人脂肪来源的间充质干细胞通过分泌有利于胰岛的因子对短期缺氧作出反应,并增强体内的抗糖尿病作用。

Cell medicine Pub Date : 2017-04-14 eCollection Date: 2017-01-01 DOI:10.3727/215517917X693401
Simen W Schive, Mohammad Reza Mirlashari, Grete Hasvold, Mengyu Wang, Dag Josefsen, Hans Petter Gullestad, Olle Korsgren, Aksel Foss, Gunnar Kvalheim, Hanne Scholz
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引用次数: 35

摘要

脂肪源性间充质干细胞(ASCs)在体外释放有益于胰岛的因子,并在糖尿病啮齿动物模型中预防高血糖。氧张力已被证明可诱导代谢变化并改变ASCs可溶性因子的释放。缺氧对ASCs抗糖尿病特性的影响尚未探讨。为了研究这一点,我们将人ASCs在21%(常氧)或1% O2(缺氧)中培养48小时,并比较条件培养基(CM)中的活力、细胞生长、表面标记物、分化能力和可溶性因子。将人胰岛暴露于常氧或缺氧条件下培养的ASCs的CM中,并测量有或没有促炎细胞因子培养后的胰岛功能和凋亡情况。为了检测低氧预处理ASCs在体内对胰岛的保护作用,将ASCs在常氧或缺氧条件下孵育48 h,然后注射到链脲霉素诱导的Balb/c Rag 1-/-免疫缺陷小鼠体内。测定糖尿病进展及胰腺胰岛素含量。我们发现缺氧培养的ASCs耐受良好,与缺氧培养的ASCs相比,缺氧培养的ASCs在CM中的VEGF-A、FGF-2和bNGF水平升高,而HGF、IL-8和CXCL1水平降低。缺氧培养ASCs的CM可显著改善胰岛功能,减少培养后的细胞凋亡,减少细胞因子诱导的细胞凋亡。在我们的小鼠模型中,接受ASCs的两组小鼠的胰腺胰岛素含量均高于对照组,但接受预处理ASCs的小鼠的随机血糖和空腹血糖较低,并且与未治疗的小鼠相比,口服葡萄糖耐量有所改善。总之,我们的体外实验结果表明,ASCs的胰岛保护潜能在缺氧情况下得到改善,我们对其中的相关因素进行了深入研究。最后,我们发现缺氧预处理增强了ASCs在体内的抗糖尿病作用。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

Human Adipose-Derived Mesenchymal Stem Cells Respond to Short-Term Hypoxia by Secreting Factors Beneficial for Human Islets In Vitro and Potentiate Antidiabetic Effect In Vivo.

Human Adipose-Derived Mesenchymal Stem Cells Respond to Short-Term Hypoxia by Secreting Factors Beneficial for Human Islets In Vitro and Potentiate Antidiabetic Effect In Vivo.

Human Adipose-Derived Mesenchymal Stem Cells Respond to Short-Term Hypoxia by Secreting Factors Beneficial for Human Islets In Vitro and Potentiate Antidiabetic Effect In Vivo.

Human Adipose-Derived Mesenchymal Stem Cells Respond to Short-Term Hypoxia by Secreting Factors Beneficial for Human Islets In Vitro and Potentiate Antidiabetic Effect In Vivo.

Adipose-derived mesenchymal stem cells (ASCs) release factors beneficial for islets in vitro and protect against hyperglycemia in rodent models of diabetes. Oxygen tension has been shown to induce metabolic changes and alter ASCs' release of soluble factors. The effects of hypoxia on the antidiabetic properties of ASCs have not been explored. To investigate this, we incubated human ASCs for 48 h in 21% (normoxia) or 1% O2 (hypoxia) and compared viability, cell growth, surface markers, differentiation capability, and soluble factors in the conditioned media (CM). Human islets were exposed to CM from ASCs incubated in either normoxia or hypoxia, and islet function and apoptosis after culture with or without proinflammatory cytokines were measured. To test hypoxic preconditioned ASCs' islet protective effects in vivo, ASCs were incubated for 48 h in normoxia or hypoxia before being injected into Balb/c Rag 1-/- immunodeficient mice with streptozotocin-induced insulitis. Progression of diabetes and insulin content of pancreas were measured. We found that incubation in hypoxia was well tolerated by ASCs and that levels of VEGF-A, FGF-2, and bNGF were elevated in CM from ASCs incubated in hypoxia compared to normoxia, while levels of HGF, IL-8, and CXCL1 were reduced. CM from ASCs incubated in hypoxia significantly improved human islet function and reduced apoptosis after culture, and reduced cytokine-induced apoptosis. In our mouse model, pancreas insulin content was higher in both groups receiving ASCs compared to control, but the mice receiving preconditioned ASCs had lower random and fasting blood glucose, as well as improved oral glucose tolerance compared to untreated mice. In conclusion, our in vitro results indicate that the islet protective potential of ASCs improves in hypoxia, and we give insight into factors involved in this. Finally we show that hypoxic preconditioning potentiates ASCs' antidiabetic effect in vivo.

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Cell medicine
Cell medicine MEDICINE, RESEARCH & EXPERIMENTAL-
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