脂质毒素 B4 和眼压对视神经中与疾病相关的小胶质细胞的调节作用

IF 14.9 1区 医学 Q1 NEUROSCIENCES Molecular Neurodegeneration Pub Date : 2024-11-20 DOI:10.1186/s13024-024-00775-z
Shubham Maurya, Maggie Lin, Shruthi Karnam, Tanirika Singh, Matangi Kumar, Emily Ward, Jeremy Sivak, John G. Flanagan, Karsten Gronert
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引用次数: 0

摘要

在视网膜应激(包括眼压过高引起的神经病变)过程中,驻留星形胶质细胞-视网膜神经节细胞(RGC)脂毒素回路会受到损害。在眼压升高诱发的神经病变中,由同源性星形胶质细胞产生的脂质毒素 B4 可直接作用于 RGC,提高其存活率和功能。视网膜中 RGC 的死亡和视神经中轴突的变性是由小胶质细胞和大胶质细胞之间复杂的相互作用驱动的。LXB4的神经保护作用是否包括对视网膜和/或视神经中其他细胞类型的调节是一个重要的知识空白。通过单细胞 RNA 测序确定了 LXB4 在视网膜中的细胞靶点和信号传导。通过向小鼠眼球前房注射硅油诱导视网膜神经变性,从而诱导持续稳定的眼压升高。通过 MorphOMICs 和伪时间轨迹分析确定了视网膜和视神经中小胶质细胞群的形态特征。利用大容量 RNA 测序研究了 LXB4 在视神经中的作用途径和机制。转录组学数据通过 qPCR 和免疫组化进行验证。实验组之间的差异通过学生 t 检验和单因素方差分析进行评估。单细胞转录组学发现小胶质细胞是 LXB4 在健康视网膜中的主要作用靶点。LXB4 下调了驱动小胶质细胞环境感应和反应反应的基因。对小胶质细胞功能的分析表明,眼压过高会在视网膜中诱导出不同的、时间明确的动态表型,而且出乎意料的是,在远端有髓视神经中也是如此。CD74是大脑中与疾病相关的小胶质细胞的标志物,它只在视神经小胶质细胞的一个独特群体中被诱导表达,而在视网膜中却没有被诱导表达。在正常血压的眼睛中,脂质毒素形成的基因缺失与CD74视神经小胶质细胞群的存在相关,而在眼压过高期间,LXB4治疗会使视神经小胶质细胞转向平衡形态和非反应状态,并下调CD74的表达。此外,我们还发现了视神经中 CD74 与磷酸肌醇 3-激酶(p-PI3K)表达水平之间的相关性,LXB4 治疗可降低这种相关性。我们发现,小胶质细胞功能表型的早期动态变化、反应性以及远端视神经中独特的 CD74 小胶质细胞群的诱导是眼压诱导的神经变性的关键特征。我们的研究结果确立了小胶质细胞调控是 LXB4 在视网膜和视神经中的一个新靶点。LXB4 维持视神经小胶质细胞表型的平衡和抑制疾病相关表型是 LXB4 驻留途径的潜在神经保护机制。
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Regulation of disease-associated microglia in the optic nerve by lipoxin B4 and ocular hypertension
The resident astrocyte-retinal ganglion cell (RGC) lipoxin circuit is impaired during retinal stress, which includes ocular hypertension-induced neuropathy. Lipoxin B4 produced by homeostatic astrocytes directly acts on RGCs to increase survival and function in ocular hypertension-induced neuropathy. RGC death in the retina and axonal degeneration in the optic nerve are driven by the complex interactions between microglia and macroglia. Whether LXB4 neuroprotective actions include regulation of other cell types in the retina and/or optic nerve is an important knowledge gap. Cellular targets and signaling of LXB4 in the retina were defined by single-cell RNA sequencing. Retinal neurodegeneration was induced by injecting silicone oil into the anterior chamber of mouse eyes, which induced sustained and stable ocular hypertension. Morphological characterization of microglia populations in the retina and optic nerve was established by MorphOMICs and pseudotime trajectory analyses. The pathways and mechanisms of action of LXB4 in the optic nerve were investigated using bulk RNA sequencing. Transcriptomics data was validated by qPCR and immunohistochemistry. Differences between experimental groups were assessed by Student’s t-test and one-way ANOVA. Single-cell transcriptomics identified microglia as a primary target for LXB4 in the healthy retina. LXB4 downregulated genes that drive microglia environmental sensing and reactivity responses. Analysis of microglial function revealed that ocular hypertension induced distinct, temporally defined, and dynamic phenotypes in the retina and, unexpectedly, in the distal myelinated optic nerve. Microglial expression of CD74, a marker of disease-associated microglia in the brain, was only induced in a unique population of optic nerve microglia, but not in the retina. Genetic deletion of lipoxin formation correlated with the presence of a CD74 optic nerve microglia population in normotensive eyes, while LXB4 treatment during ocular hypertension shifted optic nerve microglia toward a homeostatic morphology and non-reactive state and downregulated the expression of CD74. Furthermore, we identified a correlation between CD74 and phospho-phosphoinositide 3-kinases (p-PI3K) expression levels in the optic nerve, which was reduced by LXB4 treatment. We identified early and dynamic changes in the microglia functional phenotype, reactivity, and induction of a unique CD74 microglia population in the distal optic nerve as key features of ocular hypertension-induced neurodegeneration. Our findings establish microglia regulation as a novel LXB4 target in the retina and optic nerve. LXB4 maintenance of a homeostatic optic nerve microglia phenotype and inhibition of a disease-associated phenotype are potential neuroprotective mechanisms for the resident LXB4 pathway.
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来源期刊
Molecular Neurodegeneration
Molecular Neurodegeneration 医学-神经科学
CiteScore
23.00
自引率
4.60%
发文量
78
审稿时长
6-12 weeks
期刊介绍: Molecular Neurodegeneration, an open-access, peer-reviewed journal, comprehensively covers neurodegeneration research at the molecular and cellular levels. Neurodegenerative diseases, such as Alzheimer's, Parkinson's, Huntington's, and prion diseases, fall under its purview. These disorders, often linked to advanced aging and characterized by varying degrees of dementia, pose a significant public health concern with the growing aging population. Recent strides in understanding the molecular and cellular mechanisms of these neurodegenerative disorders offer valuable insights into their pathogenesis.
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