Minocycline promotes axonal regeneration through suppression of RGMa in rat MCAO/reperfusion model

Tao, Tao; Xu, Guanghui; Chen, Cindy Si; Feng, Jinzhou; Kong, Yuhan; Qin, Xinyue

doi:10.1002/syn.21629

Cited by 27 publications

(15 citation statements)

References 35 publications

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“…Our results in neurodegeneration or inflammatory animal models confirm previous data generated in spinal cord injury models or cerebral stroke models where antibody-mediated neutralization of RGMa (Hata et al, 2006;Kyoto et al, 2007) or downregulation of RGMa resulted in significant neuroprotection and enhanced functional recovery (Tao et al, 2013;Feng et al, 2012;Jiang et al, 2012;Zhang et al, 2011).…”

Section: Discussionsupporting

confidence: 89%

Targeting Repulsive Guidance Molecule A to Promote Regeneration and Neuroprotection in Multiple Sclerosis

et al. 2015

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Repulsive guidance molecule A (RGMa) is a potent inhibitor of neuronal regeneration and a regulator of cell death, and it plays a role in multiple sclerosis (MS). In autopsy material from progressive MS patients, RGMa was found in active and chronic lesions, as well as in normal-appearing gray and white matter, and was expressed by cellular meningeal infiltrates. Levels of soluble RGMa in the cerebrospinal fluid were decreased in progressive MS patients successfully treated with intrathecal corticosteroid triamcinolone acetonide (TCA), showing functional improvements. In vitro, RGMa monoclonal antibodies (mAbs) reversed RGMa-mediated neurite outgrowth inhibition and chemorepulsion. In animal models of CNS damage and MS, RGMa antibody stimulated regeneration and remyelination of damaged nerve fibers, accelerated functional recovery, and protected the retinal nerve fiber layer as measured by clinically relevant optic coherence tomography. These data suggest that targeting RGMa is a promising strategy to improve functional recovery in MS patients.

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Section: Discussionsupporting

confidence: 89%

Targeting Repulsive Guidance Molecule A to Promote Regeneration and Neuroprotection in Multiple Sclerosis

et al. 2015

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“…Furthermore, the sprouting and growth of intracortical axons plays important roles after cerebral ischemia-reperfusion injury1516. Other researchers have suggested that neurofilaments expressed in axons are among the most important structural substrates of the axonal cytoskeleton, which is necessary for axonal maintenance and regeneration3637. These results support the view that EA treatment exerts rehabilitation effect by enhancing axon regeneration and CST projection after stroke.…”

Section: Discussionmentioning

confidence: 55%

Electroacupuncture enhances rehabilitation through miR-181b targeting PirB after ischemic stroke

Deng

Bai

Zhou

et al. 2016

Sci Rep

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Recent studies have demonstrated microRNAs (miRNAs) and proteins are beneficial to axon regeneration, which may be involved in Electroacupuncture (EA) therapy against stroke. In this study, we aimed to determine the pivotal role of PirB in EA-produced rehabilitation against ischemic stroke; and to screen and investigate the potential miRNAs directly regulating PirB expression. The results showed EA treatment enhanced axon regeneration and new projections from the corticospinal tract at 28 d after cerebral ischemic reperfusion injury of rats. Then, we found EA decreased pirb mRNA and PirB protein expression in the penumbra within 28 days after reperfusion. The reduction of PirB expression facilitated neurite outgrowth after oxygen-glucose deprivation injury. The miRNA microarray showed the level of twenty kinds of miRNAs changed in the penumbra after EA administration. The bioinformatics study and luciferase assay verified miR-181b directly regulated pirb mRNA expression. EA increased miR-181b levels in the penumbras, and improved neurobehavioral function rehabilitation through miR-181b direct targeting of pirb mRNA to regulate the expression of PirB, RhoA and GAP43. In conclusion, we provide the first evidence that EA enhances rehabilitation against stroke by regulating epigenetic changes to directly act on its targets, such as the miR-181b/PirB/RhoA/GAP43 axis, which is a novel mechanism of EA therapy.

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“…This protein is involved in the physiologic repair mechanisms of neurons. Therapeutic RGMa decrease supports regeneration of lesioned neurons according to experimental findings in various acute and chronic experimental models of nervous system diseases independent of inflammatory, degenerative or ischemic origin (Tao et al 2013; Demicheva et al 2015). …”

Section: Discussionmentioning

confidence: 99%

Classification of advanced stages of Parkinson’s disease: translation into stratified treatments

Krüger

Klucken²,

Weiß

et al. 2017

J Neural Transm

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Advanced stages of Parkinson’s disease (advPD) still impose a challenge in terms of classification and related stage-adapted treatment recommendations. Previous concepts that define advPD by certain milestones of motor disability apparently fall short in addressing the increasingly recognized complexity of motor and non-motor symptoms and do not allow to account for the clinical heterogeneity that require more personalized approaches. Therefore, deep phenotyping approaches are required to characterize the broad-scaled, continuous and multidimensional spectrum of disease-related motor and non-motor symptoms and their progression under real-life conditions. This will also facilitate the reasoning for clinical care and therapeutic decisions, as neurologists currently have to refer to clinical trials that provide guidance on a group level; however, this does not always account for the individual needs of patients. Here, we provide an overview on different classifications for advPD that translate into critical phenotypic patterns requiring the differential therapeutic adjustments. New concepts refer to precision medicine approaches also in PD and first studies on genetic stratification for therapeutic outcomes provide a potential for more objective treatment recommendations. We define novel treatment targets that align with this concept and make use of emerging device-based assessments of real-life information on PD symptoms. As these approaches require empowerment of patients and integration into treatment decisions, we present communication strategies and decision support based on new technologies to adjust treatment of advPD according to patient demands and safety.

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Minocycline promotes axonal regeneration through suppression of RGMa in rat MCAO/reperfusion model

Cited by 27 publications

References 35 publications

Targeting Repulsive Guidance Molecule A to Promote Regeneration and Neuroprotection in Multiple Sclerosis

Targeting Repulsive Guidance Molecule A to Promote Regeneration and Neuroprotection in Multiple Sclerosis

Electroacupuncture enhances rehabilitation through miR-181b targeting PirB after ischemic stroke

Classification of advanced stages of Parkinson’s disease: translation into stratified treatments

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