Systematic identification of gene combinations to target in innate immune cells to enhance T cell activation

Lei Xia; Anastasia Komissarova; Arielle Jacover; Yehuda Shovman; Sebastian Arcila-Barrera; Sharona Tornovsky-Babeay; Milsee Mol Jaya Prakashan; Abdelmajeed Nasereddin; Inbar Plaschkes; Yuval Nevo; Idit Shiff; Oshri Yosefov-Levi; Tamara Izhiman; Eleonora Medvedev; Elad Eilon; Asaf Wilensky; Simon Yona; Oren Parnas

doi:10.1038/s41467-023-41792-8

Systematic identification of gene combinations to target in innate immune cells to enhance T cell activation

Lei Xia, Anastasia Komissarova, Arielle Jacover, Yehuda Shovman, Sebastian Arcila-Barrera, Sharona Tornovsky-Babeay, Milsee Mol Jaya Prakashan, Abdelmajeed Nasereddin, Inbar Plaschkes, Yuval Nevo, Idit Shiff, Oshri Yosefov-Levi, Tamara Izhiman, Eleonora Medvedev, Elad Eilon, Asaf Wilensky, Simon Yona, Oren Parnas

The Hebrew University of Jerusalem

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

Abstract

Genetic engineering of immune cells has opened new avenues for improving their functionality but it remains a challenge to pinpoint which genes or combination of genes are the most beneficial to target. Here, we conduct High Multiplicity of Perturbations and Cellular Indexing of Transcriptomes and Epitopes (HMPCITE-seq) to find combinations of genes whose joint targeting improves antigen-presenting cell activity and enhances their ability to activate T cells. Specifically, we perform two genome-wide CRISPR screens in bone marrow dendritic cells and identify negative regulators of CD86, that participate in the co-stimulation programs, including Chd4, Stat5b, Egr2, Med12, and positive regulators of PD-L1, that participate in the co-inhibitory programs, including Sptlc2, Nckap1l, and Pi4kb. To identify the genetic interactions between top-ranked genes and find superior combinations to target, we perform high-order Perturb-Seq experiments and we show that targeting both Cebpb and Med12 results in a better phenotype compared to the single perturbations or other combinations of perturbations.

Original language	English
Article number	6295
Journal	Nature Communications
Volume	14
Issue number	1
DOIs	https://doi.org/10.1038/s41467-023-41792-8
State	Published - 9 Oct 2023

UN SDGs

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

SDG 3 Good Health and Well-being

All Science Journal Classification (ASJC) codes

General Chemistry
General Biochemistry,Genetics and Molecular Biology
General Physics and Astronomy

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10.1038/s41467-023-41792-8

Cite this

Xia, L., Komissarova, A., Jacover, A., Shovman, Y., Arcila-Barrera, S., Tornovsky-Babeay, S., Jaya Prakashan, M. M., Nasereddin, A., Plaschkes, I., Nevo, Y., Shiff, I., Yosefov-Levi, O., Izhiman, T., Medvedev, E., Eilon, E., Wilensky, A., Yona, S., & Parnas, O. (2023). Systematic identification of gene combinations to target in innate immune cells to enhance T cell activation. Nature Communications, 14(1), Article 6295. https://doi.org/10.1038/s41467-023-41792-8

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title = "Systematic identification of gene combinations to target in innate immune cells to enhance T cell activation",

abstract = "Genetic engineering of immune cells has opened new avenues for improving their functionality but it remains a challenge to pinpoint which genes or combination of genes are the most beneficial to target. Here, we conduct High Multiplicity of Perturbations and Cellular Indexing of Transcriptomes and Epitopes (HMPCITE-seq) to find combinations of genes whose joint targeting improves antigen-presenting cell activity and enhances their ability to activate T cells. Specifically, we perform two genome-wide CRISPR screens in bone marrow dendritic cells and identify negative regulators of CD86, that participate in the co-stimulation programs, including Chd4, Stat5b, Egr2, Med12, and positive regulators of PD-L1, that participate in the co-inhibitory programs, including Sptlc2, Nckap1l, and Pi4kb. To identify the genetic interactions between top-ranked genes and find superior combinations to target, we perform high-order Perturb-Seq experiments and we show that targeting both Cebpb and Med12 results in a better phenotype compared to the single perturbations or other combinations of perturbations.",

author = "Lei Xia and Anastasia Komissarova and Arielle Jacover and Yehuda Shovman and Sebastian Arcila-Barrera and Sharona Tornovsky-Babeay and \{Jaya Prakashan\}, \{Milsee Mol\} and Abdelmajeed Nasereddin and Inbar Plaschkes and Yuval Nevo and Idit Shiff and Oshri Yosefov-Levi and Tamara Izhiman and Eleonora Medvedev and Elad Eilon and Asaf Wilensky and Simon Yona and Oren Parnas",

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Xia, L, Komissarova, A, Jacover, A, Shovman, Y, Arcila-Barrera, S, Tornovsky-Babeay, S, Jaya Prakashan, MM, Nasereddin, A, Plaschkes, I, Nevo, Y, Shiff, I, Yosefov-Levi, O, Izhiman, T, Medvedev, E, Eilon, E, Wilensky, A, Yona, S & Parnas, O 2023, 'Systematic identification of gene combinations to target in innate immune cells to enhance T cell activation', Nature Communications, vol. 14, no. 1, 6295. https://doi.org/10.1038/s41467-023-41792-8

TY - JOUR

T1 - Systematic identification of gene combinations to target in innate immune cells to enhance T cell activation

AU - Xia, Lei

AU - Komissarova, Anastasia

AU - Jacover, Arielle

AU - Shovman, Yehuda

AU - Arcila-Barrera, Sebastian

AU - Tornovsky-Babeay, Sharona

AU - Jaya Prakashan, Milsee Mol

AU - Nasereddin, Abdelmajeed

AU - Plaschkes, Inbar

AU - Nevo, Yuval

AU - Shiff, Idit

AU - Yosefov-Levi, Oshri

AU - Izhiman, Tamara

AU - Medvedev, Eleonora

AU - Eilon, Elad

AU - Wilensky, Asaf

AU - Yona, Simon

AU - Parnas, Oren

PY - 2023/10/9

Y1 - 2023/10/9

N2 - Genetic engineering of immune cells has opened new avenues for improving their functionality but it remains a challenge to pinpoint which genes or combination of genes are the most beneficial to target. Here, we conduct High Multiplicity of Perturbations and Cellular Indexing of Transcriptomes and Epitopes (HMPCITE-seq) to find combinations of genes whose joint targeting improves antigen-presenting cell activity and enhances their ability to activate T cells. Specifically, we perform two genome-wide CRISPR screens in bone marrow dendritic cells and identify negative regulators of CD86, that participate in the co-stimulation programs, including Chd4, Stat5b, Egr2, Med12, and positive regulators of PD-L1, that participate in the co-inhibitory programs, including Sptlc2, Nckap1l, and Pi4kb. To identify the genetic interactions between top-ranked genes and find superior combinations to target, we perform high-order Perturb-Seq experiments and we show that targeting both Cebpb and Med12 results in a better phenotype compared to the single perturbations or other combinations of perturbations.

AB - Genetic engineering of immune cells has opened new avenues for improving their functionality but it remains a challenge to pinpoint which genes or combination of genes are the most beneficial to target. Here, we conduct High Multiplicity of Perturbations and Cellular Indexing of Transcriptomes and Epitopes (HMPCITE-seq) to find combinations of genes whose joint targeting improves antigen-presenting cell activity and enhances their ability to activate T cells. Specifically, we perform two genome-wide CRISPR screens in bone marrow dendritic cells and identify negative regulators of CD86, that participate in the co-stimulation programs, including Chd4, Stat5b, Egr2, Med12, and positive regulators of PD-L1, that participate in the co-inhibitory programs, including Sptlc2, Nckap1l, and Pi4kb. To identify the genetic interactions between top-ranked genes and find superior combinations to target, we perform high-order Perturb-Seq experiments and we show that targeting both Cebpb and Med12 results in a better phenotype compared to the single perturbations or other combinations of perturbations.

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U2 - 10.1038/s41467-023-41792-8

DO - 10.1038/s41467-023-41792-8

M3 - مقالة

C2 - 37813864

SN - 2041-1723

VL - 14

JO - Nature Communications

JF - Nature Communications

IS - 1

M1 - 6295

ER -

Systematic identification of gene combinations to target in innate immune cells to enhance T cell activation

Abstract

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