Role of Long Non-Coding RNA X-Inactive-Specific Transcript (XIST) in Neuroinflammation and Myelination: Insights from Cerebral Organoids and Implications for Multiple Sclerosis.

IF 3.6 Q2 BIOCHEMISTRY & MOLECULAR BIOLOGY

Non-Coding RNA Pub Date : 2025-04-29 DOI:10.3390/ncrna11030031

Nihan Aktas Pepe, Busra Acar, Gozde Erturk Zararsiz, Serife Ayaz Guner, Alaattin Sen

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引用次数: 0

Abstract

Background/Objectives: X-inactive-specific transcript (XIST) is a factor that plays a role in neuroinflammation. This study investigated the role of XIST in neuronal development, neuroinflammation, myelination, and therapeutic responses within cerebral organoids in the context of Multiple Sclerosis (MS) pathogenesis. Methods: Human cerebral organoids with oligodendrocytes were produced from XIST-silenced H9 cells, and the mature organoids were subsequently treated with either FTY720 or DMF. Gene expression related to inflammation and myelination was subsequently analyzed via qRT-PCR. Immunofluorescence staining was used to assess the expression of proteins related to inflammation, myelination, and neuronal differentiation. Alpha-synuclein protein levels were also checked via ELISA. Finally, transcriptome analysis was conducted on the organoid samples. Results: XIST-silenced organoids presented a 2-fold increase in the expression of neuronal stem cells, excitatory neurons, microglia, and mature oligodendrocyte markers. In addition, XIST silencing increased IL-10 mRNA expression by 2-fold and MBP and PLP1 expression by 2.3- and 0.6-fold, respectively. Although XIST silencing tripled IBA1 protein expression, it did not affect organoid MBP expression. FTY720, but not DMF, distinguished MBP and IBA1 expression in XIST-silenced organoids. Furthermore, XIST silencing reduced the concentration of alpha-synuclein from 300 to 100 pg/mL, confirming its anti-inflammatory role. Transcriptomic and gene enrichment analyses revealed that the differentially expressed genes are involved in neural development and immune processes, suggesting the role of XIST in neuroinflammation. The silencing of XIST modified the expression of genes associated with inflammation, myelination, and neuronal growth in cerebral organoids, indicating a potential involvement in the pathogenesis of MS. Conclusions: XIST may contribute to the MS pathogenesis as well as neuroinflammatory diseases such as and Alzheimer's and Parkinson's diseases and may be a promising therapeutic target.

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长链非编码RNA x无活性特异性转录物（XIST）在神经炎症和髓鞘形成中的作用：来自脑类器官的见解和对多发性硬化症的影响。

背景/目的：X-inactive-specific transcript （XIST）是一个在神经炎症中起作用的因子。本研究探讨了XIST在多发性硬化症（MS）发病背景下脑类器官内神经元发育、神经炎症、髓鞘形成和治疗反应中的作用。方法：用xist沉默的H9细胞制备具有少突胶质细胞的人脑类器官，然后用FTY720或DMF处理成熟的类器官。随后通过qRT-PCR分析与炎症和髓鞘形成相关的基因表达。免疫荧光染色用于评估炎症、髓鞘形成和神经元分化相关蛋白的表达。ELISA法检测α -突触核蛋白水平。最后，对类器官样本进行转录组分析。结果：xist沉默的类器官的神经干细胞、兴奋性神经元、小胶质细胞和成熟少突胶质细胞标记物的表达增加了2倍。此外，XIST沉默使IL-10 mRNA表达增加2倍，MBP和PLP1表达分别增加2.3倍和0.6倍。虽然XIST沉默使IBA1蛋白表达增加了三倍，但它不影响类器官MBP的表达。FTY720在xist沉默的类器官中区分MBP和IBA1的表达，而DMF不区分。此外，XIST沉默使α -突触核蛋白浓度从300降低到100 pg/mL，证实了其抗炎作用。转录组学和基因富集分析显示，差异表达的基因参与神经发育和免疫过程，提示XIST在神经炎症中的作用。XIST的沉默改变了脑类器官中炎症、髓鞘形成和神经元生长相关基因的表达，提示其可能参与MS的发病机制。结论：XIST可能参与MS的发病机制以及阿尔茨海默病和帕金森病等神经炎性疾病，可能是一个有前景的治疗靶点。

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来源期刊

Non-Coding RNA Biochemistry, Genetics and Molecular Biology-Genetics

CiteScore

6.70

自引率

4.70%

发文量

审稿时长

10 weeks

期刊介绍： Functional studies dealing with identification, structure-function relationships or biological activity of: small regulatory RNAs (miRNAs, siRNAs and piRNAs) associated with the RNA interference pathway small nuclear RNAs, small nucleolar and tRNAs derived small RNAs other types of small RNAs, such as those associated with splice junctions and transcription start sites long non-coding RNAs, including antisense RNAs, long ''intergenic'' RNAs, intronic RNAs and ''enhancer'' RNAs other classes of RNAs such as vault RNAs, scaRNAs, circular RNAs, 7SL RNAs, telomeric and centromeric RNAs regulatory functions of mRNAs and UTR-derived RNAs catalytic and allosteric (riboswitch) RNAs viral, transposon and repeat-derived RNAs bacterial regulatory RNAs, including CRISPR RNAS Analysis of RNA processing, RNA binding proteins, RNA signaling and RNA interaction pathways: DICER AGO, PIWI and PIWI-like proteins other classes of RNA binding and RNA transport proteins RNA interactions with chromatin-modifying complexes RNA interactions with DNA and other RNAs the role of RNA in the formation and function of specialized subnuclear organelles and other aspects of cell biology intercellular and intergenerational RNA signaling RNA processing structure-function relationships in RNA complexes RNA analyses, informatics, tools and technologies: transcriptomic analyses and technologies development of tools and technologies for RNA biology and therapeutics Translational studies involving long and short non-coding RNAs: identification of biomarkers development of new therapies involving microRNAs and other ncRNAs clinical studies involving microRNAs and other ncRNAs.