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Deregulation of m6A-RNA methylation impairs adaptive hypertrophic response and drives maladaptation via mTORC1-S6K1-hyperactivation and autophagy impairment.
Cell Commun. Signal. 23:522 (2025)
BackgroundPressure
overload first leads to compensated hypertrophy and secondary to heart
failure. m6A-RNA methylation is a fast process for the adaptation of
cell composition. m6A-RNA-methylation is regulated by the demethylase,
fat mass and obesity-associated protein (FTO), and FTO protein
levels are diminished in heart failure. Cardiomyocyte-specific
FTO-transgenic/knockout-mice have shown the relevance of FTO in pressure
overload remodeling. However, its functional downstream regulatory
mechanisms are still unclear. In this study, we discover the harmful
signaling pathways that are triggered by m6A imbalance and FTO loss,
which eventually lead to adverse cardiac remodeling and heart failure.MethodsFTOcKO animals were generated by crossing FTOfl/fl mice with -MHC
Cre mice using Cre-lox system. Control and the FTOcKO animals groups
were subjected to TAC (transverse aortic constriction) surgery.
Echocardiography was performed 1-week post-TAC surgery. MeRIP (m6A RNA
immunoprecipitation) sequencing was performed from the heart tissues of
mice after one week TAC surgery. Additionally, the mechanistical
interrelation between the signaling pathways during FTO loss and adverse
cardiac remodeling were investigated in human iPS-CMs (hiPS-CMs).ResultsOne week post-TAC surgery, FTOcKO mice showed impaired cardiac function (EF: CreC TAC (45%) vs. FTOcKO TAC (25%), p < 0.0001) and increased LVID (CreC TAC(3.9 mm) vs. FTOcKO TAC (4.8 mm), p < 0.0001),
indicating a lack of adaption to pressure overload. Knockdown of FTO in
hiPS-cardiomyocytes also reduced endothelin-induced hypertrophic
response.MeRIP-seq data of FTOcKO mice showed that the
differentially hypermethylated transcripts were associated with cardiac
apoptosis inhibition (CDK1, CFLAR), mTORC1 signaling pathway (AKT1S1)
and autophagy regulation (TFEB). mTORC1 was identified as a central
player of dysregulation with hyperactivation of its canonical substrates
phospho-S6K1 (Thr 389) and phospho-S6 (ser235/236) ex-vivo (FTOcKO) and
in-vitro (FTO-KD-hiPS-CMs).Moreover, FTO-deficient
cardiomyocytes cause autophagic flux impairment and defective autophagy.
The effect of atrophy and induced apoptosis upon FTO-m6A imbalance
could be rescued by pharmacological inhibiton of the mTORC1-S6K1
pathway.ConclusionsDownregulation
of FTO leads to mTORC1-S6K1 hyperactivation that shift the compensative
hypertrophic response to atrophy and apoptosis leading to progressive
heart failure. These findings might pave the way for the development of
novel therapeutic targets for the early phases of heart failure
treatments.
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Publication type
Article: Journal article
Document type
Scientific Article
Keywords
Apoptosis ; Atrophy ; Cardiac Hypertrophy ; Mouse ; N6-methyladenosine ; Pathological Remodeling
ISSN (print) / ISBN
1478-811X
e-ISSN
1478-811X
Journal
Cell Communication and Signaling
Quellenangaben
Volume: 23,
Issue: 1,
Article Number: 522
Reviewing status
Peer reviewed
Institute(s)
Institute of Diabetes and Cancer (IDC)