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CRISPR-based functional genomics in human dendritic cells

Marco Jost, Amy N. Jacobson, Jeffrey A. Hussmann, Giana Cirolia, Michael A. Fischbach, Jonathan S. Weissman

2021eLife27 citationsDOIOpen Access PDF

Abstract

Dendritic cells (DCs) regulate processes ranging from antitumor and antiviral immunity to host-microbe communication at mucosal surfaces. It remains difficult, however, to genetically manipulate human DCs, limiting our ability to probe how DCs elicit specific immune responses. Here, we develop a CRISPR-Cas9 genome editing method for human monocyte-derived DCs (moDCs) that mediates knockouts with a median efficiency of >94% across >300 genes. Using this method, we perform genetic screens in moDCs, identifying mechanisms by which DCs tune responses to lipopolysaccharides from the human microbiome. In addition, we reveal donor-specific responses to lipopolysaccharides, underscoring the importance of assessing immune phenotypes in donor-derived cells, and identify candidate genes that control this specificity, highlighting the potential of our method to pinpoint determinants of inter-individual variation in immunity. Our work sets the stage for a systematic dissection of the immune signaling at the host-microbiome interface and for targeted engineering of DCs for neoantigen vaccination.

Topics & Concepts

CRISPRBiologyImmune systemGenome editingMicrobiomePhenotypeComputational biologyImmunityGenetic screenCas9GeneImmunologyGeneticsCRISPR and Genetic EngineeringImmunotherapy and Immune ResponsesCytomegalovirus and herpesvirus research
CRISPR-based functional genomics in human dendritic cells | Litcius