Rachel E. Jackson scite author profile

SummaryThe active zone (AZ) matrix of presynaptic terminals coordinates the recruitment of voltage-gated calcium channels (VGCCs) and synaptic vesicles to orchestrate neurotransmitter release. However, the spatial organization of the AZ and how it controls vesicle fusion remain poorly understood. Here, we employ super-resolution microscopy and ratiometric imaging to visualize the AZ structure on the nanoscale, revealing segregation between the AZ matrix, VGCCs, and putative release sites. Long-term blockade of neuronal activity leads to reversible AZ matrix unclustering and presynaptic actin depolymerization, allowing for enrichment of AZ machinery. Conversely, patterned optogenetic stimulation of postsynaptic neurons retrogradely enhanced AZ clustering. In individual synapses, AZ clustering was inversely correlated with local VGCC recruitment and vesicle cycling. Acute actin depolymerization led to rapid (5 min) nanoscale AZ matrix unclustering. We propose a model whereby neuronal activity modulates presynaptic function in a homeostatic manner by altering the clustering state of the AZ matrix.

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Research Rankings of Behavior Analytic Graduate Training Programs and Their Faculty

Dixon¹,

Reed

Smith

et al. 2015

Behav Analysis Practice

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We evaluated research productivity of several graduate programs that provide Behavior Analyst Certification Board (BACB)-approved course sequences in behavior analysis. Considering the faculty of BACB training programs as a unit, in only about 50 %, programs have faculty combined to publish ten or more total articles in our field's primary empirical journals. Among individual faculty members, a sizeable number have not published an article in any of the field's top journals. To recognize major scholarly contributors, we provide top 10 lists of training programs and individual faculty members. We conclude by discussing the importance of research in an increasingly practice-driven marketplace.

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Distance-dependent gradient in NMDAR-driven spine calcium signals along tapering dendrites

Walker

Neves

Grillo

et al. 2017

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

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Neurons receive a multitude of synaptic inputs along their dendritic arbor, but how this highly heterogeneous population of synaptic compartments is spatially organized remains unclear. By measuring -methyl-d-aspartic acid receptor (NMDAR)-driven calcium responses in single spines, we provide a spatial map of synaptic calcium signals along dendritic arbors of hippocampal neurons and relate this to measures of synapse structure. We find that quantal NMDAR calcium signals increase in amplitude as they approach a thinning dendritic tip end. Based on a compartmental model of spine calcium dynamics, we propose that this biased distribution in calcium signals is governed by a gradual, distance-dependent decline in spine size, which we visualized using serial block-face scanning electron microscopy. Our data describe a cell-autonomous feature of principal neurons, where tapering dendrites show an inverse distribution of spine size and NMDAR-driven calcium signals along dendritic trees, with important implications for synaptic plasticity rules and spine function.

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Visualizing Presynaptic Calcium Dynamics and Vesicle Fusion with a Single Genetically Encoded Reporter at Individual Synapses

Jackson

Burrone

2016

Front. Synaptic Neurosci.

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Synaptic transmission depends on the influx of calcium into the presynaptic compartment, which drives neurotransmitter release. Genetically encoded reporters are widely used tools to understand these processes, particularly pHluorin-based reporters that report vesicle exocytosis and endocytosis through pH dependent changes in fluorescence, and genetically encoded calcium indicators (GECIs) that exhibit changes in fluorescence upon binding to calcium. The recent expansion of the color palette of available indicators has made it possible to image multiple probes simultaneously within a cell. We have constructed a single molecule reporter capable of concurrent imaging of both presynaptic calcium influx and exocytosis, by fusion of sypHy, the vesicle associated protein synaptophysin containing a GFP-based pHluorin sensor, with the red-shifted GECI R-GECO1. Due to the fixed stoichiometry of the two probes, the ratio of the two responses can also be measured, providing an all optical correlate of the calcium dependence of release. Here, we have characterized stimulus-evoked sypHy-RGECO responses of hippocampal synapses in vitro, exploring the effects of different stimulus strengths and frequencies as well as variations in external calcium concentrations. By combining live sypHy-RGECO imaging with post hoc fixation and immunofluorescence, we have also investigated correlations between structural and functional properties of synapses.

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Efficacy of benzathine penicillin G in group A streptococcal pharyngitis: Reevaluation

Feldman

Bisno

Lott

et al. 1987

The Journal of Pediatrics

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Rachel E. Jackson

Nanoscale Structural Plasticity of the Active Zone Matrix Modulates Presynaptic Function

Research Rankings of Behavior Analytic Graduate Training Programs and Their Faculty

Distance-dependent gradient in NMDAR-driven spine calcium signals along tapering dendrites

Visualizing Presynaptic Calcium Dynamics and Vesicle Fusion with a Single Genetically Encoded Reporter at Individual Synapses

Efficacy of benzathine penicillin G in group A streptococcal pharyngitis: Reevaluation

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