Kentaro Abe scite author profile

Synaptic remodeling has been postulated as a mechanism underlying synaptic plasticity, and cadherin adhesion molecules are thought to be a regulator of such a process. We examined the effects of cadherin blockage on synaptogenesis in cultured hippocampal neurons. This blockade resulted in alterations of dendritic spine morphology, such as filopodia-like elongation of the spine and bifurcation of its head structure, along with concomitant disruption of the distribution of postsynaptic proteins. The accumulation of synapsin at presynaptic sites and synaptic vesicle recycling were also perturbed, although these synaptic responses to the cadherin blockade became less evident upon the maturation of the synapses. These findings suggest that cadherin regulates dendritic spine morphogenesis and related synaptic functions, presumably cooperating with cadherin-independent adhesive mechanisms to maintain spine-axon contacts.

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EPLIN mediates linkage of the cadherin–catenin complex to F-actin and stabilizes the circumferential actin belt

Abe¹,

Takeichi

2008

Proc. Natl. Acad. Sci. U.S.A.

360

366

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The cadherin-catenin complex is the major machinery for cell-cell adhesion in many animal species. This complex in general associates with actin fibers at its cytoplasmic side, organizing the adherens junction (AJ). In epithelial cells, the AJ encircles the cells near their apical surface and forms the ''zonula adherens'' or ''adhesion belt.'' The mechanism as to how the cadherin-catenin complex and F-actin cooperate to generate these junctional structures, however, remains unknown. Here, we show that EPLIN (epithelial protein lost in neoplasm; also known as Lima-1), an actin-binding protein, couples with ␣-catenin and, in turn, links the cadherin-catenin complex to F-actin. Without EPLIN, this linkage was unable to form. When EPLIN had been depleted in epithelial cells, the adhesion belt was disorganized and converted into zipper-like junctions in which actin fibers were radially arranged. However, nonjunctional actin fibers were not particularly affected by EPLIN depletion. As EPLIN is known to have the ability to suppress actin depolymerization, our results suggest that EPLIN functions to link the cadherin-catenin complex to F-actin and simultaneously stabilizes this population of actin fibers, resulting in the establishment of the adhesion belt.adherens junction ͉ epithelial cells ͉ cell adhesion

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Stability of dendritic spines and synaptic contacts is controlled by αN-catenin

et al. 2004

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Morphological plasticity of dendritic spines and synapses is thought to be crucial for their physiological functions. Here we show that alpha N-catenin, a linker between cadherin adhesion receptors and the actin cytoskeleton, is essential for stabilizing dendritic spines in rodent hippocampal neurons in culture. In the absence of alpha N-catenin, spine heads were abnormally motile, actively protruding filopodia from their synaptic contact sites. Conversely, alpha N-catenin overexpression in dendrites reduced spine turnover, causing an increase in spine and synapse density. Tetrodotoxin (TTX), a neural activity blocker, suppressed the synaptic accumulation of alpha N-catenin, whereas bicuculline, a GABA antagonist, promoted it. Furthermore, excess alpha N-catenin rendered spines resistant to the TTX treatment. These results suggest that alpha N-catenin is a key regulator for the stability of synaptic contacts.

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An Autoinhibited Structure of α-Catenin and Its Implications for Vinculin Recruitment to Adherens Junctions

Ishiyama

Tanaka

Abe

et al. 2013

Journal of Biological Chemistry

114

169

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Background: ␣-Catenin is an actin-binding protein that recruits vinculin to adherens junctions. Results: An elongated autoinhibited structure of ␣-catenin indicates structural and functional coupling of its vinculin-and actin-binding mechanisms. Conclusion:The anchoring strength of adherens junctions is dynamically regulated by ␣-catenin to match the actomyosingenerated tension. Significance: Multistate conformations of ␣-catenin facilitate the direct and vinculin-assisted linkages between the cadherincatenin complex and the actin cytoskeleton.

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Songbirds possess the spontaneous ability to discriminate syntactic rules

2011

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Whether the computational systems in language perception involve specific abilities in humans is debated. The vocalizations of songbirds share many features with human speech, but whether songbirds possess a similar computational ability to process auditory information as humans is unknown. We analyzed their spontaneous discrimination of auditory stimuli and found that the Bengalese finch (Lonchura striata var. domestica) can use the syntactical information processing of syllables to discriminate songs). These finches were also able to acquire artificial grammatical rules from synthesized syllable strings and to discriminate novel auditory information according to them. We found that a specific brain region was involved in such discrimination and that this ability was acquired postnatally through the encounter with various conspecific songs. Our results indicate that passerine songbirds spontaneously acquire the ability to process hierarchical structures, an ability that was previously supposed to be specific to humans.

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Kentaro Abe

Cadherin Regulates Dendritic Spine Morphogenesis

EPLIN mediates linkage of the cadherin–catenin complex to F-actin and stabilizes the circumferential actin belt

Stability of dendritic spines and synaptic contacts is controlled by αN-catenin

An Autoinhibited Structure of α-Catenin and Its Implications for Vinculin Recruitment to Adherens Junctions

Songbirds possess the spontaneous ability to discriminate syntactic rules

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