockout mice (IA-2(-/-)/IA-2beta(-/-)) to study the effect of the combined deletion of these two proteins on insulin secretion and blood glucose levels. The double knockout mice appeared healthy at birth and showed normal growth and development. Histological examination and immunostaining for insulin, glucagon,
somatostatin
, and pancreatic polypeptide revealed no difference between the double knockout and wild-type mice. Nonfasting blood glucose and insulin levels also were within the normal range. However, compared with the wild-type mice, the double knockout mice showed glucose intolerance and an absent first-phase insulin release curve. No evidence of insulin resistance was observed nor were there alterations in fasting blood glucose, insulin, or leptin levels in the double knockout mice maintained on a high-fat diet compared with the wild-type mice maintained on the same diet. In addition, to determine whether the combined deletion of IA-2 and IA-2beta played any role in the development of diabetes in
NOD
mice, we generated double knockout mice on the
NOD
/LtJ background. The incidence of diabetes in these mice was not significantly different than that in the wild-type mice. Taken together, our experiments show that the dense core vesicle proteins IA-2 and IA-2beta, alone or in combination, are involved in insulin secretion, but neither alone nor in combination are they required for the development of diabetes in
NOD
mice.
...
PMID:Dense core vesicle proteins IA-2 and IA-2beta: metabolic alterations in double knockout mice. 1630 40
The precise fate of beta cells and the presence of islet infiltrates after onset of type 1 diabetes have not yet been fully characterized. Recently we showed that in newly diabetic
NOD
mice an appreciable number of beta cells remain. This was also observed during the first 2 weeks of diabetes in
NOD
mice without treatment with insulin. However, the mean number of beta cells per unit islet cross-sectional area decreased with increasing duration of disease. In contrast, glucagon and
somatostatin
cell numbers showed an increase. The persistence of insulitis in several islets until 4 weeks of diabetes suggests ongoing beta cell autoimmunity over a protracted phase. Combined daily treatment of newly diabetic
NOD
mice with epidermal growth factor (EGF) and gastrin for the first 14 days of diabetes resulted in temporary restoration of normoglycemia in 7 of 15 mice. We speculate that the residual beta cells present soon after onset of diabetes may respond to experimental regeneration. Treatment of newly diabetic
NOD
mice with the bioactive peptides EGF and gastrin resulted in partial and temporary reversal of diabetes. We propose that peptide therapies combined with other benign immunomodulatory approaches to rescue and preserve beta cells in the long term and to prevent recurring autoimmunity may be more effective than peptide therapy alone in reversing diabetes in
NOD
mice.
...
PMID:Persistence of residual beta cells and islet autoimmunity during increasing duration of diabetes in NOD mice and experimental approaches toward reversing new-onset disease with bioactive peptides. 1912 Feb 89
Somatostatin
acts via five receptors (sst(1-5)). We investigated if the changes in pancreatic islet sst expression in diabetic
NOD
mice compared to normoglycemic mice are a consequence of hyperglycemia or the ongoing immune reaction in the pancreas. Pancreatic islets were isolated from
NOD
mice precultured for 5 days and further cultured for 3 days at high or low glucose before examined. Islets were also isolated from
NOD
mice and transplanted to normal or diabetic mice in a number not sufficient to cure hyperglycemia. After three days, the transplants were removed and stained for sst(1-5) and islet hormones. Overall, changes in sst islet cell expression were more common in islets cultured in high glucose concentration in vitro as compared to the islet transplantation in vivo to diabetic mice. The beta and PP cells exhibited more frequent changes in sst expression, while the alpha and delta cells were relatively unaffected by the high glucose condition. Our findings suggest that the glucose level may alter sst expressed in islets cells; however, immune mechanisms may counteract such changes in islet sst expression.
...
PMID:Altered expression of somatostatin receptors in pancreatic islets from NOD mice cultured at different glucose concentrations in vitro and in islets transplanted to diabetic NOD mice in vivo. 2191 36
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