Natural Compound Library Screening Identifies New Molecules for the Treatment of Cardiac Fibrosis and Diastolic Dysfunction

Katharina Schimmel; Mira Jung; Ariana Foinquinos; Gorka San José; Javier Beaumont; Katharina Bock; Lea Grote-Levi; Ke Xiao; Christian Bär; Angelika Pfanne; Annette Just; Karina Zimmer; Soeun Ngoy; Begoña López; Susana Ravassa; Sabine Samolovac; Heike Janssen-Peters; Janet Remke; Kristian Scherf; Seema Dangwal; Maria Teresa Piccoli; Felix Kleemiss; Fabian Philipp Kreutzer; Franziska Kenneweg; Julia Leonardy; Lisa Hobuß; Laura Santer; Quoc Tuan Do; Robert Geffers; Jan Hinrich Braesen; Jessica Schmitz; Christina Brandenberger; Dominik N. Müller; Nicola Wilck; Volkhard Kaever; Heike Bähre; Sandor Batkai; Jan Fiedler; Kevin M. Alexander; Bradley M. Wertheim; Sudeshna Fisch; Ronglih Liao; Javier Diez; Arantxa González; Thomas Thum

doi:10.1161/CIRCULATIONAHA.119.042559

Natural Compound Library Screening Identifies New Molecules for the Treatment of Cardiac Fibrosis and Diastolic Dysfunction

Katharina Schimmel
, Mira Jung
, Ariana Foinquinos
, Gorka San José
, Javier Beaumont
, Katharina Bock
, Lea Grote-Levi
, Ke Xiao
, Christian Bär
, Angelika Pfanne
, Annette Just
, Karina Zimmer
, Soeun Ngoy
, Begoña López
, Susana Ravassa
, Sabine Samolovac
, Heike Janssen-Peters
, Janet Remke
, Kristian Scherf
, Seema Dangwal

Maria Teresa Piccoli, Felix Kleemiss, Fabian Philipp Kreutzer, Franziska Kenneweg, Julia Leonardy, Lisa Hobuß, Laura Santer, Quoc Tuan Do, Robert Geffers, Jan Hinrich Braesen, Jessica Schmitz, Christina Brandenberger, Dominik N. Müller, Nicola Wilck, Volkhard Kaever, Heike Bähre, Sandor Batkai, Jan Fiedler, Kevin M. Alexander, Bradley M. Wertheim, Sudeshna Fisch, Ronglih Liao, Javier Diez, Arantxa González, Thomas Thum

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

73 Scopus citations

Abstract

Background: Myocardial fibrosis is a hallmark of cardiac remodeling and functionally involved in heart failure development, a leading cause of deaths worldwide. Clinically, no therapeutic strategy is available that specifically attenuates maladaptive responses of cardiac fibroblasts, the effector cells of fibrosis in the heart. Therefore, our aim was to develop novel antifibrotic therapeutics based on naturally derived substance library screens for the treatment of cardiac fibrosis. Methods: Antifibrotic drug candidates were identified by functional screening of 480 chemically diverse natural compounds in primary human cardiac fibroblasts, subsequent validation, and mechanistic in vitro and in vivo studies. Hits were analyzed for dose-dependent inhibition of proliferation of human cardiac fibroblasts, modulation of apoptosis, and extracellular matrix expression. In vitro findings were confirmed in vivo with an angiotensin II-mediated murine model of cardiac fibrosis in both preventive and therapeutic settings, as well as in the Dahl salt-sensitive rat model. To investigate the mechanism underlying the antifibrotic potential of the lead compounds, treatment-dependent changes in the noncoding RNAome in primary human cardiac fibroblasts were analyzed by RNA deep sequencing. Results: High-Throughput natural compound library screening identified 15 substances with antiproliferative effects in human cardiac fibroblasts. Using multiple in vitro fibrosis assays and stringent selection algorithms, we identified the steroid bufalin (from Chinese toad venom) and the alkaloid lycorine (from Amaryllidaceae species) to be effective antifibrotic molecules both in vitro and in vivo, leading to improvement in diastolic function in 2 hypertension-dependent rodent models of cardiac fibrosis. Administration at effective doses did not change plasma damage markers or the morphology of kidney and liver, providing the first toxicological safety data. Using next-generation sequencing, we identified the conserved microRNA 671-5p and downstream the antifibrotic selenoprotein P1 as common effectors of the antifibrotic compounds. Conclusions: We identified the molecules bufalin and lycorine as drug candidates for therapeutic applications in cardiac fibrosis and diastolic dysfunction.

Original language	English (US)
Pages (from-to)	751-767
Number of pages	17
Journal	Circulation
Volume	141
Issue number	9
DOIs	https://doi.org/10.1161/CIRCULATIONAHA.119.042559
State	Published - Mar 3 2020
Externally published	Yes

Keywords

diastole
fibrosis
hypertension
microRNAs

ASJC Scopus subject areas

Cardiology and Cardiovascular Medicine
Physiology (medical)

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10.1161/CIRCULATIONAHA.119.042559

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Schimmel, K., Jung, M., Foinquinos, A., José, G. S., Beaumont, J., Bock, K., Grote-Levi, L., Xiao, K., Bär, C., Pfanne, A., Just, A., Zimmer, K., Ngoy, S., López, B., Ravassa, S., Samolovac, S., Janssen-Peters, H., Remke, J., Scherf, K., ... Thum, T. (2020). Natural Compound Library Screening Identifies New Molecules for the Treatment of Cardiac Fibrosis and Diastolic Dysfunction. Circulation, 141(9), 751-767. https://doi.org/10.1161/CIRCULATIONAHA.119.042559

Schimmel, K, Jung, M, Foinquinos, A, José, GS, Beaumont, J, Bock, K, Grote-Levi, L, Xiao, K, Bär, C, Pfanne, A, Just, A, Zimmer, K, Ngoy, S, López, B, Ravassa, S, Samolovac, S, Janssen-Peters, H, Remke, J, Scherf, K, Dangwal, S, Piccoli, MT, Kleemiss, F, Kreutzer, FP, Kenneweg, F, Leonardy, J, Hobuß, L, Santer, L, Do, QT, Geffers, R, Braesen, JH, Schmitz, J, Brandenberger, C, Müller, DN, Wilck, N, Kaever, V, Bähre, H, Batkai, S, Fiedler, J, Alexander, KM, Wertheim, BM, Fisch, S, Liao, R, Diez, J, González, A & Thum, T 2020, 'Natural Compound Library Screening Identifies New Molecules for the Treatment of Cardiac Fibrosis and Diastolic Dysfunction', Circulation, vol. 141, no. 9, pp. 751-767. https://doi.org/10.1161/CIRCULATIONAHA.119.042559

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title = "Natural Compound Library Screening Identifies New Molecules for the Treatment of Cardiac Fibrosis and Diastolic Dysfunction",

abstract = "Background: Myocardial fibrosis is a hallmark of cardiac remodeling and functionally involved in heart failure development, a leading cause of deaths worldwide. Clinically, no therapeutic strategy is available that specifically attenuates maladaptive responses of cardiac fibroblasts, the effector cells of fibrosis in the heart. Therefore, our aim was to develop novel antifibrotic therapeutics based on naturally derived substance library screens for the treatment of cardiac fibrosis. Methods: Antifibrotic drug candidates were identified by functional screening of 480 chemically diverse natural compounds in primary human cardiac fibroblasts, subsequent validation, and mechanistic in vitro and in vivo studies. Hits were analyzed for dose-dependent inhibition of proliferation of human cardiac fibroblasts, modulation of apoptosis, and extracellular matrix expression. In vitro findings were confirmed in vivo with an angiotensin II-mediated murine model of cardiac fibrosis in both preventive and therapeutic settings, as well as in the Dahl salt-sensitive rat model. To investigate the mechanism underlying the antifibrotic potential of the lead compounds, treatment-dependent changes in the noncoding RNAome in primary human cardiac fibroblasts were analyzed by RNA deep sequencing. Results: High-Throughput natural compound library screening identified 15 substances with antiproliferative effects in human cardiac fibroblasts. Using multiple in vitro fibrosis assays and stringent selection algorithms, we identified the steroid bufalin (from Chinese toad venom) and the alkaloid lycorine (from Amaryllidaceae species) to be effective antifibrotic molecules both in vitro and in vivo, leading to improvement in diastolic function in 2 hypertension-dependent rodent models of cardiac fibrosis. Administration at effective doses did not change plasma damage markers or the morphology of kidney and liver, providing the first toxicological safety data. Using next-generation sequencing, we identified the conserved microRNA 671-5p and downstream the antifibrotic selenoprotein P1 as common effectors of the antifibrotic compounds. Conclusions: We identified the molecules bufalin and lycorine as drug candidates for therapeutic applications in cardiac fibrosis and diastolic dysfunction.",

keywords = "diastole, fibrosis, hypertension, microRNAs",

author = "Katharina Schimmel and Mira Jung and Ariana Foinquinos and Jos{\'e}, \{Gorka San\} and Javier Beaumont and Katharina Bock and Lea Grote-Levi and Ke Xiao and Christian B{\"a}r and Angelika Pfanne and Annette Just and Karina Zimmer and Soeun Ngoy and Bego{\~n}a L{\'o}pez and Susana Ravassa and Sabine Samolovac and Heike Janssen-Peters and Janet Remke and Kristian Scherf and Seema Dangwal and Piccoli, \{Maria Teresa\} and Felix Kleemiss and Kreutzer, \{Fabian Philipp\} and Franziska Kenneweg and Julia Leonardy and Lisa Hobu{\ss} and Laura Santer and Do, \{Quoc Tuan\} and Robert Geffers and Braesen, \{Jan Hinrich\} and Jessica Schmitz and Christina Brandenberger and M{\"u}ller, \{Dominik N.\} and Nicola Wilck and Volkhard Kaever and Heike B{\"a}hre and Sandor Batkai and Jan Fiedler and Alexander, \{Kevin M.\} and Wertheim, \{Bradley M.\} and Sudeshna Fisch and Ronglih Liao and Javier Diez and Arantxa Gonz{\'a}lez and Thomas Thum",

year = "2020",

month = mar,

day = "3",

doi = "10.1161/CIRCULATIONAHA.119.042559",

language = "English (US)",

volume = "141",

pages = "751--767",

journal = "Circulation",

issn = "0009-7322",

publisher = "Lippincott Williams and Wilkins",

number = "9",

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TY - JOUR

T1 - Natural Compound Library Screening Identifies New Molecules for the Treatment of Cardiac Fibrosis and Diastolic Dysfunction

AU - Schimmel, Katharina

AU - Jung, Mira

AU - Foinquinos, Ariana

AU - José, Gorka San

AU - Beaumont, Javier

AU - Bock, Katharina

AU - Grote-Levi, Lea

AU - Xiao, Ke

AU - Bär, Christian

AU - Pfanne, Angelika

AU - Just, Annette

AU - Zimmer, Karina

AU - Ngoy, Soeun

AU - López, Begoña

AU - Ravassa, Susana

AU - Samolovac, Sabine

AU - Janssen-Peters, Heike

AU - Remke, Janet

AU - Scherf, Kristian

AU - Dangwal, Seema

AU - Piccoli, Maria Teresa

AU - Kleemiss, Felix

AU - Kreutzer, Fabian Philipp

AU - Kenneweg, Franziska

AU - Leonardy, Julia

AU - Hobuß, Lisa

AU - Santer, Laura

AU - Do, Quoc Tuan

AU - Geffers, Robert

AU - Braesen, Jan Hinrich

AU - Schmitz, Jessica

AU - Brandenberger, Christina

AU - Müller, Dominik N.

AU - Wilck, Nicola

AU - Kaever, Volkhard

AU - Bähre, Heike

AU - Batkai, Sandor

AU - Fiedler, Jan

AU - Alexander, Kevin M.

AU - Wertheim, Bradley M.

AU - Fisch, Sudeshna

AU - Liao, Ronglih

AU - Diez, Javier

AU - González, Arantxa

AU - Thum, Thomas

PY - 2020/3/3

Y1 - 2020/3/3

N2 - Background: Myocardial fibrosis is a hallmark of cardiac remodeling and functionally involved in heart failure development, a leading cause of deaths worldwide. Clinically, no therapeutic strategy is available that specifically attenuates maladaptive responses of cardiac fibroblasts, the effector cells of fibrosis in the heart. Therefore, our aim was to develop novel antifibrotic therapeutics based on naturally derived substance library screens for the treatment of cardiac fibrosis. Methods: Antifibrotic drug candidates were identified by functional screening of 480 chemically diverse natural compounds in primary human cardiac fibroblasts, subsequent validation, and mechanistic in vitro and in vivo studies. Hits were analyzed for dose-dependent inhibition of proliferation of human cardiac fibroblasts, modulation of apoptosis, and extracellular matrix expression. In vitro findings were confirmed in vivo with an angiotensin II-mediated murine model of cardiac fibrosis in both preventive and therapeutic settings, as well as in the Dahl salt-sensitive rat model. To investigate the mechanism underlying the antifibrotic potential of the lead compounds, treatment-dependent changes in the noncoding RNAome in primary human cardiac fibroblasts were analyzed by RNA deep sequencing. Results: High-Throughput natural compound library screening identified 15 substances with antiproliferative effects in human cardiac fibroblasts. Using multiple in vitro fibrosis assays and stringent selection algorithms, we identified the steroid bufalin (from Chinese toad venom) and the alkaloid lycorine (from Amaryllidaceae species) to be effective antifibrotic molecules both in vitro and in vivo, leading to improvement in diastolic function in 2 hypertension-dependent rodent models of cardiac fibrosis. Administration at effective doses did not change plasma damage markers or the morphology of kidney and liver, providing the first toxicological safety data. Using next-generation sequencing, we identified the conserved microRNA 671-5p and downstream the antifibrotic selenoprotein P1 as common effectors of the antifibrotic compounds. Conclusions: We identified the molecules bufalin and lycorine as drug candidates for therapeutic applications in cardiac fibrosis and diastolic dysfunction.

AB - Background: Myocardial fibrosis is a hallmark of cardiac remodeling and functionally involved in heart failure development, a leading cause of deaths worldwide. Clinically, no therapeutic strategy is available that specifically attenuates maladaptive responses of cardiac fibroblasts, the effector cells of fibrosis in the heart. Therefore, our aim was to develop novel antifibrotic therapeutics based on naturally derived substance library screens for the treatment of cardiac fibrosis. Methods: Antifibrotic drug candidates were identified by functional screening of 480 chemically diverse natural compounds in primary human cardiac fibroblasts, subsequent validation, and mechanistic in vitro and in vivo studies. Hits were analyzed for dose-dependent inhibition of proliferation of human cardiac fibroblasts, modulation of apoptosis, and extracellular matrix expression. In vitro findings were confirmed in vivo with an angiotensin II-mediated murine model of cardiac fibrosis in both preventive and therapeutic settings, as well as in the Dahl salt-sensitive rat model. To investigate the mechanism underlying the antifibrotic potential of the lead compounds, treatment-dependent changes in the noncoding RNAome in primary human cardiac fibroblasts were analyzed by RNA deep sequencing. Results: High-Throughput natural compound library screening identified 15 substances with antiproliferative effects in human cardiac fibroblasts. Using multiple in vitro fibrosis assays and stringent selection algorithms, we identified the steroid bufalin (from Chinese toad venom) and the alkaloid lycorine (from Amaryllidaceae species) to be effective antifibrotic molecules both in vitro and in vivo, leading to improvement in diastolic function in 2 hypertension-dependent rodent models of cardiac fibrosis. Administration at effective doses did not change plasma damage markers or the morphology of kidney and liver, providing the first toxicological safety data. Using next-generation sequencing, we identified the conserved microRNA 671-5p and downstream the antifibrotic selenoprotein P1 as common effectors of the antifibrotic compounds. Conclusions: We identified the molecules bufalin and lycorine as drug candidates for therapeutic applications in cardiac fibrosis and diastolic dysfunction.

KW - diastole

KW - fibrosis

KW - hypertension

KW - microRNAs

UR - https://www.scopus.com/pages/publications/85081136695

UR - https://www.scopus.com/pages/publications/85081136695#tab=citedBy

U2 - 10.1161/CIRCULATIONAHA.119.042559

DO - 10.1161/CIRCULATIONAHA.119.042559

M3 - Article

C2 - 31948273

AN - SCOPUS:85081136695

SN - 0009-7322

VL - 141

SP - 751

EP - 767

JO - Circulation

JF - Circulation

IS - 9

ER -

Natural Compound Library Screening Identifies New Molecules for the Treatment of Cardiac Fibrosis and Diastolic Dysfunction

Abstract

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