The slow Wallerian degeneration gene, WldS, inhibits axonal spheroid pathology in gracile axonal dystrophy mice

doi:10.1093/brain/awh368

Brain Advance Access originally published online on January 11, 2005
Brain 2005 128(2):405-416; doi:10.1093/brain/awh368

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The slow Wallerian degeneration gene, Wld^S, inhibits axonal spheroid pathology in gracile axonal dystrophy mice

Weiqian Mi¹^,*, Bogdan Beirowski¹^,2^,*, Thomas H. Gillingwater³, Robert Adalbert¹^,4, Diana Wagner¹, Daniela Grumme¹, Hitoshi Osaka⁵^,6, Laura Conforti⁴, Stefan Arnhold², Klaus Addicks², Keiji Wada⁵, Richard R. Ribchester³ and Michael P. Coleman¹^,4

¹ ZMMK and Institute for Genetics and ² Department of Anatomy I, University of Cologne, Cologne, Germany, ³ Division of Neuroscience, University of Edinburgh, Edinburgh, ⁴ The Babraham Institute, Babraham, Cambridge, UK, ⁵ Department of Degenerative Neurological Diseases, National Institute of Neuroscience, Kodaira, Tokyo and ⁶ Clinical Research Institute, Kanagawa Children's Medical Center, Yokohama, Japan

Correspondence: Dr Michael Coleman, The Babraham Institute, Babraham, Cambridge CB2 4AT, UK E-mail: michael.coleman{at}bbsrc.ac.uk

Axonal dystrophy is the hallmark of axon pathology in many neurodegenerativedisorders of the CNS, including Alzheimer's disease, Parkinson'sdisease and stroke. Axons can also form larger swellings, orspheroids, as in multiple sclerosis and traumatic brain injury.Some spheroids are terminal endbulbs of axon stumps, but swellingsmay also occur on unbroken axons and their role in axon lossremains uncertain. Similarly, it is not known whether spheroidsand axonal dystrophy in so many different CNS disorders ariseby a common mechanism. These surprising gaps in current knowledgeresult largely from the lack of experimental methods to manipulateaxon pathology. The slow Wallerian degeneration gene, Wld^S,delays Wallerian degeneration after injury, and also delays‘dying-back’ in peripheral nervous system disorders,revealing a mechanistic link between two forms of axon degenerationtraditionally considered distinct. We now report that Wld^S alsoinhibits axonal spheroid pathology in gracile axonal dystrophy(gad) mice. Both gracile nucleus (P < 0.001) and cervicalgracile fascicle (P = 0.001) contained significantly fewer spheroidsin gad/Wld^S mice, and secondary signs of axon pathology suchas myelin loss were also reduced. Motor nerve terminals at neuromuscularjunctions continued to degenerate in gad/Wld^S mice, consistentwith previous observations that Wld^S has a weaker effect onsynapses than on axons, and probably contributing to the factthat Wld^S did not alleviate gad symptoms. Wld^S acts downstreamof the initial pathogenic events to block gad pathology, suggestingthat its effect on axonal swelling need not be specific to thisdisease. We conclude that axon degeneration mechanisms are moreclosely related than previously thought and that a link existsin gad between spheroid pathology and Wallerian degenerationthat could hold for other disorders.

^* W. Mi and B. Beirowski contributed equally to this work

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