Tonya R. Anderson scite author profile

Persistent changes in spine shape are coupled to long-lasting synaptic plasticity in hippocampus. The molecules that coordinate such persistent structural and functional plasticity are unknown. Here, we generated mice in which the cell adhesion molecule N-cadherin was conditionally ablated from postnatal, excitatory synapses in hippocampus. We applied to adult mice of either sex a combination of whole-cell recording, two-photon microscopy, and spine morphometric analysis to show that postnatal ablation of N-cadherin has profound effects on the stability of coordinated spine enlargement and long-term potentiation (LTP) at mature CA1 synapses, with no effects on baseline spine density or morphology, baseline properties of synaptic neurotransmission, or long-term depression. Thus, N-cadherin couples persistent spine structural modifications with long-lasting synaptic functional modifications associated selectively with LTP, revealing unexpectedly distinct roles at mature synapses in comparison with earlier, broader functions in synapse and spine development.

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Actin‐binding proteins in a postsynaptic preparation: Lasp‐1 is a component of central nervous system synapses and dendritic spines

Phillips

Anderson

Florens

et al. 2004

J of Neuroscience Research

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CNS synapses are complex sites of cell-cell communication. Identification and characterization of the protein components of synapses will lead to a better understanding of the mechanisms of neurotransmission and plasticity. We applied multidimensional protein identification technology (MudPIT) to purified, guanidine-solubilized postsynaptic fractions to identify novel synaptically localized molecules. We identified several actin-associated proteins known to regulate actin polymerization and control cell motility in nonneural cells that have not previously been associated with CNS synaptic function. One of these is lasp-1, an actin-associated LIM and SH3 domain-containing protein. We show that lasp-1 is strongly expressed by CNS neurons and is concentrated at synaptic sites. Overall, the preponderance of actin-associated proteins in postsynaptic density fractions, and specifically those involved in actin reorganization, suggests that there are many modes by which the state of synaptic F-actin polymerization and, hence, synaptic physiology are affected.

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Maturation of glutamatergic and GABAergic synapse composition in hippocampal neurons

Anderson¹,

Shah²,

Benson³

2004

Neuropharmacology

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Differential Pax6 promoter activity and transcript expression during forebrain development

Anderson

Hedlund

Carpenter

2002

Mechanisms of Development

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Three different Pax6 promoters -- P0, P1, and P alpha -- show differential activity in the developing eye and spinal cord. To examine promoter usage during forebrain development, we performed in situ hybridization and reverse transcription-polymerase chain reaction to detect transcripts initiated from each promoter. Promoter-specific transcripts are expressed within subdomains of total Pax6 expression, but differ from one another in their spatial localization and expression over time. Additionally, we identified a novel P0-initiated transcript and detected a developmentally regulated antisense transcript.

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Tonya R. Anderson

Persistence of Coordinated Long-Term Potentiation and Dendritic Spine Enlargement at Mature Hippocampal CA1 Synapses Requires N-Cadherin

Actin‐binding proteins in a postsynaptic preparation: Lasp‐1 is a component of central nervous system synapses and dendritic spines

Maturation of glutamatergic and GABAergic synapse composition in hippocampal neurons

Differential Pax6 promoter activity and transcript expression during forebrain development

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