Literature DB >> 34497417

Inter-cellular CRISPR screens reveal regulators of cancer cell phagocytosis.

Roarke A Kamber1, Yoko Nishiga1,2,3, Bhek Morton1, Allison M Banuelos4,5,6, Amira A Barkal4,5,6,7, Felipe Vences-Catalán8, Mingxin Gu1, Daniel Fernandez9,10, Jose A Seoane6,11, David Yao1, Katherine Liu1, Sijie Lin1, Kaitlyn Spees1, Christina Curtis1,6,11,12, Livnat Jerby-Arnon1,13, Irving L Weissman4,5,6,14, Julien Sage1,2,6,9, Michael C Bassik15,16,17.   

Abstract

Monoclonal antibody therapies targeting tumour antigens drive cancer cell elimination in large part by triggering macrophage phagocytosis of cancer cells1-7. However, cancer cells evade phagocytosis using mechanisms that are incompletely understood. Here we develop a platform for unbiased identification of factors that impede antibody-dependent cellular phagocytosis (ADCP) using complementary genome-wide CRISPR knockout and overexpression screens in both cancer cells and macrophages. In cancer cells, beyond known factors such as CD47, we identify many regulators of susceptibility to ADCP, including the poorly characterized enzyme adipocyte plasma membrane-associated protein (APMAP). We find that loss of APMAP synergizes with tumour antigen-targeting monoclonal antibodies and/or CD47-blocking monoclonal antibodies to drive markedly increased phagocytosis across a wide range of cancer cell types, including those that are otherwise resistant to ADCP. Additionally, we show that APMAP loss synergizes with several different tumour-targeting monoclonal antibodies to inhibit tumour growth in mice. Using genome-wide counterscreens in macrophages, we find that the G-protein-coupled receptor GPR84 mediates enhanced phagocytosis of APMAP-deficient cancer cells. This work reveals a cancer-intrinsic regulator of susceptibility to antibody-driven phagocytosis and, more broadly, expands our knowledge of the mechanisms governing cancer resistance to macrophage phagocytosis.
© 2021. The Author(s), under exclusive licence to Springer Nature Limited.

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Year:  2021        PMID: 34497417      PMCID: PMC9419706          DOI: 10.1038/s41586-021-03879-4

Source DB:  PubMed          Journal:  Nature        ISSN: 0028-0836            Impact factor:   69.504


  63 in total

1.  Medium-chain fatty acids as ligands for orphan G protein-coupled receptor GPR84.

Authors:  Jinghong Wang; Xiaosu Wu; Nicole Simonavicius; Hui Tian; Lei Ling
Journal:  J Biol Chem       Date:  2006-09-11       Impact factor: 5.157

Review 2.  Targeting Tumor-Associated Macrophages in Cancer.

Authors:  Paulina Pathria; Tiani L Louis; Judith A Varner
Journal:  Trends Immunol       Date:  2019-03-17       Impact factor: 16.687

3.  Anti-CD47 antibody synergizes with rituximab to promote phagocytosis and eradicate non-Hodgkin lymphoma.

Authors:  Mark P Chao; Ash A Alizadeh; Chad Tang; June H Myklebust; Bindu Varghese; Saar Gill; Max Jan; Adriel C Cha; Charles K Chan; Brent T Tan; Christopher Y Park; Feifei Zhao; Holbrook E Kohrt; Raquel Malumbres; Javier Briones; Randy D Gascoyne; Izidore S Lossos; Ronald Levy; Irving L Weissman; Ravindra Majeti
Journal:  Cell       Date:  2010-09-03       Impact factor: 41.582

4.  Modulation of immune cell reactivity with cis-binding Siglec agonists.

Authors:  Corleone S Delaveris; Shannon H Chiu; Nicholas M Riley; Carolyn R Bertozzi
Journal:  Proc Natl Acad Sci U S A       Date:  2021-01-19       Impact factor: 12.779

5.  HTSeq--a Python framework to work with high-throughput sequencing data.

Authors:  Simon Anders; Paul Theodor Pyl; Wolfgang Huber
Journal:  Bioinformatics       Date:  2014-09-25       Impact factor: 6.937

6.  Activation of the Immune-Metabolic Receptor GPR84 Enhances Inflammation and Phagocytosis in Macrophages.

Authors:  Carlota Recio; Daniel Lucy; Gareth S D Purvis; Poppy Iveson; Lynda Zeboudj; Asif J Iqbal; Daniel Lin; Chris O'Callaghan; Lucy Davison; Esther Griesbach; Angela J Russell; Graham M Wynne; Lea Dib; Claudia Monaco; David R Greaves
Journal:  Front Immunol       Date:  2018-06-20       Impact factor: 7.561

7.  SWISS-MODEL: homology modelling of protein structures and complexes.

Authors:  Andrew Waterhouse; Martino Bertoni; Stefan Bienert; Gabriel Studer; Gerardo Tauriello; Rafal Gumienny; Florian T Heer; Tjaart A P de Beer; Christine Rempfer; Lorenza Bordoli; Rosalba Lepore; Torsten Schwede
Journal:  Nucleic Acids Res       Date:  2018-07-02       Impact factor: 16.971

8.  The oncogenic role of MUC12 in RCC progression depends on c-Jun/TGF-β signalling.

Authors:  Sheng-Lin Gao; Rui Yin; Li-Feng Zhang; Si-Min Wang; Jia-Sheng Chen; Xing-Yu Wu; Chuang Yue; Li Zuo; Min Tang
Journal:  J Cell Mol Med       Date:  2020-06-28       Impact factor: 5.310

9.  Glutaminyl cyclase is an enzymatic modifier of the CD47- SIRPα axis and a target for cancer immunotherapy.

Authors:  J H Marco Jansen; Matthijs Raaben; Mireille Toebes; Jeanette H W Leusen; Ferenc A Scheeren; Ton N Schumacher; Meike E W Logtenberg; Katka Franke; Arianne M Brandsma; Hanke L Matlung; Astrid Fauster; Raquel Gomez-Eerland; Noor A M Bakker; Simone van der Schot; Koen A Marijt; Martijn Verdoes; John B A G Haanen; Joost H van den Berg; Jacques Neefjes; Timo K van den Berg; Thijn R Brummelkamp
Journal:  Nat Med       Date:  2019-03-04       Impact factor: 53.440

10.  Identification of phagocytosis regulators using magnetic genome-wide CRISPR screens.

Authors:  Michael S Haney; Christopher J Bohlen; David W Morgens; James A Ousey; Amira A Barkal; C Kimberly Tsui; Braeden K Ego; Roni Levin; Roarke A Kamber; Hannah Collins; Andrew Tucker; Amy Li; Daan Vorselen; Lorenzo Labitigan; Emily Crane; Evan Boyle; Lihua Jiang; Joanne Chan; Esther Rincón; William J Greenleaf; Billy Li; Michael P Snyder; Irving L Weissman; Julie A Theriot; Sean R Collins; Ben A Barres; Michael C Bassik
Journal:  Nat Genet       Date:  2018-11-05       Impact factor: 38.330
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  17 in total

Review 1.  Myeloid cell-targeted therapies for solid tumours.

Authors:  Sangeeta Goswami; Swetha Anandhan; Deblina Raychaudhuri; Padmanee Sharma
Journal:  Nat Rev Immunol       Date:  2022-06-13       Impact factor: 53.106

Review 2.  CRISPR in cancer biology and therapy.

Authors:  Alyna Katti; Bianca J Diaz; Christina M Caragine; Neville E Sanjana; Lukas E Dow
Journal:  Nat Rev Cancer       Date:  2022-02-22       Impact factor: 60.716

Review 3.  Tumor immunology CRISPR screening: present, past, and future.

Authors:  Matthew B Dong; Kaiyuan Tang; Xiaoyu Zhou; Jingjia J Zhou; Sidi Chen
Journal:  Trends Cancer       Date:  2021-12-15

Review 4.  Clinical relevance of tumour-associated macrophages.

Authors:  Mikael J Pittet; Olivier Michielin; Denis Migliorini
Journal:  Nat Rev Clin Oncol       Date:  2022-03-30       Impact factor: 66.675

5.  Development of a Phagocytosis-Dependent Gene Signature to Predict Prognosis and Response to Checkpoint Inhibition in Clear-Cell Renal Cell Carcinoma.

Authors:  Kunping Li; Yuqing Li; Yinfeng Lyu; Linyi Tan; Xinyi Zheng; Haowen Jiang; Hui Wen; Chenchen Feng
Journal:  Front Immunol       Date:  2022-05-16       Impact factor: 8.786

6.  Computational Discovery of Cancer Immunotherapy Targets by Intercellular CRISPR Screens.

Authors:  Soorin Yim; Woochang Hwang; Namshik Han; Doheon Lee
Journal:  Front Immunol       Date:  2022-05-16       Impact factor: 8.786

7.  The Prognostic Signature and Therapeutic Value of Phagocytic Regulatory Factors in Prostate Adenocarcinoma (PRAD).

Authors:  Shiyong Xin; Xianchao Sun; Liang Jin; Weiyi Li; Xiang Liu; Liqing Zhou; Lin Ye
Journal:  Front Genet       Date:  2022-05-30       Impact factor: 4.772

Review 8.  Tumor-Associated Macrophages in Gliomas-Basic Insights and Treatment Opportunities.

Authors:  Johannes K Andersen; Hrvoje Miletic; Jubayer A Hossain
Journal:  Cancers (Basel)       Date:  2022-03-04       Impact factor: 6.639

9.  Comprehensive Analysis of Phagocytosis-Related Regulators to Aid Prognostic Prediction and Immunotherapy in Patients with Low-Grade Glioma.

Authors:  Jianwen Li; Qianrong Huang; Ligen Mo
Journal:  Dis Markers       Date:  2022-04-12       Impact factor: 3.434

Review 10.  Recent Progress in the Methodologies to Identify Physiological Ligands of Siglecs.

Authors:  Huei-Syuan Jiang; Shao-Chien Zhuang; Chak Hin Lam; Lan-Yi Chang; Takashi Angata
Journal:  Front Immunol       Date:  2021-12-10       Impact factor: 7.561
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