Complete cardiac regeneration in a mouse model of myocardial infarction

Bernhard Johannes Haubner, Martyna Adamowicz-Brice, Sanjay Khadayate, Viktoria Tiefenthaler, Bernhard Metzler, Tim Aitman*, Josef M. Penninger

*Corresponding author for this work

Research output: Contribution to journalArticlepeer-review

Abstract / Description of output

Cardiac remodeling and subsequent heart failure remain critical issues after myocardial infarction despite improved treatment and reperfusion strategies. Recently, complete cardiac regeneration has been demonstrated in fish and newborn mice following resection of the cardiac apex. However, it remained entirely unclear whether the mammalian heart can also completely regenerate following a complex cardiac ischemic injury. We established a protocol to induce a severe heart attack in one-day-old mice using left anterior descending artery (LAD) ligation. LAD ligation triggered substantial cardiac injury in the left ventricle defined by Caspase 3 activation and massive cell death. Ischemia-induced cardiomyocyte death was also visible on day 4 after LAD ligation. Remarkably, 7 days after the initial ischemic insult, we observed complete cardiac regeneration without any signs of tissue damage or scarring. This tissue regeneration translated into long-term normal heart functions as assessed by echocardiography. In contrast, LAD ligations in 7-day-old mice resulted in extensive scarring comparable to adult mice, indicating that the regenerative capacity for complete cardiac healing after heart attacks can be traced to the first week after birth. RNAseq analyses of hearts on day 1, day 3, and day 10 and comparing LAD-ligated and sham-operated mice surprisingly revealed a transcriptional programme of major changes in genes mediating mitosis and cell division between days 1, 3 and 10 postnatally and a very limited set of genes, including genes regulating cell cycle and extracellular matrix synthesis, being differentially regulated in the regenerating hearts. We present for the first time a mammalian model of complete cardiac regeneration following a severe ischemic cardiac injury. This novel model system provides the unique opportunity to uncover molecular and cellular pathways that can induce cardiac regeneration after ischemic injury, findings that one day could be translated to human heart attack patients.

Original languageEnglish
Pages (from-to)966-977
Number of pages12
JournalAging
Volume4
Issue number12
Publication statusPublished - Dec 2012

Keywords / Materials (for Non-textual outputs)

  • Heart regeneration
  • cell cycle
  • heart disease
  • ZEBRAFISH HEART REGENERATION
  • IN-VIVO
  • EXPRESSION ANALYSIS
  • ISCHEMIC-HEART
  • STEM-CELLS
  • RNA-SEQ
  • BIOLOGY
  • GENE
  • CARDIOMYOCYTES
  • DISEASE

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