BACKGROUND: In vitro studies have demonstrated that interleukin (IL)-1beta decreases insulin and DNA contents in pancreatic islet beta cells, causing structural damage, that it is toxic to cultured human islet beta cells and that it is able to induce apoptosis in these cells. MATERIALS AND METHODS: Isolated rat islets of Langerhans were exposed in vitro to interleukin (IL)-1beta and either the imidazoline compound RX871024 (RX) or/and M40403, an Mn-containing superoxide dismutase mimetic (MnSODm). RESULTS: Insulin secretion, on days 1, 2 and 3 after challenge with 3 ng/ml of IL-1beta, was almost abolished and this was accompanied by an early increase in MnSOD activity. By days 2 and 3, SOD activities were lower than those of untreated controls and NO significantly increased by day 2. Moreover, IL-1beta induced a significant increase in MnSOD transcripts, while iNOS mRNA appeared by days 2 and 3 when MnSOD mRNA was absent. RX blocked all toxic effects of IL-1beta by maintaining insulin secretion and islet beta cell phenotype, including the inhibition of nonspecific proteins and of iNOS induction. In contrast, the MnSODm, failed to counteract iNOS induction as well as the reduced insulin secretion. CONCLUSIONS: In summary, our findings stress that IL-1beta-induced suppression of insulin secretion may be related to iNOS induction in beta cells and that RX can reverse this effect, by maintaining insulin secretion. Oppositely, the MnSODm is not able to restore IL-1beta-suppressed insulin secretion. Hence, imidazoline compounds may protect beta cells against damage caused by IL-1beta-induced free oxygen and nitrogen radicals.
BACKGROUND: In vitro studies have demonstrated that interleukin (IL)-1betadecreases insulin and DNA contents in pancreatic islet beta cells, causing structural damage, that it is toxic to cultured human islet beta cells and that it is able to induce apoptosis in these cells. MATERIALS AND METHODS: Isolated rat islets of Langerhans were exposed in vitro to interleukin (IL)-1beta and either the imidazoline compound RX871024 (RX) or/and M40403, an Mn-containing superoxide dismutase mimetic (MnSODm). RESULTS:Insulin secretion, on days 1, 2 and 3 after challenge with 3 ng/ml of IL-1beta, was almost abolished and this was accompanied by an early increase in MnSOD activity. By days 2 and 3, SOD activities were lower than those of untreated controls and NO significantly increased by day 2. Moreover, IL-1beta induced a significant increase in MnSOD transcripts, while iNOS mRNA appeared by days 2 and 3 when MnSOD mRNA was absent. RX blocked all toxic effects of IL-1beta by maintaining insulin secretion and islet beta cell phenotype, including the inhibition of nonspecific proteins and of iNOS induction. In contrast, the MnSODm, failed to counteract iNOS induction as well as the reduced insulin secretion. CONCLUSIONS: In summary, our findings stress that IL-1beta-induced suppression of insulin secretion may be related to iNOS induction in beta cells and that RX can reverse this effect, by maintaining insulin secretion. Oppositely, the MnSODm is not able to restore IL-1beta-suppressed insulin secretion. Hence, imidazoline compounds may protect beta cells against damage caused by IL-1beta-induced free oxygen and nitrogen radicals.
Authors: Hyo Sang Jo; Hyeon Ji Yeo; Hyun Ju Cha; Sang Jin Kim; Su Bin Cho; Jung Hwan Park; Chi Hern Lee; Eun Ji Yeo; Yeon Joo Choi; Won Sik Eum; Soo Young Choi Journal: BMB Rep Date: 2016-05 Impact factor: 4.778