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星形胶质细胞和星形细胞瘤产生的感知和响应策略对酸碱机械应激的神经治疗意义。

Neurotherapeutic implications of sense and respond strategies generated by astrocytes and astrocytic tumours to combat pH mechanical stress.

机构信息

Brain and Cerebrovascular Mechanobiology Research, Laboratory of Translational Mechanobiology, Department of Neurobiology, Rajiv Gandhi Centre for Biotechnology, Thiruvananthapuram, Kerala, India.

Manipal Academy of Higher Education (MAHE), Manipal, Karnataka, India.

出版信息

Neuropathol Appl Neurobiol. 2022 Feb;48(2):e12774. doi: 10.1111/nan.12774. Epub 2021 Dec 9.

DOI:10.1111/nan.12774
PMID:34811795
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC9300154/
Abstract

AIMS

Astrocytes adapt to acute acid stress. Intriguingly, cancer cells with astrocytic differentiation thrive even better in an acidic microenvironment. How changes in extracellular pH (pHe) are sensed and measured by the cell surface assemblies that first intercept the acid stress, and how this information is relayed downstream for an appropriate survival response remains largely uncharacterized.

METHODS

In vitro cell-based studies were combined with an in vivo animal model to delineate the machinery involved in pH microenvironment sensing and generation of mechanoadaptive responses in normal and neoplastic astrocytes. The data was further validated on patient samples from acidosis driven ischaemia and astrocytic tumour tissues.

RESULTS

We demonstrate that low pHe is perceived and interpreted by cells as mechanical stress. GM3 acts as a lipid-based pH sensor, and in low pHe, its highly protonated state generates plasma membrane deformation stress which activates the IRE1-sXBP1-SREBP2-ACSS2 response axis for cholesterol biosynthesis and surface trafficking. Enhanced surface cholesterol provides mechanical tenacity and prevents acid-mediated membrane hydrolysis, which would otherwise result in cell leakage and death.

CONCLUSIONS

In summary, activating these lipids or the associated downstream machinery in acidosis-related neurodegeneration may prevent disease progression, while specifically suppressing this key mechanical 'sense-respond' axis should effectively target astrocytic tumour growth.

摘要

目的

星形胶质细胞能适应急性酸应激。有趣的是,具有星形胶质细胞分化特征的癌细胞在酸性微环境中生长得更好。细胞表面组件如何感知和测量细胞外 pH 值(pHe)的变化,这些信息如何向下游传递以产生适当的存活反应,这些问题在很大程度上仍未得到阐明。

方法

将体外基于细胞的研究与体内动物模型相结合,以描绘参与正常和肿瘤星形胶质细胞中 pH 微环境感应和产生机械适应性反应的机制。在酸中毒驱动的缺血和星形胶质细胞瘤组织中来自患者的样本上进一步验证了这些数据。

结果

我们证明低 pHe 被细胞感知并解释为机械应激。GM3 作为一种基于脂质的 pH 传感器,在低 pHe 下,其高度质子化状态会产生质膜变形应激,从而激活 IRE1-sXBP1-SREBP2-ACSS2 反应轴,促进胆固醇生物合成和表面转运。增强的表面胆固醇提供机械强度,并防止酸介导的膜水解,否则这将导致细胞渗漏和死亡。

结论

总之,在与酸中毒相关的神经退行性变中激活这些脂质或相关的下游机制可能会阻止疾病进展,而特异性抑制这个关键的机械“感知-反应”轴应该能够有效地靶向星形胶质细胞瘤的生长。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/62d4/9300154/076254a46d38/NAN-48-0-g002.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/62d4/9300154/a5b8e392c86a/NAN-48-0-g010.jpg
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