Nan-Xing Huang scite author profile

To address the significance of enhancing myelination for functional recovery after white matter injury (WMI) in preterm infants, we characterized hypomyelination associated with chronic hypoxia and identified structural and functional deficits of excitatory cortical synapses with a prolonged motor deficit. We demonstrate that genetically delaying myelination phenocopies the synaptic and functional deficits observed in mice after hypoxia, suggesting that myelination may possibly facilitate excitatory presynaptic innervation. As a gain-of-function experiment, we specifically ablated the muscarinic receptor 1 (M1R), a negative regulator of oligodendrocyte differentiation in oligodendrocyte precursor cells. Genetically enhancing oligodendrocyte differentiation and myelination rescued the synaptic loss after chronic hypoxia and promoted functional recovery. As a proof of concept, drug-based myelination therapies also resulted in accelerated differentiation and myelination with functional recovery after chronic hypoxia. Together, our data indicate that myelination-enhancing strategies in preterm infants may represent a promising therapeutic approach for structural/functional recovery after hypoxic WMI.

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Oligodendrocytes and myelin: Active players in neurodegenerative brains?

Chen

Wang

Huang

et al. 2022

Developmental Neurobiology

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Oligodendrocytes (OLs) are a major type of glial cells in the central nervous system that generate multiple myelin sheaths to wrap axons. Myelin ensures fast and efficient propagation of action potentials along axons and supports neurons with nourishment. The decay of OLs and myelin has been implicated in age-related neurodegenerative diseases and these changes are generally considered as an inevitable result of neuron loss and axon degeneration. Noticeably, OLs and myelin undergo dynamic changes in healthy adult brains, that is, newly formed OLs are continuously added throughout life from the differentiation of oligodendrocyte precursor cells (OPCs) and the pre-existing myelin sheaths may undergo degeneration or remodeling. Increasing evidence has shown that changes in OLs and myelin are present in the early stages of neurodegenerative diseases, and even prior to significant neuronal loss and functional deficits. More importantly, oligodendroglia-specific manipulation, by either deletion of the disease gene or enhancement of myelin renewal, can alleviate functional impairments in neurodegenerative animal models. These findings underscore the possibility that OLs and myelin are not passively but actively involved in neurodegenerative diseases and may play an important role in modulating neuronal function and survival. In this review, we summarize recent work characterizing by OLs and myelin changes in both healthy and neurodegenerative brains and discuss the potential of targeting oligodendroglial cells in treating neurodegenerative diseases.

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Modeling CNS Myelination Using Micropillar Arrays

Huang

Shen

Mei

2018

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Myelination necessitates axons to initiate concentric membrane wrapping by oligodendroglia in the CNS. Here, we describe an in vitro system that models CNS myelination with a minimally permissive environment, termed Binary Indicant for myelination using Micropillar Arrays (BIMA). Engineered with conical micropillar arrays, BIMA allows for rapid translation of oligodendroglial wrapping and differentiation into binary readout under confocal microscopy. Fabricated into 96- or 384-well plates, BIMA serves as a high-throughput screening platform for compounds that may promote oligodendroglial differentiation and myelination. BIMA is also amenable for examining molecular signals and pathways that regulate axon-glia interaction and recognition.

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Nan-Xing Huang

Enhancing Oligodendrocyte Myelination Rescues Synaptic Loss and Improves Functional Recovery after Chronic Hypoxia

Oligodendrocytes and myelin: Active players in neurodegenerative brains?

Modeling CNS Myelination Using Micropillar Arrays

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