Bone-marrow-homing lipid nanoparticles for genome editing in diseased and malignant haematopoietic stem cells

Xizhen Lian; Sumanta Chatterjee; Yehui Sun; Sean A. Dilliard; Stephen Moore; Yufen Xiao; Xiaoyan Bian; Kohki Yamada; Yun Chieh Sung; Rachel M. Levine; Kalin Mayberry; Samuel John; Xiaoye Liu; Caroline Smith; Lindsay T. Johnson; Xu Wang; Cheng Cheng Zhang; David R. Liu; Gregory A. Newby; Mitchell J. Weiss; Jonathan S. Yen; Daniel J. Siegwart

doi:10.1038/s41565-024-01680-8

Bone-marrow-homing lipid nanoparticles for genome editing in diseased and malignant haematopoietic stem cells

Xizhen Lian
, Sumanta Chatterjee
, Yehui Sun
, Sean A. Dilliard
, Stephen Moore
, Yufen Xiao
, Xiaoyan Bian
, Kohki Yamada
, Yun Chieh Sung
, Rachel M. Levine
, Kalin Mayberry
, Samuel John
, Xiaoye Liu
, Caroline Smith
, Lindsay T. Johnson
, Xu Wang
, Cheng Cheng Zhang
, David R. Liu
, Gregory A. Newby
, Mitchell J. Weiss

Jonathan S. Yen, Daniel J. Siegwart

Research output: Contribution to journal › Article › peer-review

77 Scopus citations

Abstract

Therapeutic genome editing of haematopoietic stem cells (HSCs) would provide long-lasting treatments for multiple diseases. However, the in vivo delivery of genetic medicines to HSCs remains challenging, especially in diseased and malignant settings. Here we report on a series of bone-marrow-homing lipid nanoparticles that deliver mRNA to a broad group of at least 14 unique cell types in the bone marrow, including healthy and diseased HSCs, leukaemic stem cells, B cells, T cells, macrophages and leukaemia cells. CRISPR/Cas and base editing is achieved in a mouse model expressing human sickle cell disease phenotypes for potential foetal haemoglobin reactivation and conversion from sickle to non-sickle alleles. Bone-marrow-homing lipid nanoparticles were also able to achieve Cre-recombinase-mediated genetic deletion in bone-marrow-engrafted leukaemic stem cells and leukaemia cells. We show evidence that diverse cell types in the bone marrow niche can be edited using bone-marrow-homing lipid nanoparticles.

Original language	English (US)
Pages (from-to)	1409-1417
Number of pages	9
Journal	Nature Nanotechnology
Volume	19
Issue number	9
DOIs	https://doi.org/10.1038/s41565-024-01680-8
State	Published - Sep 2024

ASJC Scopus subject areas

Bioengineering
Atomic and Molecular Physics, and Optics
Biomedical Engineering
General Materials Science
Condensed Matter Physics
Electrical and Electronic Engineering

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10.1038/s41565-024-01680-8

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Lian, X., Chatterjee, S., Sun, Y., Dilliard, S. A., Moore, S., Xiao, Y., Bian, X., Yamada, K., Sung, Y. C., Levine, R. M., Mayberry, K., John, S., Liu, X., Smith, C., Johnson, L. T., Wang, X., Zhang, C. C., Liu, D. R., Newby, G. A., ... Siegwart, D. J. (2024). Bone-marrow-homing lipid nanoparticles for genome editing in diseased and malignant haematopoietic stem cells. Nature Nanotechnology, 19(9), 1409-1417. https://doi.org/10.1038/s41565-024-01680-8

Lian, X, Chatterjee, S, Sun, Y, Dilliard, SA, Moore, S, Xiao, Y, Bian, X, Yamada, K, Sung, YC, Levine, RM, Mayberry, K, John, S, Liu, X, Smith, C, Johnson, LT, Wang, X, Zhang, CC, Liu, DR, Newby, GA, Weiss, MJ, Yen, JS & Siegwart, DJ 2024, 'Bone-marrow-homing lipid nanoparticles for genome editing in diseased and malignant haematopoietic stem cells', Nature Nanotechnology, vol. 19, no. 9, pp. 1409-1417. https://doi.org/10.1038/s41565-024-01680-8

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title = "Bone-marrow-homing lipid nanoparticles for genome editing in diseased and malignant haematopoietic stem cells",

abstract = "Therapeutic genome editing of haematopoietic stem cells (HSCs) would provide long-lasting treatments for multiple diseases. However, the in vivo delivery of genetic medicines to HSCs remains challenging, especially in diseased and malignant settings. Here we report on a series of bone-marrow-homing lipid nanoparticles that deliver mRNA to a broad group of at least 14 unique cell types in the bone marrow, including healthy and diseased HSCs, leukaemic stem cells, B cells, T cells, macrophages and leukaemia cells. CRISPR/Cas and base editing is achieved in a mouse model expressing human sickle cell disease phenotypes for potential foetal haemoglobin reactivation and conversion from sickle to non-sickle alleles. Bone-marrow-homing lipid nanoparticles were also able to achieve Cre-recombinase-mediated genetic deletion in bone-marrow-engrafted leukaemic stem cells and leukaemia cells. We show evidence that diverse cell types in the bone marrow niche can be edited using bone-marrow-homing lipid nanoparticles.",

author = "Xizhen Lian and Sumanta Chatterjee and Yehui Sun and Dilliard, \{Sean A.\} and Stephen Moore and Yufen Xiao and Xiaoyan Bian and Kohki Yamada and Sung, \{Yun Chieh\} and Levine, \{Rachel M.\} and Kalin Mayberry and Samuel John and Xiaoye Liu and Caroline Smith and Johnson, \{Lindsay T.\} and Xu Wang and Zhang, \{Cheng Cheng\} and Liu, \{David R.\} and Newby, \{Gregory A.\} and Weiss, \{Mitchell J.\} and Yen, \{Jonathan S.\} and Siegwart, \{Daniel J.\}",

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Bone-marrow-homing lipid nanoparticles for genome editing in diseased and malignant haematopoietic stem cells

Abstract

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