Bugliani M, Mossuto S, Grano F, Suleiman M, Marselli L, Boggi U, De Simone P, Eizirik D L, Cnop M, Marchetti P, De Tata V
Department of Clinical and Experimental Medicine, University of Pisa, Pisa, Italy.
Department of Surgical Pathology, Medicine, Molecular and Critical Area, University of Pisa, Pisa, Italy.
Front Endocrinol (Lausanne). 2019 Feb 26;10:52. doi: 10.3389/fendo.2019.00052. eCollection 2019.
Autophagy is the major mechanism involved in degradation and recycling of intracellular components, and its alterations have been proposed to cause beta cell dysfunction. In this study, we explored the effects of autophagy modulation in human islets under conditions associated to endoplasmic reticulum (ER) stress. Human pancreatic islets were isolated by enzymatic digestion and density gradient purification from pancreatic samples of non-diabetic (ND; = 17; age 65 ± 21 years; gender: 5 M/12 F; BMI 23.4 ± 3.3 kg/m) and T2D ( = 9; age 76 ± 6 years; 4 M/5 F; gender: BMI 25.4 ± 3.7 kg/m) organ donors. Nine ND organ donors were treated for hypertension and 1 for both hypertension and hypercholesterolemia. T2D organ donors were treated with metformin (1), oral hypoglycemic agents (2), diet + oral hypoglycemic agents (3), insulin (3) or insulin plus metformin (3) as for antidiabetic therapy and, of these, 3 were treated also for hypertension and 6 for both hypertension and hypercholesterolemia. Two days after isolation, they were cultured for 1-5 days with 10 ng/ml rapamycin (autophagy inducer), 5 mM 3-methyladenine or 1.0 nM concanamycin-A (autophagy blockers), either in the presence or not of metabolic (0.5 mM palmitate) or chemical (0.1 ng/ml brefeldin A) ER stressors. In ND islets palmitate exposure induced a 4 to 5-fold increase of beta cell apoptosis, which was significantly prevented by rapamycin and exacerbated by 3-MA. Similar results were observed with brefeldin treatment. Glucose-stimulated insulin secretion from ND islets was reduced by palmitate (-40 to 50%) and brefeldin (-60 to 70%), and rapamycin counteracted palmitate, but not brefeldin, cytotoxic actions. Both palmitate and brefeldin induced PERK, CHOP and BiP gene expression, which was partially, but significantly prevented by rapamycin. With T2D islets, rapamycin alone reduced the amount of p62, an autophagy receptor that accumulates in cells when macroautophagy is inhibited. Compared to untreated T2D cells, rapamycin-exposed diabetic islets showed improved insulin secretion, reduced proportion of beta cells showing signs of apoptosis and better preserved insulin granules, mitochondria and ER ultrastructure; this was associated with significant reduction of PERK, CHOP and BiP gene expression. This study emphasizes the importance of autophagy modulation in human beta cell function and survival, particularly in situations of ER stress. Tuning autophagy could be a tool for beta cell protection.
自噬是参与细胞内成分降解和循环利用的主要机制,有人提出其改变会导致β细胞功能障碍。在本研究中,我们探讨了在内质网(ER)应激相关条件下自噬调节对人胰岛的影响。通过酶消化和密度梯度纯化从非糖尿病(ND;n = 17;年龄65±21岁;性别:5男/12女;体重指数23.4±3.3 kg/m²)和2型糖尿病(T2D;n = 9;年龄76±6岁;4男/5女;体重指数25.4±3.7 kg/m²)器官捐献者的胰腺样本中分离出人胰岛。9名ND器官捐献者患有高血压,1名同时患有高血压和高胆固醇血症。T2D器官捐献者接受二甲双胍(1例)、口服降糖药(2例)、饮食 + 口服降糖药(3例)、胰岛素(3例)或胰岛素加二甲双胍(3例)作为抗糖尿病治疗,其中3例还接受高血压治疗,6例同时接受高血压和高胆固醇血症治疗。分离后两天,将它们在有或无代谢性(0.5 mM棕榈酸)或化学性(0.1 ng/ml布雷菲德菌素A)ER应激源的情况下,用10 ng/ml雷帕霉素(自噬诱导剂)、5 mM 3 - 甲基腺嘌呤或1.0 nM concanamycin - A(自噬阻滞剂)培养1 - 5天。在ND胰岛中,棕榈酸暴露导致β细胞凋亡增加4至5倍,雷帕霉素可显著预防,而3 - MA则使其加剧。布雷菲德菌素处理也观察到类似结果。ND胰岛的葡萄糖刺激胰岛素分泌因棕榈酸(-40%至50%)和布雷菲德菌素(-60%至70%)而降低,雷帕霉素可抵消棕榈酸的细胞毒性作用,但不能抵消布雷菲德菌素的。棕榈酸和布雷菲德菌素均诱导PERK、CHOP和BiP基因表达,雷帕霉素可部分但显著地预防这种情况。对于T2D胰岛,单独使用雷帕霉素可减少p62的量,p62是一种自噬受体,当巨自噬受到抑制时会在细胞中积累。与未处理的T2D细胞相比,暴露于雷帕霉素的糖尿病胰岛显示胰岛素分泌改善、显示凋亡迹象的β细胞比例降低以及胰岛素颗粒、线粒体和ER超微结构保存更好;这与PERK、CHOP和BiP基因表达的显著降低相关。本研究强调了自噬调节在人β细胞功能和存活中的重要性,特别是在内质网应激情况下。调节自噬可能是保护β细胞的一种手段。
