Zhonghua Hu scite author profile

Activity-dependent modification of dendritic spines, subcellular compartments accommodating postsynaptic specializations in the brain, is an important cellular mechanism for brain development, cognition and synaptic pathology of brain disorders. NMDA receptor-dependent long-term depression (NMDAR-LTD), a prototypic form of synaptic plasticity, is accompanied by prolonged remodeling of spines. The mechanisms underlying long-lasting spine remodeling in NMDAR-LTD, however, are largely unclear. Here we show that LTD induction causes global changes in miRNA transcriptomes affecting many cellular activities. Specifically, we show that expression changes of miR-191 and miR-135 are required for maintenance but not induction of spine restructuring. Moreover, we find that actin depolymerization and AMPA receptor exocytosis are regulated for extended periods of time by miRNAs to support long-lasting spine plasticity. These findings reveal a novel miRNA mediated-mechanism and a new role of AMPA receptor exocytosis in long-lasting spine plasticity, and identify a number of candidate miRNAs involved in LTD.

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Characterization and degradation behavior of AZ31 alloy surface modified by bone-like hydroxyapatite for implant applications

Wen¹,

Guan²,

Li³

et al. 2009

Applied Surface Science

293

124

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Zhonghua Hu

Home-based telehealth exercise training program in Chinese patients with heart failure

Novel activation process for preparing highly microporous and mesoporous activated carbons

miR-191 and miR-135 are required for long-lasting spine remodelling associated with synaptic long-term depression

Characterization and degradation behavior of AZ31 alloy surface modified by bone-like hydroxyapatite for implant applications

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