The study shows that a tiny protein called humanin can protect mouse hearts from damage after a heart attack by helping certain blood‑vessel cells stay healthy, and it does this by turning on a cell‑clean‑up process called BNIP3‑mediated mitophagy. However, the work was done only in cells and mice, with no human trials or dosing info, so it’s not yet something you can try yourself.

Acute myocardial infarction (AMI) ranks among the top contributors to sudden death and disability worldwide. It should be noted that current therapies always cause increased reperfusion damage. Evidence suggests that humanin (HN) reduces mitochondrial dysfunction to have cardio-protective effects against MI-reperfusion injury. In this context, we hypothesized that HN may attenuate MI-reperfusion injury by alleviating lymphatic endothelial cells dysfunction through the regulation of&#xa0;mitophagy. In this study, primary lymphatic endothelial cells were selected as the experimental model. Cells were maintained under 1% O₂ to induce a hypoxic phenotype. For <i>in vivo</i> experiments, the left coronary arteries of C57/BL6 mice were clamped for 45&#x2009;min followed by 24&#x2009;h reperfusion to develop MI-reperfusion injury. The volume of infarcted myocardium in MI-reperfusion injury mouse models were TTC staining. PCR and western blot were used to quantify the expression of autophagy-, mitophagy- and mitochondria-related markers. The fibrosis and apoptosis in the ischemic area were evaluated for Masson staining and TUNEL respectively. We also used western blot to analyze the expression of VE-Cadherin in lymphatic endothelial cells. We firstly exhibited a specific mechanism by which HN mitigates MI-reperfusion injury. We demonstrated that HN effectively reduces such injury <i>in vivo</i> and also inhibits dysfunction in lymphatic endothelial cells <i>in vitro</i>. Importantly, this inhibitory effect is mediated through BNIP3-associated mitophagy. In conclusion, HN alleviates myocardial infarction-reperfusion injury by inhibiting lymphatic endothelial cells dysfunction, primarily through BNIP3-mediated mitophagy.