Accumulation of acylcarnitines and mitochondrial dysfunction characterize the loss of neonatal myocardial regeneration capacity
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ABSTRACT: Myocardial regeneration capacity declines during the first week after birth and is linked to the adaptation to oxidative metabolism. Utilizing this regenerative window, we characterized the metabolic changes in myocardial injury in 1-day-old regeneration-competent and 7-day-old regeneration-compromised mice. The mice were either sham-operated or received left anterior descending coronary artery ligation, to induce myocardial infarction (MI) and acute ischemic heart failure. Myocardial tissue samples were collected after 21 days for metabolomics, transcriptomics and proteomics analyses. Phenotypic characterizations were carried out using echocardiography, histology as well as mitochondrial structural and functional measurements. By integrating the findings from metabolome and transcriptome examinations, we identified mitochondrial dysfunction at the level of the carnitine shuttle contributing to myocardial regeneration incompetence. Regeneration failure was linked to accumulation of acylcarnitines and insufficient metabolic capacity for fatty acid beta-oxidation. We further identified specific transcription factors and post-transcriptional regulation contributing to both regeneration competence and failure. Rather than shifting from the preferred myocardial oxidative fuel source, our results put forward the facilitation of mitochondrial fatty acid transport and improving the beta- oxidation pathway to overcome the metabolic barriers for repair and regeneration in adult mammals after MI and heart failure.
INSTRUMENT(S): MALDI Synapt G2-S HDMS
ORGANISM(S): Mus Musculus (ncbitaxon:10090)
SUBMITTER: Esko Kankuri Maciej Lalowski
PROVIDER: MSV000088783 | MassIVE | Fri Feb 04 09:43:00 GMT 2022
SECONDARY ACCESSION(S): PXD031436
REPOSITORIES: MassIVE
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