Cold and hot fibrosis define clinically distinct cardiac pathologies

Shoval Miyara; Miri Adler; Kfir B. Umansky; Daniel Häußler; Elad Bassat; Yalin Divinsky; Jacob Elkahal; David Kain; Daria Lendengolts; Ricardo O. Ramirez Flores; Hanna Bueno-Levy; Ofra Golani; Tali Shalit; Michael Gershovits; Eviatar Weizman; Alexander Genzelinakh; Danielle M. Kimchi; Avraham Shakked; Lingling Zhang; Jingkui Wang; Andrea Baehr; Zachary Petrover; Rachel Sarig; Tatjana Dorn; Alessandra Moretti; Julio Saez-Rodriguez; Christian Kupatt; Elly M. Tanaka; Ruslan Medzhitov; Achim Krüger; Avi Mayo; Uri Alon; Eldad Tzahor

doi:10.1016/j.cels.2025.101198

Cold and hot fibrosis define clinically distinct cardiac pathologies

Shoval Miyara, Miri Adler, Kfir B. Umansky, Daniel Häußler, Elad Bassat, Yalin Divinsky, Jacob Elkahal, David Kain, Daria Lendengolts, Ricardo O. Ramirez Flores, Hanna Bueno-Levy, Ofra Golani, Tali Shalit, Michael Gershovits, Eviatar Weizman, Alexander Genzelinakh, Danielle M. Kimchi, Avraham Shakked, Lingling Zhang, Jingkui WangAndrea Baehr, Zachary Petrover, Rachel Sarig, Tatjana Dorn, Alessandra Moretti, Julio Saez-Rodriguez, Christian Kupatt, Elly M. Tanaka, Ruslan Medzhitov, Achim Krüger, Avi Mayo, Uri Alon^*, Eldad Tzahor^*

^*Corresponding author for this work

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

Abstract

Fibrosis remains a major unmet medical need. Simplifying principles are needed to better understand fibrosis and to yield new therapeutic approaches. Fibrosis is driven by myofibroblasts that interact with macrophages. A mathematical cell-circuit model predicts two types of fibrosis: hot fibrosis driven by macrophages and myofibroblasts and cold fibrosis driven by myofibroblasts alone. Testing these concepts in cardiac fibrosis resulting from myocardial infarction (MI) and heart failure (HF), we revealed that acute MI leads to cold fibrosis whereas chronic injury (HF) leads to hot fibrosis. MI-driven cold fibrosis is conserved in pigs and humans. We computationally identified a vulnerability of cold fibrosis: the myofibroblast autocrine growth factor loop. Inhibiting this loop by targeting TIMP1 with neutralizing antibodies reduced myofibroblast proliferation and fibrosis post-MI in mice. Our study demonstrates the utility of the concepts of hot and cold fibrosis and the feasibility of a circuit-to-target approach to pinpoint a treatment strategy that reduces fibrosis. A record of this paper's transparent peer review process is included in the supplemental information.

Original language	English
Article number	101198
Journal	Cell Systems
Volume	16
Issue number	3
DOIs	https://doi.org/10.1016/j.cels.2025.101198
State	Published - 19 Mar 2025
Externally published	Yes

Bibliographical note

Publisher Copyright:
© 2025 The Author(s)

Keywords

autocrine loop
cold fibrosis
fibrosis
heart failure
hot fibrosis
macrophage
myocardial infarction
myofibroblast
regeneration
TIMP1

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10.1016/j.cels.2025.101198

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Miyara, S., Adler, M., Umansky, K. B., Häußler, D., Bassat, E., Divinsky, Y., Elkahal, J., Kain, D., Lendengolts, D., Ramirez Flores, R. O., Bueno-Levy, H., Golani, O., Shalit, T., Gershovits, M., Weizman, E., Genzelinakh, A., Kimchi, D. M., Shakked, A., Zhang, L., ... Tzahor, E. (2025). Cold and hot fibrosis define clinically distinct cardiac pathologies. Cell Systems, 16(3), Article 101198. https://doi.org/10.1016/j.cels.2025.101198

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title = "Cold and hot fibrosis define clinically distinct cardiac pathologies",

abstract = "Fibrosis remains a major unmet medical need. Simplifying principles are needed to better understand fibrosis and to yield new therapeutic approaches. Fibrosis is driven by myofibroblasts that interact with macrophages. A mathematical cell-circuit model predicts two types of fibrosis: hot fibrosis driven by macrophages and myofibroblasts and cold fibrosis driven by myofibroblasts alone. Testing these concepts in cardiac fibrosis resulting from myocardial infarction (MI) and heart failure (HF), we revealed that acute MI leads to cold fibrosis whereas chronic injury (HF) leads to hot fibrosis. MI-driven cold fibrosis is conserved in pigs and humans. We computationally identified a vulnerability of cold fibrosis: the myofibroblast autocrine growth factor loop. Inhibiting this loop by targeting TIMP1 with neutralizing antibodies reduced myofibroblast proliferation and fibrosis post-MI in mice. Our study demonstrates the utility of the concepts of hot and cold fibrosis and the feasibility of a circuit-to-target approach to pinpoint a treatment strategy that reduces fibrosis. A record of this paper's transparent peer review process is included in the supplemental information.",

keywords = "autocrine loop, cold fibrosis, fibrosis, heart failure, hot fibrosis, macrophage, myocardial infarction, myofibroblast, regeneration, TIMP1",

author = "Shoval Miyara and Miri Adler and Umansky, {Kfir B.} and Daniel H{\"a}u{\ss}ler and Elad Bassat and Yalin Divinsky and Jacob Elkahal and David Kain and Daria Lendengolts and {Ramirez Flores}, {Ricardo O.} and Hanna Bueno-Levy and Ofra Golani and Tali Shalit and Michael Gershovits and Eviatar Weizman and Alexander Genzelinakh and Kimchi, {Danielle M.} and Avraham Shakked and Lingling Zhang and Jingkui Wang and Andrea Baehr and Zachary Petrover and Rachel Sarig and Tatjana Dorn and Alessandra Moretti and Julio Saez-Rodriguez and Christian Kupatt and Tanaka, {Elly M.} and Ruslan Medzhitov and Achim Kr{\"u}ger and Avi Mayo and Uri Alon and Eldad Tzahor",

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year = "2025",

month = mar,

day = "19",

doi = "10.1016/j.cels.2025.101198",

language = "אנגלית",

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Miyara, S, Adler, M, Umansky, KB, Häußler, D, Bassat, E, Divinsky, Y, Elkahal, J, Kain, D, Lendengolts, D, Ramirez Flores, RO, Bueno-Levy, H, Golani, O, Shalit, T, Gershovits, M, Weizman, E, Genzelinakh, A, Kimchi, DM, Shakked, A, Zhang, L, Wang, J, Baehr, A, Petrover, Z, Sarig, R, Dorn, T, Moretti, A, Saez-Rodriguez, J, Kupatt, C, Tanaka, EM, Medzhitov, R, Krüger, A, Mayo, A, Alon, U & Tzahor, E 2025, 'Cold and hot fibrosis define clinically distinct cardiac pathologies', Cell Systems, vol. 16, no. 3, 101198. https://doi.org/10.1016/j.cels.2025.101198

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AU - Miyara, Shoval

AU - Adler, Miri

AU - Umansky, Kfir B.

AU - Häußler, Daniel

AU - Bassat, Elad

AU - Divinsky, Yalin

AU - Elkahal, Jacob

AU - Kain, David

AU - Lendengolts, Daria

AU - Ramirez Flores, Ricardo O.

AU - Bueno-Levy, Hanna

AU - Golani, Ofra

AU - Shalit, Tali

AU - Gershovits, Michael

AU - Weizman, Eviatar

AU - Genzelinakh, Alexander

AU - Kimchi, Danielle M.

AU - Shakked, Avraham

AU - Zhang, Lingling

AU - Wang, Jingkui

AU - Baehr, Andrea

AU - Petrover, Zachary

AU - Sarig, Rachel

AU - Dorn, Tatjana

AU - Moretti, Alessandra

AU - Saez-Rodriguez, Julio

AU - Kupatt, Christian

AU - Tanaka, Elly M.

AU - Medzhitov, Ruslan

AU - Krüger, Achim

AU - Mayo, Avi

AU - Alon, Uri

AU - Tzahor, Eldad

PY - 2025/3/19

Y1 - 2025/3/19

N2 - Fibrosis remains a major unmet medical need. Simplifying principles are needed to better understand fibrosis and to yield new therapeutic approaches. Fibrosis is driven by myofibroblasts that interact with macrophages. A mathematical cell-circuit model predicts two types of fibrosis: hot fibrosis driven by macrophages and myofibroblasts and cold fibrosis driven by myofibroblasts alone. Testing these concepts in cardiac fibrosis resulting from myocardial infarction (MI) and heart failure (HF), we revealed that acute MI leads to cold fibrosis whereas chronic injury (HF) leads to hot fibrosis. MI-driven cold fibrosis is conserved in pigs and humans. We computationally identified a vulnerability of cold fibrosis: the myofibroblast autocrine growth factor loop. Inhibiting this loop by targeting TIMP1 with neutralizing antibodies reduced myofibroblast proliferation and fibrosis post-MI in mice. Our study demonstrates the utility of the concepts of hot and cold fibrosis and the feasibility of a circuit-to-target approach to pinpoint a treatment strategy that reduces fibrosis. A record of this paper's transparent peer review process is included in the supplemental information.

AB - Fibrosis remains a major unmet medical need. Simplifying principles are needed to better understand fibrosis and to yield new therapeutic approaches. Fibrosis is driven by myofibroblasts that interact with macrophages. A mathematical cell-circuit model predicts two types of fibrosis: hot fibrosis driven by macrophages and myofibroblasts and cold fibrosis driven by myofibroblasts alone. Testing these concepts in cardiac fibrosis resulting from myocardial infarction (MI) and heart failure (HF), we revealed that acute MI leads to cold fibrosis whereas chronic injury (HF) leads to hot fibrosis. MI-driven cold fibrosis is conserved in pigs and humans. We computationally identified a vulnerability of cold fibrosis: the myofibroblast autocrine growth factor loop. Inhibiting this loop by targeting TIMP1 with neutralizing antibodies reduced myofibroblast proliferation and fibrosis post-MI in mice. Our study demonstrates the utility of the concepts of hot and cold fibrosis and the feasibility of a circuit-to-target approach to pinpoint a treatment strategy that reduces fibrosis. A record of this paper's transparent peer review process is included in the supplemental information.

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KW - cold fibrosis

KW - fibrosis

KW - heart failure

KW - hot fibrosis

KW - macrophage

KW - myocardial infarction

KW - myofibroblast

KW - regeneration

KW - TIMP1

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JO - Cell Systems

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M1 - 101198

ER -

Cold and hot fibrosis define clinically distinct cardiac pathologies

Abstract

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Keywords

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