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Rod-shaped microglia interact with neuronal dendrites to attenuate cortical excitability during TDP-43-related neurodegeneration by Manling Xie & Yue Liang & Alessandra S. Miller & Praveen N. Pallegar & Anthony D. Umpierre & Na Wang & Shuwen Zhang & Nagaswaroop Kengunte Nagaraj & Zachary C. Fogarty & Nikhil B. Ghayal & Björn Oskarsson & Shunyi Zhao & Jiaying Zheng & Wu Shi &... instant download

  • SKU: EBN-239247250
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Instant download (eBook) Rod-shaped microglia interact with neuronal dendrites to attenuate cortical excitability during TDP-43-related neurodegeneration after payment.
Authors:Manling Xie & Yue Liang & Alessandra S. Miller & Praveen N. Pallegar & Anthony D. Umpierre & Na Wang & Shuwen Zhang & Nagaswaroop Kengunte Nagaraj & Zachary C. Fogarty & Nikhil B. Ghayal & Björn Oskarsson & Shunyi Zhao & Jiaying Zheng & Wu Shi &...
Pages:updating ...
Year:2025
Publisher:x
Language:english
File Size:68.55 MB
Format:pdf
Categories: Ebooks

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Rod-shaped microglia interact with neuronal dendrites to attenuate cortical excitability during TDP-43-related neurodegeneration by Manling Xie & Yue Liang & Alessandra S. Miller & Praveen N. Pallegar & Anthony D. Umpierre & Na Wang & Shuwen Zhang & Nagaswaroop Kengunte Nagaraj & Zachary C. Fogarty & Nikhil B. Ghayal & Björn Oskarsson & Shunyi Zhao & Jiaying Zheng & Wu Shi &... instant download

Immunity, Corrected proof. doi:10.1016/j.immuni.2025.08.016

SUMMARYMicroglia, the principal immune cells of the central nervous system, have emerged as important players insensing and regulating neuronal activity. While microglial activation is a hallmark in neurodegeneration,the specific role of microglia in disease-related cortical excitability remains unknown. Utilizing multichannelprobe recordings and longitudinal in vivo calcium imaging, we observed neuronal hyperactivity at the initialstage of disease progression in a mouse model of TAR DNA-binding protein 43 (TDP-43) neurodegeneration(rNLS8, regulated nuclear localization sequence-deleted human TDP-43 transgenic mouse model). Spatialand single-cell RNA sequencing revealed a specific subpopulation of microglia, rod-shaped microglia,with a distinct morphology and direct response to cortical hyperactivity. Rod-shaped microglia predominantly interacted with neuronal dendrites and remodeled excitatory synaptic inputs to attenuate motorcortical hyperactivity. Triggering receptor expressed on myeloid cells 2 (TREM2) deficiency led to a markedreduction of rod-shaped microglia accompanied by increased neuronal activity in rNLS8 mice. Together, ourresults suggest that rod-shaped microglia play a neuroprotective role by attenuating cortical hyperexcitability in TDP-43-related neurodegeneration.

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