A monoclonal antibody targeting nonjunctional claudin-1 inhibits fibrosis in patient-derived models by modulating cell plasticity

Natascha Roehlen; Antonio Saviano; Houssein El Saghire; Emilie Crouchet; Zeina Nehme; Fabio Del Zompo; Frank Jühling; Marine A. Oudot; Sarah C. Durand; François H.T. Duong; Sara Cherradi; Victor Gonzalez Motos; Nuno Almeida; Clara Ponsolles; Laura Heydmann; Tessa Ostyn; Antonin Lallement; Patrick Pessaux; Emanuele Felli; Andrea Cavalli; Jacopo Sgrignani; Christine Thumann; Olga Koutsopoulos; Bryan C. Fuchs; Yujin Hoshida; Maike Hofmann; Mogens Vyberg; Birgitte Martine Viuff; Elisabeth D. Galsgaard; Greg Elson; Alberto Toso; Markus Meyer; Roberto Iacone; Tamas Schweighoffer; Geoffrey Teixeira; Solange Moll; Claudio De Vito; Tania Roskams; Irwin Davidson; Danijela Heide; Mathias Heikenwälder; Mirjam B. Zeisel; Joachim Lupberger; Laurent Mailly; Catherine Schuster; Thomas F. Baumert

doi:10.1126/scitranslmed.abj4221

A monoclonal antibody targeting nonjunctional claudin-1 inhibits fibrosis in patient-derived models by modulating cell plasticity

Natascha Roehlen, Antonio Saviano, Houssein El Saghire, Emilie Crouchet, Zeina Nehme, Fabio Del Zompo, Frank Jühling, Marine A. Oudot, Sarah C. Durand, François H.T. Duong, Sara Cherradi, Victor Gonzalez Motos, Nuno Almeida, Clara Ponsolles, Laura Heydmann, Tessa Ostyn, Antonin Lallement, Patrick Pessaux, Emanuele Felli, Andrea CavalliJacopo Sgrignani, Christine Thumann, Olga Koutsopoulos, Bryan C. Fuchs, Yujin Hoshida, Maike Hofmann, Mogens Vyberg, Birgitte Martine Viuff, Elisabeth D. Galsgaard, Greg Elson, Alberto Toso, Markus Meyer, Roberto Iacone, Tamas Schweighoffer, Geoffrey Teixeira, Solange Moll, Claudio De Vito, Tania Roskams, Irwin Davidson, Danijela Heide, Mathias Heikenwälder, Mirjam B. Zeisel, Joachim Lupberger, Laurent Mailly, Catherine Schuster, Thomas F. Baumert

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

6 Scopus citations

Abstract

Tissue fibrosis is a key driver of end-stage organ failure and cancer, overall accounting for up to 45% of deaths in developed countries. There is a large unmet medical need for antifibrotic therapies. Claudin-1 (CLDN1) is a member of the tight junction protein family. Although the role of CLDN1 incorporated in tight junctions is well established, the function of nonjunctional CLDN1 (njCLDN1) is largely unknown. Using highly specific monoclonal antibodies targeting a conformation-dependent epitope of exposed njCLDN1, we show in patient-derived liver three-dimensional fibrosis and human liver chimeric mouse models that CLDN1 is a mediator and target for liver fibrosis. Targeting CLDN1 reverted inflammation-induced hepatocyte profibrogenic signaling and cell fate and suppressed the myofibroblast differentiation of hepatic stellate cells. Safety studies of a fully humanized antibody in nonhuman primates did not reveal any serious adverse events even at high steadystate concentrations. Our results provide preclinical proof of concept for CLDN1-specific monoclonal antibodies for the treatment of advanced liver fibrosis and cancer prevention. Antifibrotic effects in lung and kidney fibrosis models further indicate a role of CLDN1 as a therapeutic target for tissue fibrosis across organs. In conclusion, our data pave the way for further therapeutic exploration of CLDN1-targeting therapies for fibrotic diseases in patients.

Original language	English (US)
Article number	eabj4221
Journal	Science translational medicine
Volume	14
Issue number	676
DOIs	https://doi.org/10.1126/scitranslmed.abj4221
State	Published - Dec 21 2022
Externally published	Yes

ASJC Scopus subject areas

General Medicine

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Roehlen, N., Saviano, A., El Saghire, H., Crouchet, E., Nehme, Z., Del Zompo, F., Jühling, F., Oudot, M. A., Durand, S. C., Duong, F. H. T., Cherradi, S., Motos, V. G., Almeida, N., Ponsolles, C., Heydmann, L., Ostyn, T., Lallement, A., Pessaux, P., Felli, E., ... Baumert, T. F. (2022). A monoclonal antibody targeting nonjunctional claudin-1 inhibits fibrosis in patient-derived models by modulating cell plasticity. Science translational medicine, 14(676), Article eabj4221. https://doi.org/10.1126/scitranslmed.abj4221

Roehlen, N, Saviano, A, El Saghire, H, Crouchet, E, Nehme, Z, Del Zompo, F, Jühling, F, Oudot, MA, Durand, SC, Duong, FHT, Cherradi, S, Motos, VG, Almeida, N, Ponsolles, C, Heydmann, L, Ostyn, T, Lallement, A, Pessaux, P, Felli, E, Cavalli, A, Sgrignani, J, Thumann, C, Koutsopoulos, O, Fuchs, BC, Hoshida, Y, Hofmann, M, Vyberg, M, Viuff, BM, Galsgaard, ED, Elson, G, Toso, A, Meyer, M, Iacone, R, Schweighoffer, T, Teixeira, G, Moll, S, De Vito, C, Roskams, T, Davidson, I, Heide, D, Heikenwälder, M, Zeisel, MB, Lupberger, J, Mailly, L, Schuster, C & Baumert, TF 2022, 'A monoclonal antibody targeting nonjunctional claudin-1 inhibits fibrosis in patient-derived models by modulating cell plasticity', Science translational medicine, vol. 14, no. 676, eabj4221. https://doi.org/10.1126/scitranslmed.abj4221

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title = "A monoclonal antibody targeting nonjunctional claudin-1 inhibits fibrosis in patient-derived models by modulating cell plasticity",

abstract = "Tissue fibrosis is a key driver of end-stage organ failure and cancer, overall accounting for up to 45% of deaths in developed countries. There is a large unmet medical need for antifibrotic therapies. Claudin-1 (CLDN1) is a member of the tight junction protein family. Although the role of CLDN1 incorporated in tight junctions is well established, the function of nonjunctional CLDN1 (njCLDN1) is largely unknown. Using highly specific monoclonal antibodies targeting a conformation-dependent epitope of exposed njCLDN1, we show in patient-derived liver three-dimensional fibrosis and human liver chimeric mouse models that CLDN1 is a mediator and target for liver fibrosis. Targeting CLDN1 reverted inflammation-induced hepatocyte profibrogenic signaling and cell fate and suppressed the myofibroblast differentiation of hepatic stellate cells. Safety studies of a fully humanized antibody in nonhuman primates did not reveal any serious adverse events even at high steadystate concentrations. Our results provide preclinical proof of concept for CLDN1-specific monoclonal antibodies for the treatment of advanced liver fibrosis and cancer prevention. Antifibrotic effects in lung and kidney fibrosis models further indicate a role of CLDN1 as a therapeutic target for tissue fibrosis across organs. In conclusion, our data pave the way for further therapeutic exploration of CLDN1-targeting therapies for fibrotic diseases in patients.",

author = "Natascha Roehlen and Antonio Saviano and {El Saghire}, Houssein and Emilie Crouchet and Zeina Nehme and {Del Zompo}, Fabio and Frank J{\"u}hling and Oudot, {Marine A.} and Durand, {Sarah C.} and Duong, {Fran{\c c}ois H.T.} and Sara Cherradi and Motos, {Victor Gonzalez} and Nuno Almeida and Clara Ponsolles and Laura Heydmann and Tessa Ostyn and Antonin Lallement and Patrick Pessaux and Emanuele Felli and Andrea Cavalli and Jacopo Sgrignani and Christine Thumann and Olga Koutsopoulos and Fuchs, {Bryan C.} and Yujin Hoshida and Maike Hofmann and Mogens Vyberg and Viuff, {Birgitte Martine} and Galsgaard, {Elisabeth D.} and Greg Elson and Alberto Toso and Markus Meyer and Roberto Iacone and Tamas Schweighoffer and Geoffrey Teixeira and Solange Moll and {De Vito}, Claudio and Tania Roskams and Irwin Davidson and Danijela Heide and Mathias Heikenw{\"a}lder and Zeisel, {Mirjam B.} and Joachim Lupberger and Laurent Mailly and Catherine Schuster and Baumert, {Thomas F.}",

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

year = "2022",

month = dec,

day = "21",

doi = "10.1126/scitranslmed.abj4221",

language = "English (US)",

volume = "14",

journal = "Science translational medicine",

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

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T1 - A monoclonal antibody targeting nonjunctional claudin-1 inhibits fibrosis in patient-derived models by modulating cell plasticity

AU - Roehlen, Natascha

AU - Saviano, Antonio

AU - El Saghire, Houssein

AU - Crouchet, Emilie

AU - Nehme, Zeina

AU - Del Zompo, Fabio

AU - Jühling, Frank

AU - Oudot, Marine A.

AU - Durand, Sarah C.

AU - Duong, François H.T.

AU - Cherradi, Sara

AU - Motos, Victor Gonzalez

AU - Almeida, Nuno

AU - Ponsolles, Clara

AU - Heydmann, Laura

AU - Ostyn, Tessa

AU - Lallement, Antonin

AU - Pessaux, Patrick

AU - Felli, Emanuele

AU - Cavalli, Andrea

AU - Sgrignani, Jacopo

AU - Thumann, Christine

AU - Koutsopoulos, Olga

AU - Fuchs, Bryan C.

AU - Hoshida, Yujin

AU - Hofmann, Maike

AU - Vyberg, Mogens

AU - Viuff, Birgitte Martine

AU - Galsgaard, Elisabeth D.

AU - Elson, Greg

AU - Toso, Alberto

AU - Meyer, Markus

AU - Iacone, Roberto

AU - Schweighoffer, Tamas

AU - Teixeira, Geoffrey

AU - Moll, Solange

AU - De Vito, Claudio

AU - Roskams, Tania

AU - Davidson, Irwin

AU - Heide, Danijela

AU - Heikenwälder, Mathias

AU - Zeisel, Mirjam B.

AU - Lupberger, Joachim

AU - Mailly, Laurent

AU - Schuster, Catherine

AU - Baumert, Thomas F.

PY - 2022/12/21

Y1 - 2022/12/21

N2 - Tissue fibrosis is a key driver of end-stage organ failure and cancer, overall accounting for up to 45% of deaths in developed countries. There is a large unmet medical need for antifibrotic therapies. Claudin-1 (CLDN1) is a member of the tight junction protein family. Although the role of CLDN1 incorporated in tight junctions is well established, the function of nonjunctional CLDN1 (njCLDN1) is largely unknown. Using highly specific monoclonal antibodies targeting a conformation-dependent epitope of exposed njCLDN1, we show in patient-derived liver three-dimensional fibrosis and human liver chimeric mouse models that CLDN1 is a mediator and target for liver fibrosis. Targeting CLDN1 reverted inflammation-induced hepatocyte profibrogenic signaling and cell fate and suppressed the myofibroblast differentiation of hepatic stellate cells. Safety studies of a fully humanized antibody in nonhuman primates did not reveal any serious adverse events even at high steadystate concentrations. Our results provide preclinical proof of concept for CLDN1-specific monoclonal antibodies for the treatment of advanced liver fibrosis and cancer prevention. Antifibrotic effects in lung and kidney fibrosis models further indicate a role of CLDN1 as a therapeutic target for tissue fibrosis across organs. In conclusion, our data pave the way for further therapeutic exploration of CLDN1-targeting therapies for fibrotic diseases in patients.

AB - Tissue fibrosis is a key driver of end-stage organ failure and cancer, overall accounting for up to 45% of deaths in developed countries. There is a large unmet medical need for antifibrotic therapies. Claudin-1 (CLDN1) is a member of the tight junction protein family. Although the role of CLDN1 incorporated in tight junctions is well established, the function of nonjunctional CLDN1 (njCLDN1) is largely unknown. Using highly specific monoclonal antibodies targeting a conformation-dependent epitope of exposed njCLDN1, we show in patient-derived liver three-dimensional fibrosis and human liver chimeric mouse models that CLDN1 is a mediator and target for liver fibrosis. Targeting CLDN1 reverted inflammation-induced hepatocyte profibrogenic signaling and cell fate and suppressed the myofibroblast differentiation of hepatic stellate cells. Safety studies of a fully humanized antibody in nonhuman primates did not reveal any serious adverse events even at high steadystate concentrations. Our results provide preclinical proof of concept for CLDN1-specific monoclonal antibodies for the treatment of advanced liver fibrosis and cancer prevention. Antifibrotic effects in lung and kidney fibrosis models further indicate a role of CLDN1 as a therapeutic target for tissue fibrosis across organs. In conclusion, our data pave the way for further therapeutic exploration of CLDN1-targeting therapies for fibrotic diseases in patients.

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SN - 1946-6234

VL - 14

JO - Science translational medicine

JF - Science translational medicine

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ER -

A monoclonal antibody targeting nonjunctional claudin-1 inhibits fibrosis in patient-derived models by modulating cell plasticity

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