Abstract

Abstract Aims Adult mammals, including humans, fail to regenerate the majority of the lost cardiomyocytes (CMs) that are replaced with scar tissue after injury. This lack of regenerative response is due to the loss of proliferative capacity of adult CMs which in mice occurs 7 days after birth. An in vitro model that recapitulates these changes has not been developed yet. Using rat engineered heart tissues (rEHTs) we have developed a custom-made cryoinjury system to test the hypothesis that maturation of CMs in EHTs regulates the proliferative response of CMs after injury. Methods rEHT were generated using neonatal rat heart cells. A discrete lesion was produced on the mid-section of mature (Day 18) and immature (Day 6) EHTs using a custom-made system based on liquid nitrogen and a 23G needle and medium was supplemented with EdU for 48 h. Results Cryoinjury in mature EHTs produces a localized injury, preserving their residual contractile activity that does not recover over time. We observed a significant increase of EdU+CMs post injury (6.3 ± 1.9% vs. 10.1 ± 1.6%) without significant changes in Ki67+ and pH3+ CMs suggesting that cryoinjury in mature rEHTs induces DNA synthesis but not CM proliferation. Injury in mature EHTs induced also significant proliferation and activation of fibroblasts with collagen deposition. Interestingly, cryoinjury performed in immature EHTs stimulated a significant proliferative response in CMs Conclusions Similar to adult rodents, we show that cryoinjury induces DNA synthesis in CMs without proliferative response and contractile recovery. On the other hand, cryoinjury in immature EHTs leads to CMs proliferation. Moreover, mature EHT fibroblast response to injury retraces the activation progression of cardiac fibroblast after infarction characterized by proliferation, increase of activation markers, increase of collagen deposition suggesting EHTs as a novel model to investigate the biology of cardiac regeneration upon injury.

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