STAT3 shifts to distinct cellular regions in CNS neurons upon cytokine stimulation
•
STAT3′s transcriptional activity and mitochondrial localization co-induce regeneration
•
MEK enhances STAT3 functions and localization and potentiates axon regeneration
•
Modulation of STAT3, MEK, and PTEN promotes extensive axon growth and sprouting
Summary
Signal transducer and activator of transcription 3 (STAT3) is a transcription factor central to axon regrowth with an enigmatic ability to act in different subcellular regions independently of its transcriptional roles. However, its roles in mature CNS neurons remain unclear. Here, we show that along with nuclear translocation, STAT3 translocates to mitochondria in mature CNS neurons upon cytokine stimulation. Loss- and gain-of-function studies using knockout mice and viral expression of various STAT3 mutants demonstrate that STAT3′s transcriptional function is indispensable for CNS axon regrowth, whereas mitochondrial STAT3 enhances bioenergetics and further potentiates regrowth. STAT3′s localization, functions, and growth-promoting effects are regulated by mitogen-activated protein kinase kinase (MEK), an effect further enhanced by Pten deletion, leading to extensive axon regrowth in the mouse optic pathway and spinal cord. These results highlight CNS neuronal dependence on STAT3 transcriptional activity, with mitochondrial STAT3 providing ancillary roles, and illustrate a critical contribution for MEK in enhancing diverse STAT3 functions and axon regrowth.
Present address: Department of Ophthalmology, Shanghai First People’s Hospital, Shanghai Jiao Tong University School of Medicine; Shanghai Key Laboratory of Fundus Disease, 100 Hai Ning Road, Shanghai 200080, China
