An adapted protocol to derive microglia from stem cells and its application in the study of CSF1R-related disorders

IF 14.9 1区 医学 Q1 NEUROSCIENCES Molecular Neurodegeneration Pub Date : 2024-04-05 DOI:10.1186/s13024-024-00723-x
Marie-France Dorion, Diana Casas, Irina Shlaifer, Moein Yaqubi, Peter Fleming, Nathan Karpilovsky, Carol X.-Q. Chen, Michael Nicouleau, Valerio E. C. Piscopo, Emma J. MacDougall, Aeshah Alluli, Taylor M. Goldsmith, Alexandria Schneider, Samuel Dorion, Nathalia Aprahamian, Adam MacDonald, Rhalena A. Thomas, Roy W. R. Dudley, Jeffrey A. Hall, Edward A. Fon, Jack P. Antel, Jo Anne Stratton, Thomas M. Durcan, Roberta La Piana, Luke M. Healy
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Abstract

Induced pluripotent stem cell-derived microglia (iMGL) represent an excellent tool in studying microglial function in health and disease. Yet, since differentiation and survival of iMGL are highly reliant on colony-stimulating factor 1 receptor (CSF1R) signaling, it is difficult to use iMGL to study microglial dysfunction associated with pathogenic defects in CSF1R. Serial modifications to an existing iMGL protocol were made, including but not limited to changes in growth factor combination to drive microglial differentiation, until successful derivation of microglia-like cells from an adult-onset leukoencephalopathy with axonal spheroids and pigmented glia (ALSP) patient carrying a c.2350G > A (p.V784M) CSF1R variant. Using healthy control lines, the quality of the new iMGL protocol was validated through cell yield assessment, measurement of microglia marker expression, transcriptomic comparison to primary microglia, and evaluation of inflammatory and phagocytic activities. Similarly, molecular and functional characterization of the ALSP patient-derived iMGL was carried out in comparison to healthy control iMGL. The newly devised protocol allowed the generation of iMGL with enhanced transcriptomic similarity to cultured primary human microglia and with higher scavenging and inflammatory competence at ~ threefold greater yield compared to the original protocol. Using this protocol, decreased CSF1R autophosphorylation and cell surface expression was observed in iMGL derived from the ALSP patient compared to those derived from healthy controls. Additionally, ALSP patient-derived iMGL presented a migratory defect accompanying a temporal reduction in purinergic receptor P2Y12 (P2RY12) expression, a heightened capacity to internalize myelin, as well as heightened inflammatory response to Pam3CSK4. Poor P2RY12 expression was confirmed to be a consequence of CSF1R haploinsufficiency, as this feature was also observed following CSF1R knockdown or inhibition in mature control iMGL, and in CSF1RWT/KO and CSF1RWT/E633K iMGL compared to their respective isogenic controls. We optimized a pre-existing iMGL protocol, generating a powerful tool to study microglial involvement in human neurological diseases. Using the optimized protocol, we have generated for the first time iMGL from an ALSP patient carrying a pathogenic CSF1R variant, with preliminary characterization pointing toward functional alterations in migratory, phagocytic and inflammatory activities.
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从干细胞中提取小胶质细胞的改良方案及其在 CSF1R 相关疾病研究中的应用
诱导多能干细胞衍生小胶质细胞(iMGL)是研究健康和疾病中小胶质细胞功能的绝佳工具。然而,由于iMGL的分化和存活高度依赖集落刺激因子1受体(CSF1R)信号传导,因此很难利用iMGL研究与CSF1R致病缺陷相关的小胶质细胞功能障碍。我们对现有的 iMGL 方案进行了一系列修改,包括但不限于改变生长因子组合以驱动小胶质细胞分化,直到成功地从一名携带 c.2350G > A (p.V784M) CSF1R 变体的成人型白质脑病伴轴索球体和色素性胶质细胞(ALSP)患者身上衍生出小胶质细胞样细胞。利用健康对照品系,通过细胞产量评估、小胶质细胞标记表达测量、与原代小胶质细胞的转录组比较以及炎症和吞噬活性评估,验证了新的 iMGL 方案的质量。同样,通过与健康对照 iMGL 的比较,对 ALSP 患者衍生 iMGL 进行了分子和功能表征。新设计的方案使生成的 iMGL 与培养的原代人类小胶质细胞具有更高的转录组相似性,并具有更强的清除能力和炎症能力,产量比原始方案高出约三倍。与健康对照组的 iMGL 相比,使用该方案在 ALSP 患者的 iMGL 中观察到 CSF1R 自身磷酸化和细胞表面表达的减少。此外,ALSP 患者衍生的 iMGL 存在迁移缺陷,嘌呤能受体 P2Y12(P2RY12)表达暂时性减少,内化髓鞘的能力增强,对 Pam3CSK4 的炎症反应也增强。P2RY12表达低下被证实是CSF1R单倍体缺陷的结果,因为在成熟对照iMGL中敲除或抑制CSF1R后也观察到了这一特征,而在CSF1RWT/KO和CSF1RWT/E633K iMGL中与它们各自的同源对照组相比也观察到了这一特征。我们优化了已有的 iMGL 方案,为研究小胶质细胞参与人类神经系统疾病提供了有力工具。利用优化的方案,我们首次从携带致病性 CSF1R 变异的 ALSP 患者身上生成了 iMGL,初步特征表明其在迁移、吞噬和炎症活动方面发生了功能性改变。
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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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