Literature DB >> 32169171

Loss- or Gain-of-Function Mutations in ACOX1 Cause Axonal Loss via Different Mechanisms.

Hyung-Lok Chung1, Michael F Wangler2, Paul C Marcogliese3, Juyeon Jo4, Thomas A Ravenscroft3, Zhongyuan Zuo3, Lita Duraine5, Sina Sadeghzadeh6, David Li-Kroeger3, Robert E Schmidt7, Alan Pestronk7, Jill A Rosenfeld8, Lindsay Burrage8, Mitchell J Herndon7, Shan Chen8, Amelle Shillington9, Marissa Vawter-Lee10, Robert Hopkin9, Jackeline Rodriguez-Smith11, Michael Henrickson11, Brendan Lee8, Ann B Moser12, Richard O Jones12, Paul Watkins12, Taekyeong Yoo13, Soe Mar14, Murim Choi15, Robert C Bucelli16, Shinya Yamamoto17, Hyun Kyoung Lee18, Carlos E Prada9, Jong-Hee Chae19, Tiphanie P Vogel20, Hugo J Bellen21.   

Abstract

ACOX1 (acyl-CoA oxidase 1) encodes the first and rate-limiting enzyme of the very-long-chain fatty acid (VLCFA) β-oxidation pathway in peroxisomes and leads to H2O2 production. Unexpectedly, Drosophila (d) ACOX1 is mostly expressed and required in glia, and loss of ACOX1 leads to developmental delay, pupal death, reduced lifespan, impaired synaptic transmission, and glial and axonal loss. Patients who carry a previously unidentified, de novo, dominant variant in ACOX1 (p.N237S) also exhibit glial loss. However, this mutation causes increased levels of ACOX1 protein and function resulting in elevated levels of reactive oxygen species in glia in flies and murine Schwann cells. ACOX1 (p.N237S) patients exhibit a severe loss of Schwann cells and neurons. However, treatment of flies and primary Schwann cells with an antioxidant suppressed the p.N237S-induced neurodegeneration. In summary, both loss and gain of ACOX1 lead to glial and neuronal loss, but different mechanisms are at play and require different treatments. Published by Elsevier Inc.

Entities:  

Keywords:  ACOX1 deficiency; Drosophila; NACA; ROS; Schwann cells; antioxidant NACA; axonal dystrophy; fatty acid peroxidation; very long chain fatty acids; wrapping glia

Mesh:

Substances:

Year:  2020        PMID: 32169171      PMCID: PMC7289150          DOI: 10.1016/j.neuron.2020.02.021

Source DB:  PubMed          Journal:  Neuron        ISSN: 0896-6273            Impact factor:   17.173


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