Macrophage manufacturing and engineering with 5′-Cap1 and N1-methylpseudouridine-modified mRNA

Macrophage-based cell therapeutics is an emerging modality to treat cancer and repair tissue damage. A reproducible manufacturing and engineering process is central to fulfilling their therapeutic potential. Here, we establish a robust macrophage-manufacturing platform (Mo-Mac) and demonstrate that...

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Bibliographic Details
Published in:Molecular therapy. Methods & clinical development 2024-09, Vol.32 (3), p.101307, Article 101307
Main Authors: Zhang, Peixuan, Wang, Yantai, Jiang, Jinfeng, Yang, Chao, Liu, Xianxia, Lei, Tingjun, Meng, Xiangjun, Yang, Jihong, Ding, Ping, Chen, Jie, Li, Qintong
Format: Article
Language:English
Subjects:
acetaminophen
Cap1
CD300LF
cell therapy
engineering
macrophage manufacture
Mo-Mac
mRNA
N1-methylpseudouridine
Original
single-cell sequencing
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Summary:Macrophage-based cell therapeutics is an emerging modality to treat cancer and repair tissue damage. A reproducible manufacturing and engineering process is central to fulfilling their therapeutic potential. Here, we establish a robust macrophage-manufacturing platform (Mo-Mac) and demonstrate that macrophage functionality can be enhanced by N1-methylpseudouridine (m1Ψ)-modified mRNA. Using single-cell transcriptomic analysis as an unbiased approach, we found that >90% cells in the final product were macrophages while the rest primarily comprised T cells, B cells, natural killer cells, promyelocytes, promonocytes, and hematopoietic stem cells. This analysis also guided the development of flow-cytometry strategies to assess cell compositions in the manufactured product to meet requirements by the National Medical Products Administration. To modulate macrophage functionality, as an illustrative example we examined whether the engulfment capability of macrophages could be enhanced by mRNA technology. We found that efferocytosis was increased in vitro when macrophages were electroporated with m1Ψ-modified mRNA encoding CD300LF (CD300LF-mRNA-macrophage). Consistently, in a mouse model of acute liver failure, CD300LF-mRNA-macrophages facilitated organ recovery from acetaminophen-induced hepatotoxicity. These results demonstrate a GMP-compliant macrophage-manufacturing process and indicate that macrophages can be engineered by versatile mRNA technology to achieve therapeutic goals. [Display omitted] Li and colleagues have established a GMP-compliant macrophage and mRNA manufacturing platform and have shown that macrophages can be engineered by versatile mRNA technology to achieve therapeutic goals in preclinical models.
ISSN:2329-0501
2329-0501
DOI:10.1016/j.omtm.2024.101307