We have previously shown that the insulinotropic imidazoline compound RX871024 induces death of insulinoma MIN6 cells, an effect involving stimulation of c-Jun N-terminal kinase (JNK) and caspase 3. It has also been reported that AMP-activated protein kinase (AMPK) activates JNK and induces β-cell death. Here we show that RX871024, but not another insulinotropic imidazoline compound (BL11282), suppressed AMPK activity in MIN6 cells. The inhibitory effect of RX871024 on AMPK was supported by the observation that the imidazoline induced lipid droplet formation in the cytoplasm of MIN6 cells. This reflects stimulation of anabolic pathways and inhibition of catabolic pathways in the cell that happen under conditions when AMPK is inhibited. Activation of AMPK by 5-aminoimidazole-4-carboxamide riboside (AICAR) elevated basal and cytokine-induced death in primary β-cells and in insulinoma MIN6 cells. RX871024 aggravated AICAR-induced insulinoma MIN6 cell death regardless of the presence of pro-inflammatory cytokines. The specific cytotoxic effect of imidazoline compound RX871024 on insulinoma cell death but not primary β-cell death is independent of its action on AMPK and may suggest the possibility of using this type of compound in the treatment of insulinomas.

2016-06-01·Toxicology in Vitro3区 · 医学

Insulinotropic compounds decrease endothelial cell survival

3区 · 医学

Article

作者: Sergei V. Zaitsev ; Irina I. Zaitseva ; Per-Olof Berggren

OBJECTIVESHyperglycemia induces damage of vascular endothelial cells leading to diabetic complications. We investigated the effects of insulinotropic compounds and elevated glucose on endothelial cells in the absence or presence of vascular endothelial growth factor (VEGF).RESULTSHuman umbilical vein endothelial cells (HUVECs) were treated with glibenclamide, repaglinide and insulinotropic imidazolines at high glucose concentration in the presence or absence of VEGF and viability, proliferation and nitric oxide production were measured. Hyperglycemia inhibited pro-survival effects of VEGF on endothelial cells. Glibenclamide and repaglinide decreased HUVEC viability at elevated glucose concentration in the absence but not in the presence of VEGF, without affecting HUVEC proliferation. Repaglinide also had some positive influence on HUVEC function elevating NO production in the presence of VEGF. Imidazolines showed different activities on endothelial cell survival. Efaroxan diminished HUVEC viability at elevated glucose concentration in the presence, however not in the absence of VEGF, while RX871024 decreased HUVEC survival regardless of the presence of VEGF.SIGNIFICANCE OF THE STUDYOur data demonstrate an important interplay between the actual insulinotropic compounds, VEGF and ambient glucose concentration affecting the survival of the vascular endothelial cells. Consequently, this interplay needs to be taken into consideration when designing novel oral antidiabetic compounds.

2009-12-01·Journal of Pharmacology and Experimental Therapeutics3区 · 医学

Selective Enhancement of Nutrient-Induced Insulin Secretion by ATP-Sensitive K⁺ Channel-Blocking Imidazolines

3区 · 医学

Article

作者: Wienbergen, Antje ; Hatlapatka, Kathrin ; Kuehne, Claudia ; Rustenbeck, Ingo ; Willenborg, Michael ; Joerns, Anne

The contribution of ATP-sensitive K(+) channel (K(ATP) channel)-dependent and -independent signaling to the insulinotropic characteristics of imidazolines was explored using perifused mouse islets and beta-cells. Up to a concentration of 100 muM efaroxan had no insulinotropic effect in the presence of a basal glucose concentration, but enhanced the effect of a stimulatory concentration of glucose or nonglucidic nutrients (ketoisocaproate plus glutamine). The secretion by a non-nutrient (40 mM KCl) was not enhanced. At 500 microM, efaroxan stimulated insulin secretion when glucose was basal. Likewise, at 0.1 to 10 microM RX871024 [2-(imidazolin-2-yl)-1-phenylindole] showed a purely enhancing effect, but at 100 microM it elicited a strong KCl-like secretory response in the presence of basal glucose. At 0.1 and 1 microM RX871024 did not significantly depolarize the beta-cell membrane. However, at a purely enhancing drug concentration (10 microM RX871024 or 100 microM efaroxan) K(ATP) channel activity was strongly reduced, the membrane was depolarized, and the cytosolic Ca(2+) concentration was elevated in the presence of basal glucose. Insulin secretion by sulfonylurea receptor (SUR)1 knockout (KO) islets, which have no functional K(ATP) channels, was not increased by efaroxan (100 or 500 microM) or by 10 microM RX871024 but was increased by 100 microM RX871024. The imidazolines phentolamine and alinidine (100 microM) were also ineffective on SUR1 KO islets. It is concluded that a significant K(ATP) channel block is compatible with a purely enhancing effect of the imidazolines on nutrient-induced insulin secretion. Only RX871024 has an additional, nondepolarizing effect, which at a high drug concentration is able to elicit a K(ATP) channel-independent secretion.

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