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Huntington’s Disease as a Neuroglial Systems Disorder: Mechanisms, Network Propagation, and Therapeutic Opportunities

2026-07-10 · Neuroglia

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One-line summary

Huntington’s disease (HD) has traditionally been conceptualized as a neuron-centric disorder primarily attributed to cell-autonomous toxicity of mutant huntingtin (mHTT) in striatal medium spiny neurons.

Engineering notes

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Chinese explanation / 中文解读

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Original abstract

Huntington’s disease (HD) has traditionally been conceptualized as a neuron-centric disorder primarily attributed to cell-autonomous toxicity of mutant huntingtin (mHTT) in striatal medium spiny neurons. However, this framework inadequately explains the prolonged presymptomatic phase, selective network vulnerability, early non-motor manifestations, and limited success of neuron-targeted therapeutic interventions. Accumulating evidence from molecular biology, transcriptomics, neuroimaging, and preclinical therapeutics supports a reframing of HD as a disorder of neuroglial systems dysfunction. We synthesize data demonstrating that astrocytes, microglia, and oligodendrocyte lineage cells are not passive bystanders but play direct and interactive roles in HD pathogenesis through defined molecular mechanisms. Expression of mHTT in glial populations impairs synaptic homeostasis, metabolic coupling, immune resolution, and myelin integrity, generating self-amplifying pathological feedback loops that destabilize neural circuits long before overt neuronal death. Critically, we evaluate glial replacement therapy as a potential disease-modifying strategy. Preclinical studies demonstrate that transplantation of healthy human glial progenitor cells substantially ameliorates motor, cognitive, and neuropathological deficits in multiple HD models through oligodendroglial remyelination and lactate-mediated metabolic support, despite persistent neuronal mHTT expression. Effective HD therapy will likely require strategies that jointly target the genetic cause and the dysfunctional neuroglial microenvironment. By integrating systems neuroscience with glial biology and translational strategy, this review defines a neuroglial framework for HD that opens a plausible path toward meaningful disease modification and positions HD as a model disorder for glial-centric interventions in neurodegeneration.

5.0Engineering value
7.0Research novelty
5.0Business relevance

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