The Alexander Disease Protein GFAP Drives Mitochondrial Fission
biorxiv(2024)
摘要
Mitochondrial plasticity, coordinated by fission and fusion, is crucial to ensure cellular functions. Mitochondrial fission is mediated by the GTPase Drp1 at the constriction site, which is proposed to be driven by the actin-myosin contractile force. However, the mechanism that propels constriction remains unclear, and the potential involvement of additional mechanisms in this process remains an open question. Here, using structured illumination microscopy and electron microscopy, we show that the type-III intermediate filament glial fibrillary acidic protein (GFAP) closely surrounds mitochondria fission sites and associates with accumulated Drp1 molecules. Remarkably, loss of GFAP results in hyperfused mitochondria under physiological condition and even Ca2+-induced mitochondrial fission. Additionally, mutations of GFAP, the cause of Alexander disease, result in an elevated recruitment of Drp1 to GFAP, leading to significantly increased mitochondrial fissions. Taking together, these findings suggest a novel mechanism of mitochondrial division mediated by type-III intermediate filaments.
### Competing Interest Statement
The authors have declared no competing interest.
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