ADAR1 masks the cancer immunotherapeutic promise of ZBP1-driven necroptosis

Journal article

Zhang, Ting, Yin, Chaoran, Fedorov, Aleksandr, Qiao, Liangjun, Bao, Hongliang, Beknazarov, Nazar, Wang, Shiyu, Gautam, Avishekh, Williams, Riley M., Crawford, Jeremy Chase, Peri, Suraj, Studitsky, Vasily, Beg, Amer A., Thomas, Paul G., Walkley, Carl, Xu, Yan, Poptsova, Maria, Herbert, Alan and Balachandran, Siddharth. (2022). ADAR1 masks the cancer immunotherapeutic promise of ZBP1-driven necroptosis. Nature. 606, pp. 594-602. https://doi.org/10.1038/s41586-022-04753-7
AuthorsZhang, Ting, Yin, Chaoran, Fedorov, Aleksandr, Qiao, Liangjun, Bao, Hongliang, Beknazarov, Nazar, Wang, Shiyu, Gautam, Avishekh, Williams, Riley M., Crawford, Jeremy Chase, Peri, Suraj, Studitsky, Vasily, Beg, Amer A., Thomas, Paul G., Walkley, Carl, Xu, Yan, Poptsova, Maria, Herbert, Alan and Balachandran, Siddharth
Abstract

Only a small proportion of patients with cancer show lasting responses to immune checkpoint blockade (ICB)-based monotherapies. The RNA-editing enzyme ADAR1 is an emerging determinant of resistance to ICB therapy and prevents ICB responsiveness by repressing immunogenic double-stranded RNAs (dsRNAs), such as those arising from the dysregulated expression of endogenous retroviral elements (EREs)1,2,3,4. These dsRNAs trigger an interferon-dependent antitumour response by activating A-form dsRNA (A-RNA)-sensing proteins such as MDA-5 and PKR5. Here we show that ADAR1 also prevents the accrual of endogenous Z-form dsRNA elements (Z-RNAs), which were enriched in the 3′ untranslated regions of interferon-stimulated mRNAs. Depletion or mutation of ADAR1 resulted in Z-RNA accumulation and activation of the Z-RNA sensor ZBP1, which culminated in RIPK3-mediated necroptosis. As no clinically viable ADAR1 inhibitors currently exist, we searched for a compound that can override the requirement for ADAR1 inhibition and directly activate ZBP1. We identified a small molecule, the curaxin CBL0137, which potently activates ZBP1 by triggering Z-DNA formation in cells. CBL0137 induced ZBP1-dependent necroptosis in cancer-associated fibroblasts and reversed ICB unresponsiveness in mouse models of melanoma. Collectively, these results demonstrate that ADAR1 represses endogenous Z-RNAs and identifies ZBP1-mediated necroptosis as a new determinant of tumour immunogenicity masked by ADAR1. Therapeutic activation of ZBP1-induced necroptosis provides a readily translatable avenue for rekindling the immune responsiveness of ICB-resistant human cancers.

Year2022
JournalNature
Journal citation606, pp. 594-602
PublisherNature Publishing Group
ISSN0028-0836
Digital Object Identifier (DOI)https://doi.org/10.1038/s41586-022-04753-7
PubMed ID35614224
Scopus EID2-s2.0-85130710731
PubMed Central IDPMC9373927
Page range594-602
FunderNational Institutes of Health (NIH), United States of America
National Health and Medical Research Council (NHMRC)
Mark Foundation
American Lebanese Syrian Associated Charities
National Cancer Institute Cancer Center
National Research University Higher School of Economics
Publisher's version
License
All rights reserved
File Access Level
Controlled
Output statusPublished
Publication dates
Online25 May 2022
Publication process dates
Accepted11 Apr 2022
Deposited17 Mar 2023
Grant IDCA168621
CA190542
AI135025
AI144400
GM119398
1144049
1183553
U01AI150747
P30CA006927
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Liddicoat, Brian J., Piskol, Robert, Chalk, Alistair M., Ramaswami, Gokul, Higuchi, Miyoko, Hartner, Jochen C., Li, Jin Billy, Seeburg, Peter H. and Walkley, Carl. (2015). RNA editing by ADAR1 prevents MDA5 sensing of endogenous dsRNA as nonself. Science. 349(6252), pp. 1115 - 1120. https://doi.org/10.1126/science.aac7049
Knockdown of PTHR1 in osteosarcoma cells decreases invasion and growth and increases tumor differentiation in vivo
Ho, P. W. M., Goradia, A., Russell, M. R., Chalk, Alistair M., Milley, K. M., Baker, E. K., Danks, J. A., Slavin, John, Walia, Mannu K., Crimeen-Irwin, B., Dickins, R. A., Martin, T. John and Walkley, Carl. (2015). Knockdown of PTHR1 in osteosarcoma cells decreases invasion and growth and increases tumor differentiation in vivo. Oncogene. 34(22), pp. 2922 - 2933. https://doi.org/10.1038/onc.2014.217
RARγ is a negative regulator of osteoclastogenesis
Green, Alanna C., Poulton, Ingrid J., Vrahnas, Christina, Häusler, Karl D., Walkley, Carl, Wu, Joy Y., Martin, T. John, Gillespie, Matthew T., Chandraratna, Roshantha A. S., Quinn, Julian M. W., Sims, Natalie A. and Purton, L. E.. (2015). RARγ is a negative regulator of osteoclastogenesis. The Journal of Steroid Biochemistry and Molecular Biology. 150, pp. 46 - 53. https://doi.org/10.1016/j.jsbmb.2015.03.005
Brief report: The differential roles of mTORC1 and mTORC2 in mesenchymal stem cell differentiation
Martin, Sally K., Fitter, Stephen, Dutta, Ankit K., Matthews, Mary P., Walkley, Carl, Hall, Michael N., Ruegg, Markus A., Gronthos, Stan and Zannettino, Andrew C. W.. (2015). Brief report: The differential roles of mTORC1 and mTORC2 in mesenchymal stem cell differentiation. Stem Cells. 33(4), pp. 1359 - 1365. https://doi.org/10.1002/stem.1931
Ciliary neurotrophic factor has intrinsic and extrinsic roles in regulating B cell differentiation and bone structure
Askmyr, Maria, White, Kirby E., Jovic, Tanja, King, Hannah A., Quach, Julie M., Maluenda, Ana C., Baker, E. K., Smeets, Monique F., Walkley, Carl and Purton, L. E.. (2015). Ciliary neurotrophic factor has intrinsic and extrinsic roles in regulating B cell differentiation and bone structure. Scientific Reports. 5, pp. 1 - 13. https://doi.org/10.1038/srep15529
PTHrP, its receptor, and protein kinase A activation in osteosarcoma
Walkley, Carl, Walia, Mannu K., Ho, P.W.M. and Martin, T. J.. (2014). PTHrP, its receptor, and protein kinase A activation in osteosarcoma. Molecular & Cellular Oncology. 1(4), pp. 1 - 3. https://doi.org/10.4161/23723548.2014.965624
Gene expression profiling to define the cell intrinsic role of the SKI proto-oncogene in hematopoiesis and myeloid neoplsms
Chalk, Alistair M., Liddicoat, Brian J., Walkley, Carl and Singbrant, Sofie. (2014). Gene expression profiling to define the cell intrinsic role of the SKI proto-oncogene in hematopoiesis and myeloid neoplsms. Genomics Data. 2, pp. 189 - 191. https://doi.org/10.1016/j.gdata.2014.06.022
The SKI proto-oncogene enhances the in vivo repopulation of hematopoietic stem cells and causes myeloproliferative disease
Singbrant, Sofie, Wall, Meaghan, Moody, Jennifer, Karlsson, Göran, Chalk, Alistair M., Liddicoat, Brian J., Russell, Megan R., Walkley, Carl R. and Karlsson, Stefan. (2014). The SKI proto-oncogene enhances the in vivo repopulation of hematopoietic stem cells and causes myeloproliferative disease. Haematologica. 99(4), pp. 647 - 655. https://doi.org/10.3324/haematol.2013.093971
The Rothmund-Thomson syndrome helicase RECQL4 is essential for hematopoiesis
Smeets, Monique F., DeLuca, Elisabetta, Wall, Meaghan, Quach, Julie M., Chalk, Alistair M., Deans, Andrew J., Heierhorst, Jörg, Purton, Louise E., Izon, David J. and Walkley, Carl R.. (2014). The Rothmund-Thomson syndrome helicase RECQL4 is essential for hematopoiesis. Journal of Clinical Investigation. 124(8), pp. 3551 - 3565. https://doi.org/10.1172/JCI75334
Cells of origin in osteosarcoma: Mesenchymal stem cells or osteoblast committed cells?
Mutsaers, Anthony J. and Walkley, Carl R.. (2014). Cells of origin in osteosarcoma: Mesenchymal stem cells or osteoblast committed cells? Bone. 62, pp. 56 - 63. https://doi.org/10.1016/j.bone.2014.02.003
Immune response to rb1-regulated senescence limits radiation-Induced osteosarcoma formation
Kansara, Maya, Leong, Huei San, Lin, Dan Mei, Popkiss, Sophie, Pang, Puiyi, Garsed, Dale W., Walkley, Carl R., Cullinane, Carleen, Ellul, Jason, Haynes, Nicole M., Hicks, Rod, Kuijjer, Marieke L., Cleton-Jansen, Anne-Marie, Hinds, Philip W., Smyth, Mark J. and Thomas, David M.. (2013). Immune response to rb1-regulated senescence limits radiation-Induced osteosarcoma formation. Journal of Clinical Investigation. 123(12), pp. 5351 - 5360. https://doi.org/10.1172/JCI70559
Erythroid-extrinsic regulation of normal erythropoiesis by retinoic acid receptors
Dewamitta, Sita R., Joseph, Chacko, Purton, Louise E. and Walkley, Carl R.. (2013). Erythroid-extrinsic regulation of normal erythropoiesis by retinoic acid receptors. British Journal of Haematology. 164(2), pp. 280 - 285. https://doi.org/10.1111/bjh.12578
Modeling distinct osteosarcoma subtypes in vivo using Cre: Lox and lineage-restricted transgenic shRNA
Mutsaers, Anthony J., Ng, Alvin J. M., Baker, Emma K., Russell, Megan R., Chalk, Alistair M., Wall, Meaghan, Liddicoat, Brian J. J., Ho, Patricia W. M., Slavin, John L., Goradia, Ankita, Martin, T. John, Purton, Louise E., Dickins, Ross A. and Walkley, Carl R.. (2013). Modeling distinct osteosarcoma subtypes in vivo using Cre: Lox and lineage-restricted transgenic shRNA. Bone. 55(1), pp. 166 - 178. https://doi.org/10.1016/j.bone.2013.02.016
Darbepoietin-alfa has comparable erythropoietic stimulatory effects to recombinant erythropoietin whilst preserving the bone marrow microenvironment
Dewamitta, Sita R., Russell, Megan R., Nandurkar, Harshal and Walkley, Carl R.. (2013). Darbepoietin-alfa has comparable erythropoietic stimulatory effects to recombinant erythropoietin whilst preserving the bone marrow microenvironment. Haematologica. 98(5), pp. 686 - 690. https://doi.org/10.3324/haematol.2012.078709
Deciphering hematopoietic stem cells in their niches: A critical appraisal of genetic models, lineage tracing, and imaging strategies
Joseph, Chacko, Quach, Julie M., Walkley, Carl R., Lane, Steven W., Celso, Cristina Lo and Purton, Louise E.. (2013). Deciphering hematopoietic stem cells in their niches: A critical appraisal of genetic models, lineage tracing, and imaging strategies. Cell Stem Cell. 13(5), pp. 520 - 533. https://doi.org/10.1016/j.stem.2013.10.010
The zinc-finger protein ASCIZ regulates B cell development via DYNLL1 and Bim
Jurado, Sabine, Gleeson, Kimberly, O’Donnell, Kristy, Izon, David J., Walkley, Carl R., Strasser, Andreas, Tarlinton, David M. and Heierhorst, Jörg. (2012). The zinc-finger protein ASCIZ regulates B cell development via DYNLL1 and Bim. Journal of Experimental Medicine. 209(9), pp. 1629-1639. https://doi.org/10.1084/jem.20120785
Fak depletion in both hematopoietic and nonhematopoietic niche cells leads to hematopoietic stem cell expansion
Lu, Jiayun, Sun, Yan, Nombela-Arrieta, Cesar, Du, Karrie P., Park, Shin-Young, Chai, Li, Walkley, Carl, Luo, Hongbo R. and Silberstein, Leslie E.. (2012). Fak depletion in both hematopoietic and nonhematopoietic niche cells leads to hematopoietic stem cell expansion. Experimental Hematology. 40(4), pp. 307-317. https://doi.org/10.1016/j.exphem.2011.11.010
Erythropoietin couples erythropoiesis, B-lymphopoiesis, and bone homeostasis within the bone marrow microenvironment
Singbrant, Sofie, Russell, Megan R., Jovic, Tanja, Liddicoat, Brian, Izon, David J., Purton, Louise E., Sims, Natalie A., Martin, T. John, Sankaran, Vijay G. and Walkley, Carl R.. (2011). Erythropoietin couples erythropoiesis, B-lymphopoiesis, and bone homeostasis within the bone marrow microenvironment. Blood. 117(21), pp. 5631-5642. https://doi.org/10.1182/blood-2010-11-320564
Erythropoiesis, anemia and the bone marrow microenvironment
Walkley, Carl R.. (2011). Erythropoiesis, anemia and the bone marrow microenvironment. International Journal of Hematology. 93, pp. 10-13. https://doi.org/10.1007/s12185-010-0759-6
Defining the hematopoietic stem cell niche : The chicken and the egg conundrum
Singbrant, Sofie, Askmyr, Maria, Purton, Louise E. and Walkley, Carl R.. (2011). Defining the hematopoietic stem cell niche : The chicken and the egg conundrum. Journal of Cellular Biochemistry. 112(6), pp. 1486-1490. https://doi.org/10.1002/jcb.23085
Hematopoietic AMPK beta1 reduces mouse adipose tissue macrophage inflammation and insulin resistance in obesity
Galic, Sandra, Fullerton, Morgan, Schertzer, Jonathan, Sikkema, Sarah, Marcinko, Katarina, Walkley, Carl, Izon, David, Honeyman, Jane, Chen, Zhi-Ping, Van Denderen, Bryce, Kemp, Bruce and Steinberg, Gregory. (2011). Hematopoietic AMPK beta1 reduces mouse adipose tissue macrophage inflammation and insulin resistance in obesity. Journal of Clinical Investigation. 121(12), pp. 4903 - 4915. https://doi.org/10.1172/JCI58577
Hematopoietic AMPK Beta ß1 reduces mouse adipose tissue macrophage inflammation and insulin resistance in obesity
Galic, Sandra, Fullerton, Morgan D., Schertzer, Jonathan D., Sikkema, Sarah, Marcinko, Katarina, Walkley, Carl R., Izon, David, Honeyman, Jane, Chen, Zhi-Ping, van Denderen, Bryce J., Kemp, Bruce Ernest and Steinberg, Gregory R.. (2011). Hematopoietic AMPK Beta ß1 reduces mouse adipose tissue macrophage inflammation and insulin resistance in obesity. Journal of Clinical Investigation. 121(12), pp. 4903 - 4915. https://doi.org/10.1172/JCI58577