Normal Spastin Gene Dosage Is Specifically Required for Axon Regeneration

Michelle C. Stone; Kavitha Rao; Kyle W. Gheres; Seahee Kim; Juan Tao; Caroline La Rochelle; Christin T. Folker; Nina T. Sherwood; Melissa M. Rolls

doi:10.1016/j.celrep.2012.09.032

Normal Spastin Gene Dosage Is Specifically Required for Axon Regeneration

Michelle C. Stone, Kavitha Rao, Kyle W. Gheres, Seahee Kim, Juan Tao, Caroline La Rochelle, Christin T. Folker, Nina T. Sherwood, Melissa M. Rolls

Research output: Contribution to journal › Article › peer-review

61 Scopus citations

Abstract

Axon regeneration allows neurons to repair circuits after trauma; however, most of the molecular players in this process remain to be identified. Given that microtubule rearrangements have been observed in injured neurons, we tested whether microtubule-severing proteins might play a role in axon regeneration. We found that axon regeneration is extremely sensitive to levels of the microtubule-severing protein spastin. Although microtubule behavior in uninjured neurons was not perturbed in animals heterozygous for a spastin null allele, axon regeneration was severely disrupted in this background. Two types of axon regeneration-regeneration of an axon from a dendrite after proximal axotomy and regeneration of an axon from the stump after distal axotomy-were defective in Drosophila with one mutant copy of the spastin gene. Other types of axon and dendrite outgrowth, including regrowth of dendrites after pruning, were normal in heterozygotes. We conclude that regenerative axon growth is uniquely sensitive to spastin gene dosage.

Original language	English (US)
Pages (from-to)	1340-1350
Number of pages	11
Journal	Cell Reports
Volume	2
Issue number	5
DOIs	https://doi.org/10.1016/j.celrep.2012.09.032
State	Published - Nov 29 2012

All Science Journal Classification (ASJC) codes

General Biochemistry, Genetics and Molecular Biology

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10.1016/j.celrep.2012.09.032

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title = "Normal Spastin Gene Dosage Is Specifically Required for Axon Regeneration",

abstract = "Axon regeneration allows neurons to repair circuits after trauma; however, most of the molecular players in this process remain to be identified. Given that microtubule rearrangements have been observed in injured neurons, we tested whether microtubule-severing proteins might play a role in axon regeneration. We found that axon regeneration is extremely sensitive to levels of the microtubule-severing protein spastin. Although microtubule behavior in uninjured neurons was not perturbed in animals heterozygous for a spastin null allele, axon regeneration was severely disrupted in this background. Two types of axon regeneration-regeneration of an axon from a dendrite after proximal axotomy and regeneration of an axon from the stump after distal axotomy-were defective in Drosophila with one mutant copy of the spastin gene. Other types of axon and dendrite outgrowth, including regrowth of dendrites after pruning, were normal in heterozygotes. We conclude that regenerative axon growth is uniquely sensitive to spastin gene dosage.",

author = "Stone, {Michelle C.} and Kavitha Rao and Gheres, {Kyle W.} and Seahee Kim and Juan Tao and {La Rochelle}, Caroline and Folker, {Christin T.} and Sherwood, {Nina T.} and Rolls, {Melissa M.}",

note = "Funding Information: We thank the VDRC for providing the RNAi lines used in this study. The Bloomington Drosophila Stock Center and Developmental Studies Hybridoma Bank were also invaluable resources. Wendy Hanna-Rose graciously shared her pulsed UV laser for all of the experiments. We thank members of the Rolls laboratory, and particularly Li Chen, for valuable discussions. We also thank Li Chen and Michelle Nguyen for their help in collecting animals for the experiments. This work was supported by the Spastic Paraplegia Foundation, National Institute of Neurological Disorders and Stroke (R21 NS066216 and R01 NS63896), and National Institute of General Medical Sciences (R01 GM085115). M.M.R. is a Pew Scholar in the Biomedical Sciences. ",

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AU - Stone, Michelle C.

AU - Rao, Kavitha

AU - Gheres, Kyle W.

AU - Kim, Seahee

AU - Tao, Juan

AU - La Rochelle, Caroline

AU - Folker, Christin T.

AU - Sherwood, Nina T.

AU - Rolls, Melissa M.

N1 - Funding Information: We thank the VDRC for providing the RNAi lines used in this study. The Bloomington Drosophila Stock Center and Developmental Studies Hybridoma Bank were also invaluable resources. Wendy Hanna-Rose graciously shared her pulsed UV laser for all of the experiments. We thank members of the Rolls laboratory, and particularly Li Chen, for valuable discussions. We also thank Li Chen and Michelle Nguyen for their help in collecting animals for the experiments. This work was supported by the Spastic Paraplegia Foundation, National Institute of Neurological Disorders and Stroke (R21 NS066216 and R01 NS63896), and National Institute of General Medical Sciences (R01 GM085115). M.M.R. is a Pew Scholar in the Biomedical Sciences.

PY - 2012/11/29

Y1 - 2012/11/29

N2 - Axon regeneration allows neurons to repair circuits after trauma; however, most of the molecular players in this process remain to be identified. Given that microtubule rearrangements have been observed in injured neurons, we tested whether microtubule-severing proteins might play a role in axon regeneration. We found that axon regeneration is extremely sensitive to levels of the microtubule-severing protein spastin. Although microtubule behavior in uninjured neurons was not perturbed in animals heterozygous for a spastin null allele, axon regeneration was severely disrupted in this background. Two types of axon regeneration-regeneration of an axon from a dendrite after proximal axotomy and regeneration of an axon from the stump after distal axotomy-were defective in Drosophila with one mutant copy of the spastin gene. Other types of axon and dendrite outgrowth, including regrowth of dendrites after pruning, were normal in heterozygotes. We conclude that regenerative axon growth is uniquely sensitive to spastin gene dosage.

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Normal Spastin Gene Dosage Is Specifically Required for Axon Regeneration

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