de la Monte Suzanne M, Elgas Erin, Tong Ming, Delikkaya Busra, Yang Yiwen
Departments of Pathology and Laboratory Medicine, Rhode Island Hospital, Providence, USA.
Diabetes Manag (Lond). 2023;13(Suppl 1):107-118. Epub 2023 Apr 27.
Central Nervous System (CNS) abnormalities with insulin resistance and mediated by developmental exposures to ethanol can be avoided or remediated by consumption of dietary soy, which has insulin-sensitizing as well as antioxidant effects. However, choline supplementation has been shown to diminish Fetal Alcohol Spectrum Disorder (FASD) pathologies, and dietary soy contains abundant choline. This study was designed to determine if the therapeutic effects of soy were mediated by or independent of choline.
Human PNET2 cells exposed to 0 mM or 100 mM ethanol for 48 hours were seeded into 96-well or 12-well plates and treated with vehicle, choline chloride (75 μM), or 1 μM Daidzein+1 μM Genistein (D+G) for 24 h. The cells were then analyzed for viability (Hoechst 33342), mitochondrial function (MTT), and GAPDH, Tau, Acetyl Cholinesterase (AChE), Choline Acetyl Transferase (ChAT), and Aspartyl-Asparaginyl-β-Hydroxylase (ASPH) immunoreactivity.
Choline and D+G significantly increased MTT activity (mitochondrial function) corrected for cell number relative to vehicle in control and ethanol-exposed cultures. Both choline and D+G prevented the ethanol-induced inhibition of GAPDH and ChAT and increased cellular accumulations of Tau. However, D+G significantly increased ASPH expression relative to vehicle and Choline.
Choline and D+G differentially modulated the expression of neuronal proteins, mitochondrial function, and ASPH. Importantly, the prominently increased expression of ASPH by D+G corresponds with the insulin-sensitizer actions of soy isoflavones since ASPH is an insulin-responsive molecule. The findings further suggest that dietary soy may be more effective than choline for reducing ethanol-impaired neuronal migration linked to ASPH inhibition in FASD.
中枢神经系统(CNS)异常与胰岛素抵抗有关,且由发育过程中接触乙醇介导,而食用具有胰岛素增敏和抗氧化作用的膳食大豆可避免或纠正这种异常。然而,已证明补充胆碱可减轻胎儿酒精谱系障碍(FASD)的病理状况,且膳食大豆含有丰富的胆碱。本研究旨在确定大豆的治疗作用是否由胆碱介导或与胆碱无关。
将暴露于0 mM或100 mM乙醇48小时的人PNET2细胞接种到96孔或12孔板中,并用溶剂、氯化胆碱(75 μM)或1 μM大豆苷元+1 μM染料木黄酮(D+G)处理24小时。然后分析细胞的活力(Hoechst 33342)、线粒体功能(MTT)以及甘油醛-3-磷酸脱氢酶(GAPDH)、微管相关蛋白tau(Tau)、乙酰胆碱酯酶(AChE)、胆碱乙酰转移酶(ChAT)和天冬酰胺-天冬酰胺-β-羟化酶(ASPH)的免疫反应性。
相对于对照组和乙醇暴露组培养物中的溶剂,胆碱和D+G显著增加了经细胞数量校正后的MTT活性(线粒体功能)。胆碱和D+G均能防止乙醇诱导的GAPDH和ChAT抑制,并增加Tau的细胞积累。然而,相对于溶剂和胆碱,D+G显著增加了ASPH的表达。
胆碱和D+G对神经元蛋白的表达、线粒体功能和ASPH有不同的调节作用。重要的是,D+G显著增加ASPH表达,这与大豆异黄酮的胰岛素增敏作用相对应,因为ASPH是一种胰岛素反应性分子。这些发现进一步表明,在减少与FASD中ASPH抑制相关的乙醇损害的神经元迁移方面,膳食大豆可能比胆碱更有效。
