Department of Genetics, University of Delhi South Campus, New Delhi, India.
Nutr Neurosci. 2024 Jul;27(7):783-794. doi: 10.1080/1028415X.2023.2253028. Epub 2023 Sep 2.
Since, the S6K/4E-BP sub-pathway can be stimulated by various amino acids; we extended our investigation to examine if oral feeding of amino acids delivers rescue against human poly(Q) toxicity in . We utilised models of two different poly(Q) disorders to test our hypothesis. Glutamine was fed to the test flies orally mixed in the food. Control and treated flies were then tested for different parameters, such as formation of poly(Q) aggregates and neurodegeneration, to evaluate glutamine's proficiency in mitigating poly(Q) neurotoxicity.
Our study, for the first time, reports that glutamine feeding stimulates the growth promoting S6K/4E-BP branch of insulin signalling pathway and restricts pathogenesis of poly(Q) disorders in disease models. We noted that glutamine treatment restricts the formation of neurotoxic poly(Q) aggregates and minimises neuronal deaths. Further, glutamine treatment re-establishes the chromatin architecture by improving the histone acetylation which is otherwise compromised in poly(Q) expressing neuronal cells.
Since, the insulin signalling pathway as well as mechanism of action of glutamine are fairly conserved between human and , our finding strongly suggests that glutamine holds immense potential to be developed as an intervention therapy against the incurable human poly(Q) disorders.
由于 S6K/4E-BP 亚途径可以被各种氨基酸刺激;我们扩展了我们的研究,以检查口服氨基酸是否能拯救. 我们利用两种不同的 poly(Q) 疾病模型来检验我们的假设。谷氨酰胺通过口服混合在食物中喂给试验蝇。然后对对照和处理过的蝇进行不同参数的测试,例如聚(Q)聚集体的形成和神经退行性变,以评估谷氨酰胺减轻聚(Q)神经毒性的能力。
我们的研究首次报告称,谷氨酰胺喂养刺激了促进生长的 S6K/4E-BP 分支的胰岛素信号通路,并限制了. 疾病模型中 poly(Q) 疾病的发病机制。我们注意到,谷氨酰胺治疗限制了神经毒性聚(Q)聚集体的形成并最小化了神经元死亡。此外,谷氨酰胺治疗通过改善组蛋白乙酰化作用恢复了染色质结构,否则在表达 poly(Q) 的神经元细胞中会受到损害。
由于胰岛素信号通路以及谷氨酰胺的作用机制在人类和. 之间相当保守,我们的发现强烈表明,谷氨酰胺具有巨大的潜力,可以开发为治疗不可治愈的人类 poly(Q) 疾病的干预疗法。
