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- Role of Glucocorticoid Receptor on Insulin Secretion and Synthesis in INS-1 Cells.
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Ju Yeon Yang, Myong Su Kang, Tak Ho Song, In Kook Jeong, Pyong Ju Seo, Hee Jin Kim
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Korean Diabetes J. 2006;30(6):428-434. Published online November 1, 2006
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DOI: https://doi.org/10.4093/jkda.2006.30.6.428
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Abstract
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- BACKGROUND
Glucocorticoids play important roles in the regulation of glucose homeostasis. It is well known that glucocorticoids reduce hepatic and peripheral tissue sensitivity to insulin, but the roles of glucocorticoids on insulin secretion and synthesis in pancreatic beta cells are still unclear. We have investigated the direct effects of glucocorticoids on insulin secretion and synthesis in rat insulinoma (INS-1) cells. METHODS: Insulin content and 11.2 mM glucose-stimulated insulin secretion (GSIS) were measured in INS-1 cells after culture with or without 1 micrometer dexamethasone (DEX). Preproinsulin mRNA levels were analyzed by real-time RT-PCR and normalized to the internal control. Effect of RU486 on DEX-induced inhibition of GSIS and preproinsulin mRNA synthesis was evaluated. RESULTS: Insulin content of INS-1 cells cultured in RPMI containing 11.2 mM glucose in the presence of DEX was not different from that of control cells. After 1-h preincubation in 2.8 mM glucose, basal insulin secretion from cells treated with DEX did not differ from that of controls, but GSIS was significantly reduced in the cells treated with DEX in comparison to control cells. The expression of preproinsulin mRNA relative to beta-actin mRNA was also lower in the cells treated with DEX. Glucocorticoid receptor antagonist improved DEX-induced inhibition of GSIS and preproinsulin mRNA synthesis. CONCLUSION: DEX inhibited GSIS and preproinsulin mRNA synthesis in INS-1 cells. Glucocorticoid receptor antagonist ameliorated the reduced GSIS and preproinsulin mRNA synthesis induced by DEX.
- The Stimulatory Effect of IL-1on The Insulin Secretion and Its Relating Factors.
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In Kyung Jeong, Seung Hoon Oh, Tong Mook Kang, Jae Hoon Jeong, Yong Ki Min, Myung Shik Lee, Moon Kyu Lee, Kwang Won Kim
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Korean Diabetes J. 2000;24(4):431-443. Published online January 1, 2001
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Abstract
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- BACKGROUND
The inhibitory effect of IL-1 on the insulin secretion has been validated in pathogenesis of type 1 diabetes, but complex results about the stimulatory effect of IL-1 have been reported. The aims of this study are to clarify the effects of IL-1 on insulin secretion of pancreatic islets and to investigate the mechanisms in terms of preproinsulin synthesis, inducible NOS expression, and calcium channel activity. METHODS: Islets were isolated from male Sprague-Dawley (SD) rat by modified Lacy-Kostianovsky's method. After islets were treated with different concentrations (0, 0.5, 5, 50, 500 pmol/L) and exposure time (2, 6, 24 hours) of IL-1 , morphology, viability, static stimulation of insulin to glucose, insulin content, preproinsulin mRNA expression, iNOS mRNA expression and calcium channel activity were measured. RESULTS: 1) Viability of islets was reduced in high concentrations of long term exposure of IL-1 . 2) Insulin secretion was stimulated in islets treated with 5, 50, and 500 pmol/L of IL-1 for 2 hours and 0.5 pmol/L for 6 hours. It was inhibited in 5, 50, and 500 pmol/L for 6 and 24 hours. 3) Insulin content was not significantly different regardless of concentration and exposure time of IL-1 . 4) Preproinsulin mRNA expression increased in islets treated with 50, 500 pmol/L of IL-1 for 2 hours. After 24 hours, it decreased in dose dependent manner. 5) iNOS mRNA expression was detectable after 2 hours in the presence of IL-1 , peaks at 6 hour and decreased after 24hours. It was increased above 5 pmol/L of IL-1 in dose dependent manner. 6) Activities of the voltage-dependent Ca2+ channels were not different among groups. CONCLUSION: IL-1 plays a positive role in terms of insulin secretion and insulin synthesis in high concentration of short term or low concentration of long term. These effects of IL-1 might be neither dependent of iNOS pathway nor Ca2+ channel activity.
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