Phenotypic drug screening in a human fibrosis model identified a novel class of antifibrotic therapeutics

Fibrogenic processes instigate fatal chronic diseases leading to organ failure and death. Underlying biological processes involve induced massive deposition of extracellular matrix (ECM) by aberrant fibroblasts. We subjected diseased primary human lung fibroblasts to an advanced three-dimensional ph...

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Autores principales: Gerckens, Michael, Schorpp, Kenji, Pelizza, Francesco, Wögrath, Melanie, Reichau, Kora, Ma, Huilong, Dworsky, Armando-Marco, Sengupta, Arunima, Stoleriu, Mircea Gabriel, Heinzelmann, Katharina, Merl-Pham, Juliane, Irmler, Martin, Alsafadi, Hani N., Trenkenschuh, Eduard, Sarnova, Lenka, Jirouskova, Marketa, Frieß, Wolfgang, Hauck, Stefanie M., Beckers, Johannes, Kneidinger, Nikolaus, Behr, Jürgen, Hilgendorff, Anne, Hadian, Kamyar, Lindner, Michael, Königshoff, Melanie, Eickelberg, Oliver, Gregor, Martin, Plettenburg, Oliver, Yildirim, Ali Önder, Burgstaller, Gerald
Formato: Online Artículo Texto
Lenguaje:English
Publicado: American Association for the Advancement of Science 2021
Materias:
Biomedicine and Life Sciences
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC8694600/
https://www.ncbi.nlm.nih.gov/pubmed/34936468
http://dx.doi.org/10.1126/sciadv.abb3673
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author Gerckens, Michael
Schorpp, Kenji
Pelizza, Francesco
Wögrath, Melanie
Reichau, Kora
Ma, Huilong
Dworsky, Armando-Marco
Sengupta, Arunima
Stoleriu, Mircea Gabriel
Heinzelmann, Katharina
Merl-Pham, Juliane
Irmler, Martin
Alsafadi, Hani N.
Trenkenschuh, Eduard
Sarnova, Lenka
Jirouskova, Marketa
Frieß, Wolfgang
Hauck, Stefanie M.
Beckers, Johannes
Kneidinger, Nikolaus
Behr, Jürgen
Hilgendorff, Anne
Hadian, Kamyar
Lindner, Michael
Königshoff, Melanie
Eickelberg, Oliver
Gregor, Martin
Plettenburg, Oliver
Yildirim, Ali Önder
Burgstaller, Gerald
author_facet Gerckens, Michael
Schorpp, Kenji
Pelizza, Francesco
Wögrath, Melanie
Reichau, Kora
Ma, Huilong
Dworsky, Armando-Marco
Sengupta, Arunima
Stoleriu, Mircea Gabriel
Heinzelmann, Katharina
Merl-Pham, Juliane
Irmler, Martin
Alsafadi, Hani N.
Trenkenschuh, Eduard
Sarnova, Lenka
Jirouskova, Marketa
Frieß, Wolfgang
Hauck, Stefanie M.
Beckers, Johannes
Kneidinger, Nikolaus
Behr, Jürgen
Hilgendorff, Anne
Hadian, Kamyar
Lindner, Michael
Königshoff, Melanie
Eickelberg, Oliver
Gregor, Martin
Plettenburg, Oliver
Yildirim, Ali Önder
Burgstaller, Gerald
author_sort Gerckens, Michael
collection PubMed
description Fibrogenic processes instigate fatal chronic diseases leading to organ failure and death. Underlying biological processes involve induced massive deposition of extracellular matrix (ECM) by aberrant fibroblasts. We subjected diseased primary human lung fibroblasts to an advanced three-dimensional phenotypic high-content assay and screened a repurposing drug library of small molecules for inhibiting ECM deposition. Fibrotic Pattern Detection by Artificial Intelligence identified tranilast as an effective inhibitor. Structure-activity relationship studies confirmed N-(2-butoxyphenyl)-3-(phenyl)acrylamides (N23Ps) as a novel and highly potent compound class. N23Ps suppressed myofibroblast transdifferentiation, ECM deposition, cellular contractility, and altered cell shapes, thus advocating a unique mode of action. Mechanistically, transcriptomics identified SMURF2 as a potential therapeutic target network. Antifibrotic activity of N23Ps was verified by proteomics in a human ex vivo tissue fibrosis disease model, suppressing profibrotic markers SERPINE1 and CXCL8. Conclusively, N23Ps are a novel class of highly potent compounds inhibiting organ fibrosis in patients.
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spelling pubmed-86946002022-01-03 Phenotypic drug screening in a human fibrosis model identified a novel class of antifibrotic therapeutics Gerckens, Michael Schorpp, Kenji Pelizza, Francesco Wögrath, Melanie Reichau, Kora Ma, Huilong Dworsky, Armando-Marco Sengupta, Arunima Stoleriu, Mircea Gabriel Heinzelmann, Katharina Merl-Pham, Juliane Irmler, Martin Alsafadi, Hani N. Trenkenschuh, Eduard Sarnova, Lenka Jirouskova, Marketa Frieß, Wolfgang Hauck, Stefanie M. Beckers, Johannes Kneidinger, Nikolaus Behr, Jürgen Hilgendorff, Anne Hadian, Kamyar Lindner, Michael Königshoff, Melanie Eickelberg, Oliver Gregor, Martin Plettenburg, Oliver Yildirim, Ali Önder Burgstaller, Gerald Sci Adv Biomedicine and Life Sciences Fibrogenic processes instigate fatal chronic diseases leading to organ failure and death. Underlying biological processes involve induced massive deposition of extracellular matrix (ECM) by aberrant fibroblasts. We subjected diseased primary human lung fibroblasts to an advanced three-dimensional phenotypic high-content assay and screened a repurposing drug library of small molecules for inhibiting ECM deposition. Fibrotic Pattern Detection by Artificial Intelligence identified tranilast as an effective inhibitor. Structure-activity relationship studies confirmed N-(2-butoxyphenyl)-3-(phenyl)acrylamides (N23Ps) as a novel and highly potent compound class. N23Ps suppressed myofibroblast transdifferentiation, ECM deposition, cellular contractility, and altered cell shapes, thus advocating a unique mode of action. Mechanistically, transcriptomics identified SMURF2 as a potential therapeutic target network. Antifibrotic activity of N23Ps was verified by proteomics in a human ex vivo tissue fibrosis disease model, suppressing profibrotic markers SERPINE1 and CXCL8. Conclusively, N23Ps are a novel class of highly potent compounds inhibiting organ fibrosis in patients. American Association for the Advancement of Science 2021-12-22 /pmc/articles/PMC8694600/ /pubmed/34936468 http://dx.doi.org/10.1126/sciadv.abb3673 Text en Copyright © 2021 The Authors, some rights reserved; exclusive licensee American Association for the Advancement of Science. No claim to original U.S. Government Works. Distributed under a Creative Commons Attribution NonCommercial License 4.0 (CC BY-NC). https://creativecommons.org/licenses/by-nc/4.0/This is an open-access article distributed under the terms of the Creative Commons Attribution-NonCommercial license (https://creativecommons.org/licenses/by-nc/4.0/) , which permits use, distribution, and reproduction in any medium, so long as the resultant use is not for commercial advantage and provided the original work is properly cited.
spellingShingle Biomedicine and Life Sciences
Gerckens, Michael
Schorpp, Kenji
Pelizza, Francesco
Wögrath, Melanie
Reichau, Kora
Ma, Huilong
Dworsky, Armando-Marco
Sengupta, Arunima
Stoleriu, Mircea Gabriel
Heinzelmann, Katharina
Merl-Pham, Juliane
Irmler, Martin
Alsafadi, Hani N.
Trenkenschuh, Eduard
Sarnova, Lenka
Jirouskova, Marketa
Frieß, Wolfgang
Hauck, Stefanie M.
Beckers, Johannes
Kneidinger, Nikolaus
Behr, Jürgen
Hilgendorff, Anne
Hadian, Kamyar
Lindner, Michael
Königshoff, Melanie
Eickelberg, Oliver
Gregor, Martin
Plettenburg, Oliver
Yildirim, Ali Önder
Burgstaller, Gerald
Phenotypic drug screening in a human fibrosis model identified a novel class of antifibrotic therapeutics
title Phenotypic drug screening in a human fibrosis model identified a novel class of antifibrotic therapeutics
title_full Phenotypic drug screening in a human fibrosis model identified a novel class of antifibrotic therapeutics
title_fullStr Phenotypic drug screening in a human fibrosis model identified a novel class of antifibrotic therapeutics
title_full_unstemmed Phenotypic drug screening in a human fibrosis model identified a novel class of antifibrotic therapeutics
title_short Phenotypic drug screening in a human fibrosis model identified a novel class of antifibrotic therapeutics
title_sort phenotypic drug screening in a human fibrosis model identified a novel class of antifibrotic therapeutics
topic Biomedicine and Life Sciences
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC8694600/
https://www.ncbi.nlm.nih.gov/pubmed/34936468
http://dx.doi.org/10.1126/sciadv.abb3673
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