Multiplexed, image-based pooled screens in primary cells and tissues with PerturbView

Optical pooled screening (OPS) is a scalable method for linking image-based phenotypes with cellular perturbations. However, it has thus far been restricted to relatively low-plex phenotypic readouts in cancer cell lines in culture due to limitations associated with in situ sequencing of perturbatio...

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Published inNature biotechnology
Main Authors Kudo, Takamasa, Meireles, Ana M, Moncada, Reuben, Chen, Yushu, Wu, Ping, Gould, Joshua, Hu, Xiaoyu, Kornfeld, Opher, Jesudason, Rajiv, Foo, Conrad, Höckendorf, Burkhard, Corrada Bravo, Hector, Town, Jason P, Wei, Runmin, Rios, Antonio, Chandrasekar, Vineethkrishna, Heinlein, Melanie, Chuong, Amy S, Cai, Shuangyi, Lu, Cherry Sakura, Coelho, Paula, Mis, Monika, Celen, Cemre, Kljavin, Noelyn, Jiang, Jian, Richmond, David, Thakore, Pratiksha, Benito-Gutiérrez, Elia, Geiger-Schuller, Kathryn, Hleap, Jose Sergio, Kayagaki, Nobuhiko, de Sousa E Melo, Felipe, McGinnis, Lisa, Li, Bo, Singh, Avtar, Garraway, Levi, Rozenblatt-Rosen, Orit, Regev, Aviv, Lubeck, Eric
Format Journal Article
LanguageEnglish
Published United States 07.10.2024
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Summary:Optical pooled screening (OPS) is a scalable method for linking image-based phenotypes with cellular perturbations. However, it has thus far been restricted to relatively low-plex phenotypic readouts in cancer cell lines in culture due to limitations associated with in situ sequencing of perturbation barcodes. Here, we develop PerturbView, an OPS technology that leverages in vitro transcription to amplify barcodes before in situ sequencing, enabling screens with highly multiplexed phenotypic readouts across diverse systems, including primary cells and tissues. We demonstrate PerturbView in induced pluripotent stem cell-derived neurons, primary immune cells and tumor tissue sections from animal models. In a screen of immune signaling pathways in primary bone marrow-derived macrophages, PerturbView uncovered both known and novel regulators of NF-κB signaling. Furthermore, we combine PerturbView with spatial transcriptomics in tissue sections from a mouse xenograft model, paving the way to in situ screens with rich optical and transcriptomic phenotypes. PerturbView broadens the scope of OPS to a wide range of models and applications.
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ISSN:1087-0156
1546-1696
1546-1696
DOI:10.1038/s41587-024-02391-0