Complex Operative Unit of Neurology, "F. Ferrari" Hospital, Casarano, 73042 Lecce, Italy.
Laboratory of Neuroproteomics, Multiple Sclerosis Centre, "F. Ferrari" Hospital, Casarano, 73042 Lecce, Italy.
Int J Mol Sci. 2024 Jun 22;25(13):6867. doi: 10.3390/ijms25136867.
Growing evidence identifies extracellular vesicles (EVs) as important cell-to-cell signal transducers in autoimmune disorders, including multiple sclerosis (MS). If the etiology of MS still remains unknown, its molecular physiology has been well studied, indicating peripheral blood mononuclear cells (PBMCs) as the main pathologically relevant contributors to the disease and to neuroinflammation. Recently, several studies have suggested the involvement of EVs as key mediators of neuroimmune crosstalk in central nervous system (CNS) autoimmunity. To assess the role of EVs in MS, we applied electron microscopy (EM) techniques and Western blot analysis to study the morphology and content of plasma-derived EVs as well as the ultrastructure of PBMCs, considering four MS patients and four healthy controls. Through its exploratory nature, our study was able to detect significant differences between groups. Pseudopods and large vesicles were more numerous at the plasmalemma interface of cases, as were endoplasmic vesicles, resulting in an activated aspect of the PBMCs. Moreover, PBMCs from MS patients also showed an increased number of multivesicular bodies within the cytoplasm and amorphous material around the vesicles. In addition, we observed a high number of plasma-membrane-covered extensions, with multiple associated large vesicles and numerous autophagosomal vacuoles containing undigested cytoplasmic material. Finally, the study of EV cargo evidenced a number of dysregulated molecules in MS patients, including GANAB, IFI35, Cortactin, Septin 2, Cofilin 1, and ARHGDIA, that serve as inflammatory signals in a context of altered vesicular dynamics. We concluded that EM coupled with Western blot analysis applied to PBMCs and vesiculation can enhance our knowledge in the physiopathology of MS.
越来越多的证据表明,细胞外囊泡(EVs)在自身免疫性疾病中是重要的细胞间信号转导物,包括多发性硬化症(MS)。尽管 MS 的病因仍然未知,但它的分子生理学已经得到了很好的研究,表明外周血单核细胞(PBMCs)是疾病和神经炎症的主要病理性相关贡献者。最近,几项研究表明,EVs 作为神经免疫串扰的关键介质参与中枢神经系统(CNS)自身免疫。为了评估 EVs 在 MS 中的作用,我们应用电子显微镜(EM)技术和 Western blot 分析来研究血浆衍生 EVs 的形态和含量以及 PBMCs 的超微结构,共考虑了 4 名 MS 患者和 4 名健康对照者。通过其探索性性质,我们的研究能够检测到组间的显著差异。病例组质膜界面上的伪足和大囊泡数量更多,内质网囊泡也是如此,导致 PBMCs 呈现出激活状态。此外,MS 患者的 PBMCs 还显示细胞质内多泡体数量增加,囊泡周围无定形物质增加。此外,我们观察到大量覆盖质膜的延伸物,有多个相关的大囊泡和许多含有未消化细胞质物质的自噬泡。最后,对 EV 货物的研究表明,MS 患者存在许多失调的分子,包括 GANAB、IFI35、Cortactin、Septin 2、Cofilin 1 和 ARHGDIA,它们作为炎症信号在囊泡动力学改变的情况下发挥作用。我们得出结论,EM 结合 Western blot 分析应用于 PBMCs 和囊泡化可以增强我们对 MS 病理生理学的认识。
