Mechanism of microtubule severing enzymes
National Institute Of Neurological Disorders And Stroke
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Abstract
Cells constantly assemble and disassemble their microtubule cytoskeleton through the concerted action of microtubule polymerases, depolymerases, crosslinkers and severing enzymes. Microtubule severing enzymes spastin and katanin generate internal breaks in microtubules. They are are critical in a wide range of cell biological processes including biogenesis of neuronal and non-centrosomal microtubule arrays, phototropism, spindle scaling, chromosome segregation, and control of centriole and cilia numbers. Mutations in microtubule severing enzymes cause severe neurodegenerative and neurodevelopmental disorders. The mechanism used by these enzymes to destabilize the microtubule and their effect on microtubule dynamics and the morphology of microtubule networks is still poorly understood. We aim (1) to understand the structural transitions that spastin and katanin undergo during microtubule disassembly; (2) characterize the mechanism of ATP hydrolysis in the katanin and spastin hexamers during the microtubule severing reaction and how they are coupled to the mechanical work of tubulin dimer removal from the microtubule lattice; (3) establish the effects of tubulin modifications on microtubule severing; (4) characterize the effects of microtubule severing enzymes on microtubule dynamics and architecture; (5) develop a comprehensive understanding of how spastin and katanin disease mutations associated with hereditary spastic paraplegia and microcephaly, respectively, affect protein structure and function and (6) identify cellular factors that regulate spastin and katanin. This year we have continued our studies into the structure of microtubule severing enzymes in complex with their regulators using cryo-EM and single molecule fluorescence imaging and have identified mechanisms of their regulation by accessory factors and posttranslational modifications.
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