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IRSp53 accumulates at the postsynaptic density under excitatory conditions

PLoS ONE (2017) 12(12)
DOI: 10.1371/journal.pone.0190250
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Abstract

IRSp53 (BAIAP2) is an abundant protein at the postsynaptic density (PSD) that binds to major PSD scaffolds, PSD-95 and Shanks, as well as to F-actin. The distribution of IRSp53 at the PSD in cultured hippocampal neurons was examined under basal and excitatory conditions by immuno-electron microscopy. Under basal conditions, label for IRSp53 is concentrated at the PSD. Upon depolarization by application of a medium containing 90 mM K+, the intensity of IRSp53 label at the PSD increased by 36±7%. Application of NMDA (50 μM) yielded 53±1% increase in the intensity of IRSp53 label at the PSD compared to controls treated with APV, an NMDA antagonist. The accumulation of IRSp53 label upon application of high K+ or NMDA was prominent at the deeper region of the PSD (the PSD pallium, lying 40–120 nm from the postsynaptic plasma membrane). IRSp53 molecules that accumulate at the distal region of the PSD pallium under excitatory conditions are too far from the plasma membrane to fulfill the generally recognized role of the protein as an effector of membrane-bound small GTPases. Instead, these IRSp53 molecules may have a structural role organizing the Shank scaffold and/or linking the PSD to the actin cytoskeleton.

Figures

  • Fig 1. Electron micrograph of an asymmetric synapse in dissociated hippocampal cultures, labelled with an antibody (Ab1) for IRSp53. To assess the labeling intensity at the PSD, two parallel lines, 120 nm deep, were drawn from the edges of the postsynaptic density into the cytoplasm, then a dashed line was drawn parallel to the postsynaptic membrane to mark the area for measurement. This dashed line is curved consistent with the curvature of the plasma membrane. Gold particles (seen as black grains of heterogeneous size) within the area were counted and the number was divided by the length of the PSD to yield the labeling intensity of the PSD (# label/μm PSD). Distance from the postsynaptic membrane for each gold particle was measured from the center of the particle to the outer edge of the postsynaptic membrane (white arrow). This image was from a depolarized sample. Scale bar = 0.1 μm.
  • Fig 2. Western immunoblots with two antibodies (Ab1 and Ab2) for IRSp53 show enrichment of the protein in PSD fractions. Fractions were isolated from cerebral cortices of rat brains and probed for two PSD markers, Shank and PSD-95, as well as IRSp53 (10 μg protein/lane). Homogenate (H), Synaptosome (Syn), Postsynaptic density (PSD).
  • Fig 3. Excitatory stimuli promote increased labelling for IRSp53 at the PSD. Dissociated hippocampal neuronal cultures were labeled with IRSp53 antibodies (A, C with Ab1; B with Ab2) under basal conditions (A), following depolarization with high K+ (B), or treatment with NMDA (C). Under basal conditions, label is typically concentrated at the PSD (large arrows in A) with some scattered label in the cytoplasm (small arrows in A). Upon stimulation (B, C), more label accumulates on the PSD. Scale bar = 0.1 μm, B&C share the same bar.
  • Table 1. Labeling intensity for IRSp53 in the PSD under control and excitatory conditions.
  • Fig 4. Treatment with high K+ (A) or NMDA (B) promotes accumulation of IRSp53 label at the PSD pallium. Data shown are from two representative experiments (see S2 and S3 Figs for all six experiments). Hippocampal cultures were incubated for 30 s in control medium or in media containing high K+ or NMDA. Distances of gold particles from the postsynaptic membrane were measured. Top panels: Histograms show the percentage of label located in consecutive laminar layers (10 nm bins). Bottom panels: Labeling intensities in core and pallium compartments were estimated as: labelling intensity in PSD x percentage of label in each compartment.

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CITATION STYLE

APA

Dosemeci, A., Burch, A., Loo, H., Toy, D., & Tao-Cheng, J. H. (2017). IRSp53 accumulates at the postsynaptic density under excitatory conditions. PLoS ONE, 12(12). https://doi.org/10.1371/journal.pone.0190250

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