Inhibition of Mitofusin-2 Promotes Cardiac Fibroblast Activation via the PERKATF4 Pathway and Reactive Oxygen Species

الملخص EN

Mitofusin-2 (Mfn2) is a key outer mitochondrial membrane protein, which maintains normal mitochondrial dynamics and function.

However, its role in cardiac fibroblast activation remains poorly understood.

In the present study, a rat model of transverse aortic constriction (TAC) was established to observe the cardiac fibroblast activation in vivo.

TGF-β1 treatment for 24 hours was used to induce cardiac fibroblast activation in vitro.

As a result, the expression of Mfn2 decreased in the hypertrophic heart tissues and cardiac fibroblasts treated with TGF-β1.

siMfn2 and adenovirus were applied to mediate Mfn2 gene silencing and overexpression in cardiac fibroblasts to elucidate the relationship between Mfn2 and cardiac fibroblast activation, as well as the possible underlying mechanisms.

Knockdown of Mfn2 further promoted TGF-β1-induced cardiac fibroblast activation, while forced expression of Mfn2 attenuated this pathological reaction.

The PERK/ATF4 pathway, one of the branches of endoplasmic reticulum (ER) stress, was identified to be involved in this process.

Knockdown and overexpression of Mfn2 lead to aggravation or alleviation of the PERK/ATF4 pathway.

Blocking this pathway by silencing ATF4 with siATF4 attenuated the pathological process.

During the activation of cardiac fibroblasts, knockdown of Mfn2 also increased the production of reactive oxygen species (ROS), while ROS scavenger N-acetyl-l-cysteine (NAC) could attenuate the effect caused by knockdown of Mfn2.

Our data suggested that inhibition of Mfn2 could promote cardiac fibroblast activation by activating the PERK/ATF4 signaling pathway and increasing the generation of ROS.