Yanjie Fan scite author profile

Summary Dendritic spines undergo actin-based growth and shrinkage during synaptic plasticity. The actin depolymerizing factor (ADF)/cofilin family of actin-associated proteins plays important roles in spine plasticity. Elevated ADF/cofilin activities often lead to reduced spine size and immature spine morphology, but can enhance synaptic potentiation in some cases. Therefore ADF/cofilin may exert distinct effects on postsynaptic structure and function. Here we report that ADF/cofilin-mediated actin dynamics regulate AMPA receptor (AMPAR) trafficking during synaptic potentiation, which is distinct from actin's structural role in spine morphology. We find that elevated ADF/cofilin activity markedly enhances surface addition of AMPARs after chemically-induced LTP (cLTP), whereas inhibition of ADF/cofilin abolishes AMPAR addition. Our data further show that cLTP elicits a temporal sequence of ADF/cofilin dephosphorylation and phosphorylation that underlies AMPAR trafficking and spine enlargement. These findings suggest a novel role for temporally-regulated ADF/cofilin activities in postsynaptic modifications of receptor number and spine size during synaptic plasticity.

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Neuronal-Specific TUBB3 Is Not Required for Normal Neuronal Function but Is Essential for Timely Axon Regeneration

Latrémolière

et al. 2018

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SUMMARYWe generated a knockout mouse for the neuronalspecific β-tubulin isoform Tubb3 to investigate its role in nervous system formation and maintenance. Tubb3−/− mice have no detectable neurobehavioral or neuropathological deficits, and upregulation of mRNA and protein of the remaining β-tubulin isotypes results in equivalent total b-tubulin levels in Tubb3−/− and wild-type mice. Despite similar levels of total β-tubulin, adult dorsal root ganglia lacking TUBB3 have decreased growth cone microtubule dynamics and a decreased neurite outgrowth rate of 22% in vitro and in vivo. The effect of the 22% slower growth rate is exacerbated for sensory recovery, where fibers must reinnervate the full volume of the skin to recover touch function. Overall, these data reveal that, while TUBB3 is not required for formation of the nervous system, it has a specific role in the rate of peripheral axon regeneration that cannot be replaced by other β-tubulins.

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Further delineation of the phenotype of truncating KMT2A mutations: The extended Wiedemann–Steiner syndrome

Sun

Liu

et al. 2016

American J of Med Genetics Pt A

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KMT2A mutations cause Wiedemann-Steiner syndrome (WDSTS), which is characterized by hypertrichosis cubiti, short stature, and distinct facial features in general. Here, we report two Chinese boys with novel nonsense KMT2A mutations. Most of their phenotypes are concordant with WDSTS. They, however, lack the key WDSTS feature-hypertrichosis cubiti. Additionally, their transverse palmar creases are absent. We further summarized the genotypes and phenotypes of the KMT2A mutation carriers. The consensus phenotypes include postnatal growth retardation, developmental delay, short stature, and intellectual disability. The common facial features include thick eyebrows, long eyelashes, downslanting, and narrow palpebral fissures, wide nasal bridge, and broad nasal tip. They have generalized hypertrichosis. A hairy back can be observed as frequently as hairy elbows in patients with KMT2A mutations. Absent palmar proximal transverse creases are only observed in these two Chinese boys. This might be due to the difference in ethnic background. Thus far, all mutations in KMT2A are located before the FYRC domain. They would truncate KMT2A mRNA transcripts. Haploinsufficiency of the histone methyltransferase activity would therefore influence transcriptional regulation. © 2016 Wiley Periodicals, Inc.

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Yanjie Fan

ADF/cofilin-mediated actin dynamics regulate AMPA receptor trafficking during synaptic plasticity

Neuronal-Specific TUBB3 Is Not Required for Normal Neuronal Function but Is Essential for Timely Axon Regeneration

Further delineation of the phenotype of truncating KMT2A mutations: The extended Wiedemann–Steiner syndrome

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