Pooled Knockin Targeting for Genome Engineering of Cellular Immunotherapies

Theodore L. Roth; P. Jonathan Li; Franziska Blaeschke; Jasper F. Nies; Ryan Apathy; Cody Mowery; Ruby Yu; Michelle L.T. Nguyen; Youjin Lee; Anna Truong; Joseph Hiatt; David Wu; David N. Nguyen; Daniel Goodman; Jeffrey A. Bluestone; Chun Jimmie Ye; Kole Roybal; Eric Shifrut; Alexander Marson

doi:10.1016/j.cell.2020.03.039

Pooled Knockin Targeting for Genome Engineering of Cellular Immunotherapies

Theodore L. Roth, P. Jonathan Li, Franziska Blaeschke, Jasper F. Nies, Ryan Apathy, Cody Mowery, Ruby Yu, Michelle L.T. Nguyen, Youjin Lee, Anna Truong, Joseph Hiatt, David Wu, David N. Nguyen, Daniel Goodman, Jeffrey A. Bluestone, Chun Jimmie Ye, Kole Roybal, Eric Shifrut, Alexander Marson

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

Abstract

Adoptive transfer of genetically modified immune cells holds great promise for cancer immunotherapy. CRISPR knockin targeting can improve cell therapies, but more high-throughput methods are needed to test which knockin gene constructs most potently enhance primary cell functions in vivo. We developed a widely adaptable technology to barcode and track targeted integrations of large non-viral DNA templates and applied it to perform pooled knockin screens in primary human T cells. Pooled knockin of dozens of unique barcoded templates into the T cell receptor (TCR)-locus revealed gene constructs that enhanced fitness in vitro and in vivo. We further developed pooled knockin sequencing (PoKI-seq), combining single-cell transcriptome analysis and pooled knockin screening to measure cell abundance and cell state ex vivo and in vivo. This platform nominated a novel transforming growth factor β (TGF-β) R2-41BB chimeric receptor that improved solid tumor clearance. Pooled knockin screening enables parallelized re-writing of endogenous genetic sequences to accelerate discovery of knockin programs for cell therapies.

Original language	English
Pages (from-to)	728-744.e21
Journal	Cell
Volume	181
Issue number	3
DOIs	https://doi.org/10.1016/j.cell.2020.03.039
State	Published - 30 Apr 2020
Externally published	Yes

UN SDGs

This output contributes to the following UN Sustainable Development Goals (SDGs)

SDG 3 Good Health and Well-being

Keywords

CRISPR
cell therapy
human T cell
knockins
pooled screen
single-cell RNA-seq

All Science Journal Classification (ASJC) codes

General Biochemistry,Genetics and Molecular Biology

Access to Document

10.1016/j.cell.2020.03.039

Cite this

Roth, T. L., Li, P. J., Blaeschke, F., Nies, J. F., Apathy, R., Mowery, C., Yu, R., Nguyen, M. L. T., Lee, Y., Truong, A., Hiatt, J., Wu, D., Nguyen, D. N., Goodman, D., Bluestone, J. A., Ye, C. J., Roybal, K., Shifrut, E., & Marson, A. (2020). Pooled Knockin Targeting for Genome Engineering of Cellular Immunotherapies. Cell, 181(3), 728-744.e21. https://doi.org/10.1016/j.cell.2020.03.039

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title = "Pooled Knockin Targeting for Genome Engineering of Cellular Immunotherapies",

abstract = "Adoptive transfer of genetically modified immune cells holds great promise for cancer immunotherapy. CRISPR knockin targeting can improve cell therapies, but more high-throughput methods are needed to test which knockin gene constructs most potently enhance primary cell functions in vivo. We developed a widely adaptable technology to barcode and track targeted integrations of large non-viral DNA templates and applied it to perform pooled knockin screens in primary human T cells. Pooled knockin of dozens of unique barcoded templates into the T cell receptor (TCR)-locus revealed gene constructs that enhanced fitness in vitro and in vivo. We further developed pooled knockin sequencing (PoKI-seq), combining single-cell transcriptome analysis and pooled knockin screening to measure cell abundance and cell state ex vivo and in vivo. This platform nominated a novel transforming growth factor β (TGF-β) R2-41BB chimeric receptor that improved solid tumor clearance. Pooled knockin screening enables parallelized re-writing of endogenous genetic sequences to accelerate discovery of knockin programs for cell therapies.",

keywords = "CRISPR, cell therapy, human T cell, knockins, pooled screen, single-cell RNA-seq",

author = "Roth, \{Theodore L.\} and Li, \{P. Jonathan\} and Franziska Blaeschke and Nies, \{Jasper F.\} and Ryan Apathy and Cody Mowery and Ruby Yu and Nguyen, \{Michelle L.T.\} and Youjin Lee and Anna Truong and Joseph Hiatt and David Wu and Nguyen, \{David N.\} and Daniel Goodman and Bluestone, \{Jeffrey A.\} and Ye, \{Chun Jimmie\} and Kole Roybal and Eric Shifrut and Alexander Marson",

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doi = "10.1016/j.cell.2020.03.039",

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T1 - Pooled Knockin Targeting for Genome Engineering of Cellular Immunotherapies

AU - Roth, Theodore L.

AU - Li, P. Jonathan

AU - Blaeschke, Franziska

AU - Nies, Jasper F.

AU - Apathy, Ryan

AU - Mowery, Cody

AU - Yu, Ruby

AU - Nguyen, Michelle L.T.

AU - Lee, Youjin

AU - Truong, Anna

AU - Hiatt, Joseph

AU - Wu, David

AU - Nguyen, David N.

AU - Goodman, Daniel

AU - Bluestone, Jeffrey A.

AU - Ye, Chun Jimmie

AU - Roybal, Kole

AU - Shifrut, Eric

AU - Marson, Alexander

PY - 2020/4/30

Y1 - 2020/4/30

N2 - Adoptive transfer of genetically modified immune cells holds great promise for cancer immunotherapy. CRISPR knockin targeting can improve cell therapies, but more high-throughput methods are needed to test which knockin gene constructs most potently enhance primary cell functions in vivo. We developed a widely adaptable technology to barcode and track targeted integrations of large non-viral DNA templates and applied it to perform pooled knockin screens in primary human T cells. Pooled knockin of dozens of unique barcoded templates into the T cell receptor (TCR)-locus revealed gene constructs that enhanced fitness in vitro and in vivo. We further developed pooled knockin sequencing (PoKI-seq), combining single-cell transcriptome analysis and pooled knockin screening to measure cell abundance and cell state ex vivo and in vivo. This platform nominated a novel transforming growth factor β (TGF-β) R2-41BB chimeric receptor that improved solid tumor clearance. Pooled knockin screening enables parallelized re-writing of endogenous genetic sequences to accelerate discovery of knockin programs for cell therapies.

AB - Adoptive transfer of genetically modified immune cells holds great promise for cancer immunotherapy. CRISPR knockin targeting can improve cell therapies, but more high-throughput methods are needed to test which knockin gene constructs most potently enhance primary cell functions in vivo. We developed a widely adaptable technology to barcode and track targeted integrations of large non-viral DNA templates and applied it to perform pooled knockin screens in primary human T cells. Pooled knockin of dozens of unique barcoded templates into the T cell receptor (TCR)-locus revealed gene constructs that enhanced fitness in vitro and in vivo. We further developed pooled knockin sequencing (PoKI-seq), combining single-cell transcriptome analysis and pooled knockin screening to measure cell abundance and cell state ex vivo and in vivo. This platform nominated a novel transforming growth factor β (TGF-β) R2-41BB chimeric receptor that improved solid tumor clearance. Pooled knockin screening enables parallelized re-writing of endogenous genetic sequences to accelerate discovery of knockin programs for cell therapies.

KW - CRISPR

KW - cell therapy

KW - human T cell

KW - knockins

KW - pooled screen

KW - single-cell RNA-seq

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U2 - 10.1016/j.cell.2020.03.039

DO - 10.1016/j.cell.2020.03.039

M3 - مقالة

C2 - 32302591

SN - 0092-8674

VL - 181

SP - 728-744.e21

JO - Cell

JF - Cell

IS - 3

ER -

Pooled Knockin Targeting for Genome Engineering of Cellular Immunotherapies

Abstract

UN SDGs

Keywords

All Science Journal Classification (ASJC) codes

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