Axons experience physical stress throughout an organism's lifetime, and disruptions in axonal integrity are hallmarks of both neurodegenerative diseases and traumatic injuries. The spectrin-based membrane periodic skeleton (MPS) is proposed to have a crucial role in maintaining axonal strength, flexibility, and resilience. To investigate the importance of the intrinsic MPS for GABAergic motor neuron integrity in , we employed the auxin-inducible degron system to degrade β-spectrin/UNC-70 in a cell-type specific and time-dependent manner. Degradation of β-spectrin from all neurons beginning at larval development resulted in widespread axon breakage and regeneration in VD/DD GABAergic motor neurons in both larval and adult animals. Similarly, targeted degradation of β-spectrin in GABA neurons alone resulted in extensive breakage. Moreover, we found that depleting β-spectrin from the mature nervous system also induced axon breaks. By contrast, epidermal β-spectrin was not required for axon integrity of VD/DD neurons. These findings demonstrate the cell-intrinsic importance of neuronal β-spectrin/UNC-70 for axon integrity both during development and in adulthood.
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| http://dx.doi.org/10.1101/2025.02.23.639536 | DOI Listing |
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