DPP9 deficiency: An inflammasomopathy that can be rescued by lowering NLRP1/IL-1 signaling

Cassandra R. Harapas; Kim S. Robinson; Kenneth Lay; Jasmine Wong; Ricardo Moreno Traspas; Nasrin Nabavizadeh; Annick Rass-Rothschild; Bertrand Boisson; Scott B. Drutman; Pawat Laohamonthonkul; Devon Bonner; Jingwei Rachel Xiong; Mark D. Gorrell; Sophia Davidson; Chien Hsiung Yu; Mark D. Fleming; Jonas Gudera; Jerry Stein; Miriam Ben-Harosh; Emily Groopman; Akiko Shimamura; Hannah Tamary; Hülya Kayserili; Nevin Hatipoğlu; Jean Laurent Casanova; Jonathan A. Bernstein; Franklin L. Zhong; Seth L. Masters; Bruno Reversade

doi:10.1126/sciimmunol.abi4611

DPP9 deficiency: An inflammasomopathy that can be rescued by lowering NLRP1/IL-1 signaling

Cassandra R. Harapas, Kim S. Robinson, Kenneth Lay, Jasmine Wong, Ricardo Moreno Traspas, Nasrin Nabavizadeh, Annick Rass-Rothschild, Bertrand Boisson, Scott B. Drutman, Pawat Laohamonthonkul, Devon Bonner, Jingwei Rachel Xiong, Mark D. Gorrell, Sophia Davidson, Chien Hsiung Yu, Mark D. Fleming, Jonas Gudera, Jerry Stein, Miriam Ben-Harosh, Emily GroopmanAkiko Shimamura, Hannah Tamary, Hülya Kayserili, Nevin Hatipoğlu, Jean Laurent Casanova, Jonathan A. Bernstein, Franklin L. Zhong, Seth L. Masters, Bruno Reversade

Research output: Contribution to journal › Article › peer-review

25 Scopus citations

Abstract

Dipeptidyl peptidase 9 (DPP9) is a direct inhibitor of NLRP1, but how it affects inflammasome regulation in vivo is not yet established. Here, we report three families with immune-associated defects, poor growth, pancytopenia, and skin pigmentation abnormalities that segregate with biallelic DPP9 rare variants. Using patient-derived primary cells and biochemical assays, these variants were shown to behave as hypomorphic or knockout alleles that failed to repress NLRP1. The removal of a single copy of Nlrp1a/b/c, Asc, Gsdmd, or Il-1r, but not Il-18, was sufficient to rescue the lethality of Dpp9 mutant neonates in mice. Similarly, dpp9 deficiency was partially rescued by the inactivation of asc, an obligate downstream adapter of the NLRP1 inflammasome, in zebrafish. These experiments suggest that the deleterious consequences of DPP9 deficiency were mostly driven by the aberrant activation of the canonical NLRP1 inflammasome and IL-1β signaling. Collectively, our results delineate a Mendelian disorder of DPP9 deficiency driven by increased NLRP1 activity as demonstrated in patient cells and in two animal models of the disease.

Original language	English
Article number	eabi4611
Journal	Science immunology
Volume	7
Issue number	75
DOIs	https://doi.org/10.1126/sciimmunol.abi4611
State	Published - Sep 2022

Funding

Funders	Funder number
Agence Nationale de la Recherche
Victorian Endowment for Science, Knowledge and Innovation
Broad Institute
Université de Paris
Agency for Science, Technology and Research
National Research Foundation Singapore
Institut national de la santé et de la recherche médicale
Deutscher Akademischer Austauschdienst
St. Giles Foundation
Harvard University
NCA TS
European Molecular Biology Organization
Rockefeller University
Branco Weiss Foundation
National Center for Research Resources
HHMI-Wellcome
Glenn Foundation for Medical Research
Sylvia and Charles Viertel Foundation
Institute
FoundationforMedicalResearch
Howard Hughes Medical Institute
Fondation pour la Recherche Médicale	EQU201903007798
National Health and Medical Research Council	GNT1143412andGNT2003756.C.-H, 1143412, GNT1143412, 2003159, 2003756, GNT2003756
National Center for Advancing Translational Sciences	UL1TR001866
National Institutes of Health	ANR-10-IAHU- 01, ANR-10-LABX-62-IBEID
Walter and Eliza Hall Institute of Medical Research	R01HG009141
National Medical Research Council	MOH-000328-00
Integrative Biology of Emerging Infectious Diseases Laboratory of Excellence	ANR 14-CE15-0009-01
National Human Genome Research Institute	R01HG009141

UN SDGs

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10.1126/sciimmunol.abi4611

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Harapas, C. R., Robinson, K. S., Lay, K., Wong, J., Moreno Traspas, R., Nabavizadeh, N., Rass-Rothschild, A., Boisson, B., Drutman, S. B., Laohamonthonkul, P., Bonner, D., Xiong, J. R., Gorrell, M. D., Davidson, S., Yu, C. H., Fleming, M. D., Gudera, J., Stein, J., Ben-Harosh, M., ... Reversade, B. (2022). DPP9 deficiency: An inflammasomopathy that can be rescued by lowering NLRP1/IL-1 signaling. Science immunology, 7(75), Article eabi4611. https://doi.org/10.1126/sciimmunol.abi4611

@article{39ee5683ace34e90a866e8292ad48c46,

title = "DPP9 deficiency: An inflammasomopathy that can be rescued by lowering NLRP1/IL-1 signaling",

abstract = "Dipeptidyl peptidase 9 (DPP9) is a direct inhibitor of NLRP1, but how it affects inflammasome regulation in vivo is not yet established. Here, we report three families with immune-associated defects, poor growth, pancytopenia, and skin pigmentation abnormalities that segregate with biallelic DPP9 rare variants. Using patient-derived primary cells and biochemical assays, these variants were shown to behave as hypomorphic or knockout alleles that failed to repress NLRP1. The removal of a single copy of Nlrp1a/b/c, Asc, Gsdmd, or Il-1r, but not Il-18, was sufficient to rescue the lethality of Dpp9 mutant neonates in mice. Similarly, dpp9 deficiency was partially rescued by the inactivation of asc, an obligate downstream adapter of the NLRP1 inflammasome, in zebrafish. These experiments suggest that the deleterious consequences of DPP9 deficiency were mostly driven by the aberrant activation of the canonical NLRP1 inflammasome and IL-1β signaling. Collectively, our results delineate a Mendelian disorder of DPP9 deficiency driven by increased NLRP1 activity as demonstrated in patient cells and in two animal models of the disease.",

author = "Harapas, {Cassandra R.} and Robinson, {Kim S.} and Kenneth Lay and Jasmine Wong and {Moreno Traspas}, Ricardo and Nasrin Nabavizadeh and Annick Rass-Rothschild and Bertrand Boisson and Drutman, {Scott B.} and Pawat Laohamonthonkul and Devon Bonner and Xiong, {Jingwei Rachel} and Gorrell, {Mark D.} and Sophia Davidson and Yu, {Chien Hsiung} and Fleming, {Mark D.} and Jonas Gudera and Jerry Stein and Miriam Ben-Harosh and Emily Groopman and Akiko Shimamura and Hannah Tamary and H{\"u}lya Kayserili and Nevin Hatipoğlu and Casanova, {Jean Laurent} and Bernstein, {Jonathan A.} and Zhong, {Franklin L.} and Masters, {Seth L.} and Bruno Reversade",

note = "Publisher Copyright: Copyright {\textcopyright} 2022 The Authors.",

year = "2022",

month = sep,

doi = "10.1126/sciimmunol.abi4611",

language = "אנגלית",

volume = "7",

journal = "Science immunology",

issn = "2470-9468",

publisher = "American Association for the Advancement of Science",

number = "75",

}

Harapas, CR, Robinson, KS, Lay, K, Wong, J, Moreno Traspas, R, Nabavizadeh, N, Rass-Rothschild, A, Boisson, B, Drutman, SB, Laohamonthonkul, P, Bonner, D, Xiong, JR, Gorrell, MD, Davidson, S, Yu, CH, Fleming, MD, Gudera, J, Stein, J, Ben-Harosh, M, Groopman, E, Shimamura, A, Tamary, H, Kayserili, H, Hatipoğlu, N, Casanova, JL, Bernstein, JA, Zhong, FL, Masters, SL & Reversade, B 2022, 'DPP9 deficiency: An inflammasomopathy that can be rescued by lowering NLRP1/IL-1 signaling', Science immunology, vol. 7, no. 75, eabi4611. https://doi.org/10.1126/sciimmunol.abi4611

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T1 - DPP9 deficiency

T2 - An inflammasomopathy that can be rescued by lowering NLRP1/IL-1 signaling

AU - Harapas, Cassandra R.

AU - Robinson, Kim S.

AU - Lay, Kenneth

AU - Wong, Jasmine

AU - Moreno Traspas, Ricardo

AU - Nabavizadeh, Nasrin

AU - Rass-Rothschild, Annick

AU - Boisson, Bertrand

AU - Drutman, Scott B.

AU - Laohamonthonkul, Pawat

AU - Bonner, Devon

AU - Xiong, Jingwei Rachel

AU - Gorrell, Mark D.

AU - Davidson, Sophia

AU - Yu, Chien Hsiung

AU - Fleming, Mark D.

AU - Gudera, Jonas

AU - Stein, Jerry

AU - Ben-Harosh, Miriam

AU - Groopman, Emily

AU - Shimamura, Akiko

AU - Tamary, Hannah

AU - Kayserili, Hülya

AU - Hatipoğlu, Nevin

AU - Casanova, Jean Laurent

AU - Bernstein, Jonathan A.

AU - Zhong, Franklin L.

AU - Masters, Seth L.

AU - Reversade, Bruno

PY - 2022/9

Y1 - 2022/9

N2 - Dipeptidyl peptidase 9 (DPP9) is a direct inhibitor of NLRP1, but how it affects inflammasome regulation in vivo is not yet established. Here, we report three families with immune-associated defects, poor growth, pancytopenia, and skin pigmentation abnormalities that segregate with biallelic DPP9 rare variants. Using patient-derived primary cells and biochemical assays, these variants were shown to behave as hypomorphic or knockout alleles that failed to repress NLRP1. The removal of a single copy of Nlrp1a/b/c, Asc, Gsdmd, or Il-1r, but not Il-18, was sufficient to rescue the lethality of Dpp9 mutant neonates in mice. Similarly, dpp9 deficiency was partially rescued by the inactivation of asc, an obligate downstream adapter of the NLRP1 inflammasome, in zebrafish. These experiments suggest that the deleterious consequences of DPP9 deficiency were mostly driven by the aberrant activation of the canonical NLRP1 inflammasome and IL-1β signaling. Collectively, our results delineate a Mendelian disorder of DPP9 deficiency driven by increased NLRP1 activity as demonstrated in patient cells and in two animal models of the disease.

AB - Dipeptidyl peptidase 9 (DPP9) is a direct inhibitor of NLRP1, but how it affects inflammasome regulation in vivo is not yet established. Here, we report three families with immune-associated defects, poor growth, pancytopenia, and skin pigmentation abnormalities that segregate with biallelic DPP9 rare variants. Using patient-derived primary cells and biochemical assays, these variants were shown to behave as hypomorphic or knockout alleles that failed to repress NLRP1. The removal of a single copy of Nlrp1a/b/c, Asc, Gsdmd, or Il-1r, but not Il-18, was sufficient to rescue the lethality of Dpp9 mutant neonates in mice. Similarly, dpp9 deficiency was partially rescued by the inactivation of asc, an obligate downstream adapter of the NLRP1 inflammasome, in zebrafish. These experiments suggest that the deleterious consequences of DPP9 deficiency were mostly driven by the aberrant activation of the canonical NLRP1 inflammasome and IL-1β signaling. Collectively, our results delineate a Mendelian disorder of DPP9 deficiency driven by increased NLRP1 activity as demonstrated in patient cells and in two animal models of the disease.

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DPP9 deficiency: An inflammasomopathy that can be rescued by lowering NLRP1/IL-1 signaling

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