Host-cell sensors for Plasmodium activate innate immunity against liver-stage infection

Peter Liehl; Vanessa Zuzarte-Luís; Jennie Chan; Thomas Zillinger; Fernanda Baptista; Daniel Carapau; Madlen Konert; Kirsten K. Hanson; Céline Carret; Caroline Lassnig; Mathias Müller; Ulrich Kalinke; Mohsan Saeed; Angelo Ferreira Chora; Douglas T. Golenbock; Birgit Strobl; Miguel Prudêncio; Luis P. Coelho; Stefan H. Kappe; Giulio Superti-Furga; Andreas Pichlmair; Ana M. Vigário; Charles M. Rice; Katherine A. Fitzgerald; Winfried Barchet; Maria M. Mota

doi:10.1038/nm.3424

Host-cell sensors for Plasmodium activate innate immunity against liver-stage infection

Peter Liehl, Vanessa Zuzarte-Luís, Jennie Chan, Thomas Zillinger, Fernanda Baptista, Daniel Carapau, Madlen Konert, Kirsten K. Hanson, Céline Carret, Caroline Lassnig, Mathias Müller, Ulrich Kalinke, Mohsan Saeed, Angelo Ferreira Chora, Douglas T. Golenbock, Birgit Strobl, Miguel Prudêncio, Luis P. Coelho, Stefan H. Kappe, Giulio Superti-FurgaAndreas Pichlmair, Ana M. Vigário, Charles M. Rice, Katherine A. Fitzgerald, Winfried Barchet, Maria M. Mota

Publikation: Beitrag in Fachzeitschrift › Artikel › Begutachtung

227 Zitate (Scopus)

Abstract

Before they infect red blood cells and cause malaria, Plasmodium parasites undergo an obligate and clinically silent expansion phase in the liver that is supposedly undetected by the host. Here, we demonstrate the engagement of a type I interferon (IFN) response during Plasmodium replication in the liver. We identified Plasmodium RNA as a previously unrecognized pathogen-associated molecular pattern (PAMP) capable of activating a type I IFN response via the cytosolic pattern recognition receptor Mda5. This response, initiated by liver-resident cells through the adaptor molecule for cytosolic RNA sensors, Mavs, and the transcription factors Irf3 and Irf7, is propagated by hepatocytes in an interferon-α/β receptor-dependent manner. This signaling pathway is critical for immune cell-mediated host resistance to liver-stage Plasmodium infection, which we find can be primed with other PAMPs, including hepatitis C virus RNA. Together, our results show that the liver has sensor mechanisms for Plasmodium that mediate a functional antiparasite response driven by type I IFN.

Originalsprache	Englisch
Seiten (von - bis)	47-53
Seitenumfang	7
Fachzeitschrift	Nature Medicine
Jahrgang	20
Ausgabenummer	1
DOIs	https://doi.org/10.1038/nm.3424
Publikationsstatus	Veröffentlicht - 2014
Extern publiziert	Ja

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Liehl, P., Zuzarte-Luís, V., Chan, J., Zillinger, T., Baptista, F., Carapau, D., Konert, M., Hanson, K. K., Carret, C., Lassnig, C., Müller, M., Kalinke, U., Saeed, M., Chora, A. F., Golenbock, D. T., Strobl, B., Prudêncio, M., Coelho, L. P., Kappe, S. H., ... Mota, M. M. (2014). Host-cell sensors for Plasmodium activate innate immunity against liver-stage infection. Nature Medicine, 20(1), 47-53. https://doi.org/10.1038/nm.3424

@article{7ab96b9fa0f541c2a50f0cad82eeca1c,

title = "Host-cell sensors for Plasmodium activate innate immunity against liver-stage infection",

abstract = "Before they infect red blood cells and cause malaria, Plasmodium parasites undergo an obligate and clinically silent expansion phase in the liver that is supposedly undetected by the host. Here, we demonstrate the engagement of a type I interferon (IFN) response during Plasmodium replication in the liver. We identified Plasmodium RNA as a previously unrecognized pathogen-associated molecular pattern (PAMP) capable of activating a type I IFN response via the cytosolic pattern recognition receptor Mda5. This response, initiated by liver-resident cells through the adaptor molecule for cytosolic RNA sensors, Mavs, and the transcription factors Irf3 and Irf7, is propagated by hepatocytes in an interferon-α/β receptor-dependent manner. This signaling pathway is critical for immune cell-mediated host resistance to liver-stage Plasmodium infection, which we find can be primed with other PAMPs, including hepatitis C virus RNA. Together, our results show that the liver has sensor mechanisms for Plasmodium that mediate a functional antiparasite response driven by type I IFN.",

author = "Peter Liehl and Vanessa Zuzarte-Lu{\'i}s and Jennie Chan and Thomas Zillinger and Fernanda Baptista and Daniel Carapau and Madlen Konert and Hanson, {Kirsten K.} and C{\'e}line Carret and Caroline Lassnig and Mathias M{\"u}ller and Ulrich Kalinke and Mohsan Saeed and Chora, {Angelo Ferreira} and Golenbock, {Douglas T.} and Birgit Strobl and Miguel Prud{\^e}ncio and Coelho, {Luis P.} and Kappe, {Stefan H.} and Giulio Superti-Furga and Andreas Pichlmair and Vig{\'a}rio, {Ana M.} and Rice, {Charles M.} and Fitzgerald, {Katherine A.} and Winfried Barchet and Mota, {Maria M.}",

note = "Funding Information: grant agreement 242095 to M.M.M., US National Institutes of Health grant AI079293 to K.A.F. and D.T.G., Austrian Science Fund grant SFB F28 to M.M. and B.S., Deutsche Forschungs Gesellschaft grants BA3544/1-1 and SFB704 (to W.B.), the Starr Foundation, the Greenberg Medical Research Institute and Bill & Melinda Gates Foundation grant OPP1021571 (subcontract R10291, M11R11017, all to C.M.R.). P.L. was supported by Fondation pour la Recherche M{\'e}dicale and FCT (fellowship SFRH/BPD/41547/2007). V.Z.-L. was supported by European Molecular Biology Organization fellowship ALTF357-2009. D.C. and C.C. were supported by FCT fellowships (SFRH/BPD/64626/2009 and SFRH/BPD/40965/2007, respectively). M.S. was supported in part by a Helmsley Postdoctoral Fellowship for Basic and Translational Research on Disorders of the Digestive System at The Rockefeller University. Funding Information: Mavs−/− mice were from Z.J. Chen (South Western Medical School). Mda5−/− mice were from M. Colonna (Washington University). Rig-I−/−, Tlr3−/−, Tlr4−/−, Trif−/− and Myd88−/− mice were a gift from S. Akira (Osaka University). Trif−/− and Myd88−/− mice were used for generating Trif−/−; Myd88−/− mice. Irf7−/− and Irf3−/− mice were kindly provided by T. Taniguchi (University of Tokyo). We would like to thank A. Parreira for Anopheles stephensi production and infection, M. Rebelo for help with P. falciparum in vitro cultures, J. Ribot for help with chimeric mice and A. Zaidman-R{\'e}my for critical reading of the manuscript. We are grateful to M. Seabra (CEDOC, Faculdade de Ci{\^e}ncias M{\'e}dicas) and A. Holder (UK Medical Research Council National Institute for Medical Research) for providing antisera. This work was supported by Funda{\c c}{\~a}o para a Ci{\^e}ncia e Tecnologia (FCT, Portugal) grants (PTDC/SAU-GMG/100313/2008 to M.M.M., PTDC/SAU-GMG/104392/2008 to C.C. and PTDC/SAU-MIC/113697/2009 to V.Z.-L., and also by the European Research Council grant ERC-2012-StG_20111109 to M.M.M., the European Community{\textquoteright}s Seventh Framework Programme (FP7/2007-2013)",

year = "2014",

doi = "10.1038/nm.3424",

language = "English",

volume = "20",

pages = "47--53",

journal = "Nature Medicine",

issn = "1078-8956",

publisher = "Nature Research",

number = "1",

}

Liehl, P, Zuzarte-Luís, V, Chan, J, Zillinger, T, Baptista, F, Carapau, D, Konert, M, Hanson, KK, Carret, C, Lassnig, C, Müller, M, Kalinke, U, Saeed, M, Chora, AF, Golenbock, DT, Strobl, B, Prudêncio, M, Coelho, LP, Kappe, SH, Superti-Furga, G, Pichlmair, A, Vigário, AM, Rice, CM, Fitzgerald, KA, Barchet, W & Mota, MM 2014, 'Host-cell sensors for Plasmodium activate innate immunity against liver-stage infection', Nature Medicine, Jg. 20, Nr. 1, S. 47-53. https://doi.org/10.1038/nm.3424

TY - JOUR

T1 - Host-cell sensors for Plasmodium activate innate immunity against liver-stage infection

AU - Liehl, Peter

AU - Zuzarte-Luís, Vanessa

AU - Chan, Jennie

AU - Zillinger, Thomas

AU - Baptista, Fernanda

AU - Carapau, Daniel

AU - Konert, Madlen

AU - Hanson, Kirsten K.

AU - Carret, Céline

AU - Lassnig, Caroline

AU - Müller, Mathias

AU - Kalinke, Ulrich

AU - Saeed, Mohsan

AU - Chora, Angelo Ferreira

AU - Golenbock, Douglas T.

AU - Strobl, Birgit

AU - Prudêncio, Miguel

AU - Coelho, Luis P.

AU - Kappe, Stefan H.

AU - Superti-Furga, Giulio

AU - Pichlmair, Andreas

AU - Vigário, Ana M.

AU - Rice, Charles M.

AU - Fitzgerald, Katherine A.

AU - Barchet, Winfried

AU - Mota, Maria M.

N1 - Funding Information: grant agreement 242095 to M.M.M., US National Institutes of Health grant AI079293 to K.A.F. and D.T.G., Austrian Science Fund grant SFB F28 to M.M. and B.S., Deutsche Forschungs Gesellschaft grants BA3544/1-1 and SFB704 (to W.B.), the Starr Foundation, the Greenberg Medical Research Institute and Bill & Melinda Gates Foundation grant OPP1021571 (subcontract R10291, M11R11017, all to C.M.R.). P.L. was supported by Fondation pour la Recherche Médicale and FCT (fellowship SFRH/BPD/41547/2007). V.Z.-L. was supported by European Molecular Biology Organization fellowship ALTF357-2009. D.C. and C.C. were supported by FCT fellowships (SFRH/BPD/64626/2009 and SFRH/BPD/40965/2007, respectively). M.S. was supported in part by a Helmsley Postdoctoral Fellowship for Basic and Translational Research on Disorders of the Digestive System at The Rockefeller University. Funding Information: Mavs−/− mice were from Z.J. Chen (South Western Medical School). Mda5−/− mice were from M. Colonna (Washington University). Rig-I−/−, Tlr3−/−, Tlr4−/−, Trif−/− and Myd88−/− mice were a gift from S. Akira (Osaka University). Trif−/− and Myd88−/− mice were used for generating Trif−/−; Myd88−/− mice. Irf7−/− and Irf3−/− mice were kindly provided by T. Taniguchi (University of Tokyo). We would like to thank A. Parreira for Anopheles stephensi production and infection, M. Rebelo for help with P. falciparum in vitro cultures, J. Ribot for help with chimeric mice and A. Zaidman-Rémy for critical reading of the manuscript. We are grateful to M. Seabra (CEDOC, Faculdade de Ciências Médicas) and A. Holder (UK Medical Research Council National Institute for Medical Research) for providing antisera. This work was supported by Fundação para a Ciência e Tecnologia (FCT, Portugal) grants (PTDC/SAU-GMG/100313/2008 to M.M.M., PTDC/SAU-GMG/104392/2008 to C.C. and PTDC/SAU-MIC/113697/2009 to V.Z.-L., and also by the European Research Council grant ERC-2012-StG_20111109 to M.M.M., the European Community’s Seventh Framework Programme (FP7/2007-2013)

PY - 2014

Y1 - 2014

N2 - Before they infect red blood cells and cause malaria, Plasmodium parasites undergo an obligate and clinically silent expansion phase in the liver that is supposedly undetected by the host. Here, we demonstrate the engagement of a type I interferon (IFN) response during Plasmodium replication in the liver. We identified Plasmodium RNA as a previously unrecognized pathogen-associated molecular pattern (PAMP) capable of activating a type I IFN response via the cytosolic pattern recognition receptor Mda5. This response, initiated by liver-resident cells through the adaptor molecule for cytosolic RNA sensors, Mavs, and the transcription factors Irf3 and Irf7, is propagated by hepatocytes in an interferon-α/β receptor-dependent manner. This signaling pathway is critical for immune cell-mediated host resistance to liver-stage Plasmodium infection, which we find can be primed with other PAMPs, including hepatitis C virus RNA. Together, our results show that the liver has sensor mechanisms for Plasmodium that mediate a functional antiparasite response driven by type I IFN.

AB - Before they infect red blood cells and cause malaria, Plasmodium parasites undergo an obligate and clinically silent expansion phase in the liver that is supposedly undetected by the host. Here, we demonstrate the engagement of a type I interferon (IFN) response during Plasmodium replication in the liver. We identified Plasmodium RNA as a previously unrecognized pathogen-associated molecular pattern (PAMP) capable of activating a type I IFN response via the cytosolic pattern recognition receptor Mda5. This response, initiated by liver-resident cells through the adaptor molecule for cytosolic RNA sensors, Mavs, and the transcription factors Irf3 and Irf7, is propagated by hepatocytes in an interferon-α/β receptor-dependent manner. This signaling pathway is critical for immune cell-mediated host resistance to liver-stage Plasmodium infection, which we find can be primed with other PAMPs, including hepatitis C virus RNA. Together, our results show that the liver has sensor mechanisms for Plasmodium that mediate a functional antiparasite response driven by type I IFN.

UR - http://www.scopus.com/inward/record.url?scp=84891874162&partnerID=8YFLogxK

U2 - 10.1038/nm.3424

DO - 10.1038/nm.3424

M3 - Article

C2 - 24362933

AN - SCOPUS:84891874162

SN - 1078-8956

VL - 20

SP - 47

EP - 53

JO - Nature Medicine

JF - Nature Medicine

IS - 1

ER -

Host-cell sensors for Plasmodium activate innate immunity against liver-stage infection

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