PO.IM02.02 · 免疫学

Virus like particles enable targeted gene engineering and pooled CRISPR screening in primary human myeloid cells

海报缩略图:Virus like particles enable targeted gene engineering and pooled CRISPR screening in primary human myeloid cells
编号 1580 展板 1 时间 4/20 09:00–12:00 区域 Section 9 主讲 Hyuncheol Jung, PhD
分会场 Innate Immunity in Cancer
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作者与单位

Hyuncheol Jung1, Pascal Devant1, Carter Ching1, Minetoa Ota1, Jennifer Hamilton2, Zachary Steinhart1, Wayne Ngo1, Luis Sandoval1, Jae Hyung Jung1, Da Xu3, Merui An4, Esha Urs1, Peixin Amy Chen1, Vincent Allain1, Takuya Tada5, James K. Nuñez3, Nathaniel R. Landau5, David R. Liu4, Justin Eyquem1, Jennifer A. Doudna1, Alexander Marson1, Julia Carnevale1

1Genomic Immunology, Gladstone-UCSF Institute, San Francisco, CA,2Azalea Therapeutics, San Francisco, CA,3Department of Molecular and Cell Biology, University of California, Berkeley, Berkeley, CA,4Merkin Institute of Transformative Technologies in Healthcare, Broad Institute of MIT and Harvard, Cambridge, MA,5Department of Microbiology, NYU Grossman School of Medicine, New York, NY

摘要 Abstract

Primary human myeloid cells are promising candidates for immunotherapy, yet efficient and scalable technologies for genetic engineering and screening in these cells are limited. Here we present a virus-like particle (VLP)-based toolkit that delivers diverse CRISPR genome editing modalities to human monocytes, macrophages, and dendritic cells with high efficiency while preserving viability and innate immune responsiveness. VLP-mediated delivery of ribonucleoprotein payloads supports gene knockout, base editing and epigenetic silencing, and enables site-specific integration of large DNA sequences when combined with AAV donors for homology-directed repair. Leveraging sgRNA delivery via VPX-lentivirus combined with Cas9 protein delivery via engineered virus-like particle (eVLP) treatment (SLICeVLP), we performed the first pooled loss-of-function screens in human macrophages. We uncovered regulators of TNF production and CD80 expression in human macrophages, converging on TNFAIP3 as a central regulator of inflammatory polarization. TNFAIP3 ablation promoted a pro-inflammatory cell state that is resistant to suppressive polarization, and augmented cytotoxicity of engineered HER2 CAR-macrophages. Taken together, this technology platform enables unbiased discovery and characterization of functional gene targets in primary human myeloid cells.
利益披露 Disclosure
H. Jung, None.. P. Devant, None.. C. Ching, None.. M. Ota, None.. J. Hamilton, None.. Z. Steinhart, None.. W. Ngo, None.. L. Sandoval, None.. J. Jung, None.. D. Xu, None.. M. An, None.. E. Urs, None.. P. A. Chen, None.. V. Allain, None.. T. Tada, None.. J. K. Nuñez, None.. N. R. Landau, None.. D. R. Liu, None.. J. Eyquem, None.. J. A. Doudna, None.. A. Marson, None.. J. Carnevale, None.

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