• Food Industry And Nutrition
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• v.4 no.3
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• pp.83-87
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• 1999

Non-insulin-dependent diabetes mellitus (NIDDM) is characterized by insulin resistance and impaired insulim secretion. The transgenic technology, in which a specific gene can be introduced or deleted to study its function, has been established. A number of transgenic mice, altered the expression of genes potentially involved in insulin action or pancreatic ${\beta}$-cell function, have recently been developed to address questions concerning NIDDM. Thransgenic mice model may help understanding the molecular basis of complex patho-physiologies of NIDDM. This review outlines the new insights obtained from the studies of transgenic mice that overxpress or show decreased expression of putative key genes involved in the regulation of insulin resistance and pancreatic ${\beta}$-cell function, therefore in the control of glucose homeostasis.

• BMB Reports
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• v.51 no.7
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• pp.362-367
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• 2018

A major feature of type 1 diabetes mellitus (T1DM) is hyperglycemia and dysfunction of pancreatic ${\beta}$-cells. In a previous study, we have shown that Tat-DJ-1 protein inhibits pancreatic RINm5F ${\beta}$-cell death caused by oxidative stress. In this study, we examined effects of Tat-DJ-1 protein on streptozotocin (STZ)-induced diabetic mice. Wild type (WT) Tat-DJ-1 protein transduced into pancreas where it markedly inhibited pancreatic ${\beta}$-cell destruction and regulated levels of serum parameters including insulin, alkaline phosphatase (ALP), and free fatty acid (FFA) secretion. In addition, transduced WT Tat-DJ-1 protein significantly inhibited the activation of $NF-{\kappa}B$ and MAPK (ERK and p38) expression as well as expression of COX-2 and iNOS in STZ exposed pancreas. In contrast, treatment with C106A mutant Tat-DJ-1 protein showed no protective effects. Collectively, our results indicate that WT Tat-DJ-1 protein can significantly ameliorate pancreatic tissues in STZ-induced diabetes in mice.

• Food Science of Animal Resources
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• v.43 no.1
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• pp.170-183
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• 2023

This study evaluated the effects of milk fermented with Pediococcus acidilactici strain BE and Pediococcus pentosaceus strain M103 on diabetes in rats (Rattus norvegicus). The bacteria were separately used as starter cultures for milk fermentation, and the products were then fed to diabetic rats for 15 days. Blood glucose levels, immunohistochemical and histological indicators, lipid profiles, and total lactic acid bacterium counts were evaluated before and after treatment. The administration of milk fermented with P. acidilactici strain BE reduced blood glucose levels from 410.27±51.60 to 304.07±9.88 mg/dL (p<0.05), similar to the effects of metformin (from 382.30±13.39 mg/dL to 253.33±40.66 mg/dL, p<0.05). Increased insulin production was observed in diabetic rats fed milk fermented with P. acidilactici strain BE concomitant with an increased number and percentage area of immunoreactive beta-cells. The structure of insulin-producing beta-cells was improved in diabetic rats fed milk fermented with P. acidilactici strain BE or metformin (insulin receptor substrate scores of 5.33±0.94 and 3.5±0.5, respectively). This suggests that the administration of milk fermented with P. acidilactici BE potentially reduces blood glucose levels and improves pancreatic beta-cell function in diabetic rats.

• The Journal of Korean Medicine
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• v.15 no.2 s.28
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• pp.429-444
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• 1994

The present study was undertaken in order to elucidate the effect of pretreatment with Saengchinyanghyoltang(SYT) on changes in serum glucose level, body weight. water consumption. serum insulin concentration and activities of pancreatic enzymes in rats treated with streptozocin(STZ)-induced diabetic state. Histological studies were also carried out to elevate the effects on pancreatic tissues and Langelhans islet cells. SYT pretreatment in STZ diabetic rats inhibited the rise of fasting serum glucose concentration and water consumption. Pretreatment with SYT significantly increased the concentration of blood insulin and body weight changes compared to the STZ-treated group. Pancreatic lipase and trypsin activities were increased. but amylase activity was decreased and pancreatic ${\beta}-cell$ was destroyed by STZ but. pretreatment with SYT prevented these STZ-induced changes.

• Proceedings of the Zoological Society Korea Conference
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• 1997.04a
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• pp.56.2-56
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• 1997

No Abstract, See Full Text

• Proceedings of the PSK Conference
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• 2000.10a
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• pp.108-108
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• 2000

• Journal of radiological science and technology
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• v.37 no.1
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• pp.21-28
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• 2014

Cultured pancreatic beta cells and nerve cells, it is given normal condition of 10% FBS (fetal bovine serum), 11.1 mM glucose and hyperglycemia codition of 1% FBS, 30 mM glucose. For low LET X-ray irradiated with 0.5 Gy/hr dose-rate(total dose: 0.5 to 5 Gy). Survival rates were measured by MTT assay. When non irradiated, differentiated in the pancreatic beta cells experiment is hyperglycemia conditions survival rate compared to normal conditions survival rate seemed a small reduction. However increasing the total dose of X-ray, the survival rate of normal conditions decreased slightly compared to the survival rate of hyperglycemia conditions, the synergistic effect was drastically reduced. When non irradiated, undifferentiated in the nerve cells experiment is hyperglycemia conditions survival rate compared to normal conditions survival rate seemed a large reduction. As the cumulative dose of X-ray normal conditions and hyperglycemia were all relatively rapid cell death. But the rate of decreased survivals by almost parallel to the reduction proceed and it didn't show synergistic effect.

• BMB Reports
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• v.48 no.3
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• pp.172-177
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• 2015

Upregulation of pro-inflammatory mediators contributes to ${\beta}$-cell destruction and enhanced infiltration of immune cells into pancreatic islets during development of type 1 diabetes mellitus. In this study, we examined the regulatory effects and the mechanisms of action of celastrol against cytotoxicity and pro-inflammatory immune responses in the RINm5F rat pancreatic ${\beta}$-cell line stimulated with a combination of interleukin-1 beta, tumor necrosis factor-alpha, and interferon-${\gamma}$. Celastrol significantly restored cytokine-induced cell death and significantly inhibited cytokine-induced nitric oxide production. In addition, the protective effect of celastrol was correlated with a reduction in pro-inflammatory mediators, such as inducible nitric oxide synthase, cyclooxygenase-2, and CC chemokine ligand 2. Furthermore, celastrol significantly suppressed cytokine-induced signaling cascades leading to nuclear factor kappa B (NF-${\kappa}B$) activation, including $I{\kappa}B$-kinase (IKK) activation, $I{\kappa}B$ degradation, p65 phosphorylation, and p65 DNA binding activity. These results suggest that celastrol may exert its cytoprotective activity by suppressing cytokine-induced expression of pro-inflammatory mediators by inhibiting activation of NF-${\kappa}B$ in RINm5F cells.

• Applied Microscopy
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• v.31 no.3
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• pp.267-274
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• 2001

This study was carried out to understand the effects of Saengchinyanghyoltang-gamibang (SGT) on pancreatic islets of the mice induced with streptozotocin (STZ). In the control group, two times injected with 50 mg/kg 572 at 24-hour intervals, a few number of insulin immunoreactive-cells are observed at the pancreatic islets of the mice. In the experimental group which administered with extract of SGT during 21-day, a number of immunoreactive-cells are observed at the pancreatic islets. According to the electron microscopic observation, $\beta-cells$ of the control group were contained a few of secretory granules, but also these granules were contained electro-lucent materials. In the experimental group, a lot o( secretory granules and well developed cell organelles are observed at the $\beta-cells$. The level of glucose was significantly decreased in the experimental group compared with control group, but the level of BUN was similar in these two groups. These results suggest that administration of SGT to the mice improved the damage of $\beta-cells$ from injected with STZ.

• Fisheries and Aquatic Sciences
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• v.27 no.1
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• pp.17-22
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• 2024

Diabetes Mellitus (DM) is a major health issue increasing worldwide. Currently, nearby half a billion people have diabetes. Two major types of DM that type 1 and type 2-DM have different etiologies but feature a crucial common pathological transition into dysfunction of pancreatic β-cells and consequently leading hyperglycemia and finally go into DM. Therefore, maintaining of β-cells such as preventing β-cells degeneration, and promoting β-cells regeneration and proliferation will be essential approaches in prevention and/or treatment of DM. There are many reports that various types of seaweed control metabolic diseases such as obesity, high blood pressure, and blood sugar control. However, no new drug candidates have been developed yet. Additionally, although seaweed has excellent blood sugar control effects, there is no evidence that it directly proliferates or regenerates beta cells. Therefore, we studied on the promotion of β-cell regeneration by a seaweed, Polysiponia morrowii extract (PME) which preserves β-cells and maintains its function. As a result, it was confirmed that PME directly promotes the proliferation of pancreatic islet β-cells with insulin secretion function in in vivo. Therefore, PME shows potential as a candidate for β-cell regeneration that may play a fundamental role in the treatment of diabetes.