Regulation of Neuronal Autophagy in Axon: Implication of Autophagy in Axonal Function and Dysfunction/Degeneration

Autophagy has recently emerged as potential drug target for prevention of neurodegeneration. However, the details of the autophagy process and regulation in the central nervous system (CNS) are unclear. By using a neuronal excitotoxicity model in mice, we engineered expression of a fluorescent autophagic marker and systematically investigated autophagic activity under neurodegenerative conditions. The study reveals an early response of Purkinje cells to excitotoxic insult by induction of autophagy in axon terminals, and that axonal autophagy is particularly robust in comparison to the cell body and dendrites. The accessibility of axons to rapid autophagy induction suggests local biogenesis of autophagosomes in axons. Characterization of functional interaction between autophagosome protein LC3 and microtubule-associated protein 1B (MAP1B), which is involved in axonal growth, injury and transport provides evidence for neuron- or axon-specific regulation of autophagosomes. Furthermore, we propose that p62/SQSTM1, a putative autophagic substrate, can serve as a marker for evaluating impairment of autophagic degradation, which helps resolve the controversy over autophagy levels under various pathological conditions. Future study of the relationship between autophagy and axonal function (e.g., transport) will provide insight into the mechanism underlying axonopathy which is directly linked to neurodegeneration.

Addendum to:

Induction of Autophagy in Axonal Dystrophy and Degeneration

Q.J. Wang, Y. Ding, Y. Zhong, D.S. Kohtz, N. Mizushima, I.M. Cristea, M.P. Rout, B.T. Chait, N. Heintz and Z. Yue

J Neurosci 2006; 26:8057-68