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Cardiomyocyte BRAF and type 1 RAF inhibitors promote cardiomyocyte and cardiac hypertrophy in mice in vivo

Cardiomyocyte BRAF and type 1 RAF inhibitors promote cardiomyocyte and cardiac hypertrophy in mice in vivo
Cardiomyocyte BRAF and type 1 RAF inhibitors promote cardiomyocyte and cardiac hypertrophy in mice in vivo
The extracellular signal-regulated kinase 1/2 (ERK1/2) cascade promotes cardiomyocyte hypertrophy and is cardioprotective, with the three RAF kinases forming a node for signal integration. Our aims were to determine if BRAF is relevant for human heart failure, whether BRAF promotes cardiomyocyte hypertrophy, and if Type 1 RAF inhibitors developed for cancer (that paradoxically activate ERK1/2 at low concentrations: the ‘RAF paradox') may have the same effect. BRAF was up-regulated in heart samples from patients with heart failure compared with normal controls. We assessed the effects of activated BRAF in the heart using mice with tamoxifen-activated Cre for cardiomyocyte-specific knock-in of the activating V600E mutation into the endogenous gene. We used echocardiography to measure cardiac dimensions/function. Cardiomyocyte BRAFV600E induced cardiac hypertrophy within 10 d, resulting in increased ejection fraction and fractional shortening over 6 weeks. This was associated with increased cardiomyocyte size without significant fibrosis, consistent with compensated hypertrophy. The experimental Type 1 RAF inhibitor, SB590885, and/or encorafenib (a RAF inhibitor used clinically) increased ERK1/2 phosphorylation in cardiomyocytes, and promoted hypertrophy, consistent with a ‘RAF paradox' effect. Both promoted cardiac hypertrophy in mouse hearts in vivo, with increased cardiomyocyte size and no overt fibrosis. In conclusion, BRAF potentially plays an important role in human failing hearts, activation of BRAF is sufficient to induce hypertrophy, and Type 1 RAF inhibitors promote hypertrophy via the ‘RAF paradox'. Cardiac hypertrophy resulting from these interventions was not associated with pathological features, suggesting that Type 1 RAF inhibitors may be useful to boost cardiomyocyte function.
1470-8728
Clerk, A
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Meijles, D
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Hardyman, M
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Fuller, S
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Chothani, S
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Cull, J
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Cooper, S
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Alharbi, H
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Vanezis, K
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Felkin, L
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Markou, T
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Leonard, S
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Shaw, S
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Rackham, O
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Sugden, P
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Clerk, A
03680e92-783f-4dae-9752-0e0fec7eccd3
Meijles, D
1538ded9-7535-46c5-8349-66f7ad86f428
Hardyman, M
4a753e1e-a954-4789-ada4-086b4d0ff306
Fuller, S
fc6af72b-1db5-4b6b-85d4-12ed80448889
Chothani, S
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Cull, J
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Cooper, S
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Alharbi, H
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Vanezis, K
8fda99b7-4b7d-4e2d-89f4-f1dabbd42a71
Felkin, L
5324f950-1234-4c33-85d2-6d7be8555ee3
Markou, T
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Leonard, S
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Shaw, S
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Rackham, O
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Sugden, P
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Clerk, A, Meijles, D, Hardyman, M, Fuller, S, Chothani, S, Cull, J, Cooper, S, Alharbi, H, Vanezis, K, Felkin, L, Markou, T, Leonard, S, Shaw, S, Rackham, O and Sugden, P (2021) Cardiomyocyte BRAF and type 1 RAF inhibitors promote cardiomyocyte and cardiac hypertrophy in mice in vivo. Biochemical Journal, 428. (doi:10.1101/2021.08.14.455637).

Record type: Article

Abstract

The extracellular signal-regulated kinase 1/2 (ERK1/2) cascade promotes cardiomyocyte hypertrophy and is cardioprotective, with the three RAF kinases forming a node for signal integration. Our aims were to determine if BRAF is relevant for human heart failure, whether BRAF promotes cardiomyocyte hypertrophy, and if Type 1 RAF inhibitors developed for cancer (that paradoxically activate ERK1/2 at low concentrations: the ‘RAF paradox') may have the same effect. BRAF was up-regulated in heart samples from patients with heart failure compared with normal controls. We assessed the effects of activated BRAF in the heart using mice with tamoxifen-activated Cre for cardiomyocyte-specific knock-in of the activating V600E mutation into the endogenous gene. We used echocardiography to measure cardiac dimensions/function. Cardiomyocyte BRAFV600E induced cardiac hypertrophy within 10 d, resulting in increased ejection fraction and fractional shortening over 6 weeks. This was associated with increased cardiomyocyte size without significant fibrosis, consistent with compensated hypertrophy. The experimental Type 1 RAF inhibitor, SB590885, and/or encorafenib (a RAF inhibitor used clinically) increased ERK1/2 phosphorylation in cardiomyocytes, and promoted hypertrophy, consistent with a ‘RAF paradox' effect. Both promoted cardiac hypertrophy in mouse hearts in vivo, with increased cardiomyocyte size and no overt fibrosis. In conclusion, BRAF potentially plays an important role in human failing hearts, activation of BRAF is sufficient to induce hypertrophy, and Type 1 RAF inhibitors promote hypertrophy via the ‘RAF paradox'. Cardiac hypertrophy resulting from these interventions was not associated with pathological features, suggesting that Type 1 RAF inhibitors may be useful to boost cardiomyocyte function.

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Published date: August 2021
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Identifiers

Local EPrints ID: 501432
URI: http://eprints.soton.ac.uk/id/eprint/501432
DOI: doi:10.1101/2021.08.14.455637
ISSN: 1470-8728
PURE UUID: e96e49b6-9f48-454c-878e-af34e2bc0db4
ORCID for O Rackham: ORCID iD orcid.org/0000-0002-4390-0872

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Date deposited: 30 May 2025 17:00
Last modified: 03 Jun 2025 02:03

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Contributors

Author: A Clerk
Author: D Meijles
Author: M Hardyman
Author: S Fuller
Author: S Chothani
Author: J Cull
Author: S Cooper
Author: H Alharbi
Author: K Vanezis
Author: L Felkin
Author: T Markou
Author: S Leonard
Author: S Shaw
Author: O Rackham ORCID iD
Author: P Sugden

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