Human microglial cells as a therapeutic target in a neurodevelopmental disease model

Pinar Mesci; Christopher N. LaRock; Jacob J. Jeziorski; Hideyuki Nakashima; Natalia Chermont; Adriano Ferrasa; Roberto H. Herai; Tomoka Ozaki; Aurian Saleh; Cedric E. Snethlage; Sandra Sanchez; Gabriela Goldberg; Cleber A. Trujillo; Kinichi Nakashima; Victor Nizet; Alysson R. Muotri

doi:10.1016/j.stemcr.2024.06.013

Human microglial cells as a therapeutic target in a neurodevelopmental disease model

Pinar Mesci, Christopher N. LaRock, Jacob J. Jeziorski, Hideyuki Nakashima, Natalia Chermont, Adriano Ferrasa, Roberto H. Herai, Tomoka Ozaki, Aurian Saleh, Cedric E. Snethlage, Sandra Sanchez, Gabriela Goldberg, Cleber A. Trujillo, Kinichi Nakashima, Victor Nizet, Alysson R. Muotri

応用幹細胞医科学

研究成果: ジャーナルへの寄稿 › 学術誌 › 査読

6 被引用数 (Scopus)

抄録

Although microglia are macrophages of the central nervous system, their involvement is not limited to immune functions. The roles of microglia during development in humans remain poorly understood due to limited access to fetal tissue. To understand how microglia can impact human neurodevelopment, the methyl-CpG binding protein 2 (MECP2) gene was knocked out in human microglia-like cells (MGLs). Disruption of the MECP2 in MGLs led to transcriptional and functional perturbations, including impaired phagocytosis. The co-culture of healthy MGLs with MECP2-knockout (KO) neurons rescued synaptogenesis defects, suggesting a microglial role in synapse formation. A targeted drug screening identified ADH-503, a CD11b agonist, restored phagocytosis and synapse formation in spheroid-MGL co-cultures, significantly improved disease progression, and increased survival in MeCP2-null mice. These results unveil a MECP2-specific regulation of human microglial phagocytosis and identify a novel therapeutic treatment for MECP2-related conditions.

本文言語	英語
ページ（範囲）	1074-1091
ページ数	18
ジャーナル	Stem Cell Reports
巻	19
号	8
DOI	https://doi.org/10.1016/j.stemcr.2024.06.013
出版ステータス	出版済み - 8月 13 2024

!!!All Science Journal Classification (ASJC) codes

生化学
遺伝学
発生生物学
細胞生物学

UN SDG

この成果は、次の持続可能な開発目標に貢献しています

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10.1016/j.stemcr.2024.06.013

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引用スタイル

Mesci, P., LaRock, C. N., Jeziorski, J. J., Nakashima, H., Chermont, N., Ferrasa, A., Herai, R. H., Ozaki, T., Saleh, A., Snethlage, C. E., Sanchez, S., Goldberg, G., Trujillo, C. A., Nakashima, K., Nizet, V., & Muotri, A. R. (2024). Human microglial cells as a therapeutic target in a neurodevelopmental disease model. Stem Cell Reports, 19(8), 1074-1091. https://doi.org/10.1016/j.stemcr.2024.06.013

Mesci, P, LaRock, CN, Jeziorski, JJ, Nakashima, H, Chermont, N, Ferrasa, A, Herai, RH, Ozaki, T, Saleh, A, Snethlage, CE, Sanchez, S, Goldberg, G, Trujillo, CA, Nakashima, K, Nizet, V & Muotri, AR 2024, 'Human microglial cells as a therapeutic target in a neurodevelopmental disease model', Stem Cell Reports, vol. 19, no. 8, pp. 1074-1091. https://doi.org/10.1016/j.stemcr.2024.06.013

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title = "Human microglial cells as a therapeutic target in a neurodevelopmental disease model",

abstract = "Although microglia are macrophages of the central nervous system, their involvement is not limited to immune functions. The roles of microglia during development in humans remain poorly understood due to limited access to fetal tissue. To understand how microglia can impact human neurodevelopment, the methyl-CpG binding protein 2 (MECP2) gene was knocked out in human microglia-like cells (MGLs). Disruption of the MECP2 in MGLs led to transcriptional and functional perturbations, including impaired phagocytosis. The co-culture of healthy MGLs with MECP2-knockout (KO) neurons rescued synaptogenesis defects, suggesting a microglial role in synapse formation. A targeted drug screening identified ADH-503, a CD11b agonist, restored phagocytosis and synapse formation in spheroid-MGL co-cultures, significantly improved disease progression, and increased survival in MeCP2-null mice. These results unveil a MECP2-specific regulation of human microglial phagocytosis and identify a novel therapeutic treatment for MECP2-related conditions.",

keywords = "ADH-503, CD11b, MECP2, chromatin, iPSC, integrin, microglia, neurodevelopment, neurons, phagocytosis, stem cells, synaptogenesis",

author = "Pinar Mesci and LaRock, \{Christopher N.\} and Jeziorski, \{Jacob J.\} and Hideyuki Nakashima and Natalia Chermont and Adriano Ferrasa and Herai, \{Roberto H.\} and Tomoka Ozaki and Aurian Saleh and Snethlage, \{Cedric E.\} and Sandra Sanchez and Gabriela Goldberg and Trujillo, \{Cleber A.\} and Kinichi Nakashima and Victor Nizet and Muotri, \{Alysson R.\}",

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month = aug,

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doi = "10.1016/j.stemcr.2024.06.013",

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AU - Mesci, Pinar

AU - LaRock, Christopher N.

AU - Jeziorski, Jacob J.

AU - Nakashima, Hideyuki

AU - Chermont, Natalia

AU - Ferrasa, Adriano

AU - Herai, Roberto H.

AU - Ozaki, Tomoka

AU - Saleh, Aurian

AU - Snethlage, Cedric E.

AU - Sanchez, Sandra

AU - Goldberg, Gabriela

AU - Trujillo, Cleber A.

AU - Nakashima, Kinichi

AU - Nizet, Victor

AU - Muotri, Alysson R.

PY - 2024/8/13

Y1 - 2024/8/13

N2 - Although microglia are macrophages of the central nervous system, their involvement is not limited to immune functions. The roles of microglia during development in humans remain poorly understood due to limited access to fetal tissue. To understand how microglia can impact human neurodevelopment, the methyl-CpG binding protein 2 (MECP2) gene was knocked out in human microglia-like cells (MGLs). Disruption of the MECP2 in MGLs led to transcriptional and functional perturbations, including impaired phagocytosis. The co-culture of healthy MGLs with MECP2-knockout (KO) neurons rescued synaptogenesis defects, suggesting a microglial role in synapse formation. A targeted drug screening identified ADH-503, a CD11b agonist, restored phagocytosis and synapse formation in spheroid-MGL co-cultures, significantly improved disease progression, and increased survival in MeCP2-null mice. These results unveil a MECP2-specific regulation of human microglial phagocytosis and identify a novel therapeutic treatment for MECP2-related conditions.

AB - Although microglia are macrophages of the central nervous system, their involvement is not limited to immune functions. The roles of microglia during development in humans remain poorly understood due to limited access to fetal tissue. To understand how microglia can impact human neurodevelopment, the methyl-CpG binding protein 2 (MECP2) gene was knocked out in human microglia-like cells (MGLs). Disruption of the MECP2 in MGLs led to transcriptional and functional perturbations, including impaired phagocytosis. The co-culture of healthy MGLs with MECP2-knockout (KO) neurons rescued synaptogenesis defects, suggesting a microglial role in synapse formation. A targeted drug screening identified ADH-503, a CD11b agonist, restored phagocytosis and synapse formation in spheroid-MGL co-cultures, significantly improved disease progression, and increased survival in MeCP2-null mice. These results unveil a MECP2-specific regulation of human microglial phagocytosis and identify a novel therapeutic treatment for MECP2-related conditions.

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KW - CD11b

KW - MECP2

KW - chromatin

KW - iPSC

KW - integrin

KW - microglia

KW - neurodevelopment

KW - neurons

KW - phagocytosis

KW - stem cells

KW - synaptogenesis

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Human microglial cells as a therapeutic target in a neurodevelopmental disease model

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!!!All Science Journal Classification (ASJC) codes

UN SDG

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