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Apolipoprotein E Mimetic Promotes Functional and Histological Recovery in Lysolecithin-Induced Spinal Cord Demyelination in Mice.

Publication ,  Journal Article
Gu, Z; Li, F; Zhang, YP; Shields, LBE; Hu, X; Zheng, Y; Yu, P; Zhang, Y; Cai, J; Vitek, MP; Shields, CB
Published in: J Neurol Neurophysiol
April 2013

OBJECTIVE: Considering demyelination is the pathological hallmark of multiple sclerosis (MS), reducing demyelination and/or promoting remyelination is a practical therapeutic strategy to improve functional recovery for MS. An apolipoprotein E (apoE)-mimetic peptide COG112 has previously demonstrated therapeutic efficacy on functional and histological recovery in a mouse experimental autoimmune encephalomyelitis (EAE) model of human MS. In the current study, we further investigated whether COG112 promotes remyelination and improves functional recovery in lysolecithin induced focal demyelination in the white matter of spinal cord in mice. METHODS: A focal demyelination model was created by stereotaxically injecting lysolecithin into the bilateral ventrolateral funiculus (VLF) of T8 and T9 mouse spinal cords. Immediately after lysolecithin injection mice were treated with COG112, prefix peptide control or vehicle control for 21 days. The locomotor function of the mice was measured by the beam walking test and Basso Mouse Scale (BMS) assessment. The nerve transmission of the VLF of mice was assessed in vivo by transcranial magnetic motor evoked potentials (tcMMEPs). The histological changes were also examined by by eriochrome cyanine staining, immunohistochemistry staining and electron microscopy (EM) method. RESULTS: The area of demyelination in the spinal cord was significantly reduced in the COG112 group. EM examination showed that treatment with COG112 increased the thickness of myelin sheaths and the numbers of surviving axons in the lesion epicenter. Locomotor function was improved in COG112 treated animals when measured by the beam walking test and BMS assessment compared to controls. TcMMEPs also demonstrated the COG112-mediated enhancement of amplitude of evoked responses. CONCLUSION: The apoE-mimetic COG112 demonstrates a favorable combination of activities in suppressing inflammatory response, mitigating demyelination and in promoting remyelination and associated functional recovery in animal model of CNS demyelination. These data support that apoE-mimetic strategy may represent a promising therapy for MS and other demyelination disorders.

Duke Scholars

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Published In

J Neurol Neurophysiol

DOI

ISSN

2155-9562

Publication Date

April 2013

Volume

2014

Issue

Suppl 12

Start / End Page

10

Location

United States
 

Citation

APA
Chicago
ICMJE
MLA
NLM
Gu, Z., Li, F., Zhang, Y. P., Shields, L. B. E., Hu, X., Zheng, Y., … Shields, C. B. (2013). Apolipoprotein E Mimetic Promotes Functional and Histological Recovery in Lysolecithin-Induced Spinal Cord Demyelination in Mice. J Neurol Neurophysiol, 2014(Suppl 12), 10. https://doi.org/10.4172/2155-9562.S12-010
Gu, Zhen, Fengqiao Li, Yi Ping Zhang, Lisa B. E. Shields, Xiaoling Hu, Yiyan Zheng, Panpan Yu, et al. “Apolipoprotein E Mimetic Promotes Functional and Histological Recovery in Lysolecithin-Induced Spinal Cord Demyelination in Mice.J Neurol Neurophysiol 2014, no. Suppl 12 (April 2013): 10. https://doi.org/10.4172/2155-9562.S12-010.
Gu Z, Li F, Zhang YP, Shields LBE, Hu X, Zheng Y, et al. Apolipoprotein E Mimetic Promotes Functional and Histological Recovery in Lysolecithin-Induced Spinal Cord Demyelination in Mice. J Neurol Neurophysiol. 2013 Apr;2014(Suppl 12):10.
Gu, Zhen, et al. “Apolipoprotein E Mimetic Promotes Functional and Histological Recovery in Lysolecithin-Induced Spinal Cord Demyelination in Mice.J Neurol Neurophysiol, vol. 2014, no. Suppl 12, Apr. 2013, p. 10. Pubmed, doi:10.4172/2155-9562.S12-010.
Gu Z, Li F, Zhang YP, Shields LBE, Hu X, Zheng Y, Yu P, Zhang Y, Cai J, Vitek MP, Shields CB. Apolipoprotein E Mimetic Promotes Functional and Histological Recovery in Lysolecithin-Induced Spinal Cord Demyelination in Mice. J Neurol Neurophysiol. 2013 Apr;2014(Suppl 12):10.

Published In

J Neurol Neurophysiol

DOI

ISSN

2155-9562

Publication Date

April 2013

Volume

2014

Issue

Suppl 12

Start / End Page

10

Location

United States