Glen S. Marrs scite author profile

The dynamics of postsynaptic density (PSD) formation and remodeling were investigated in live developing hippocampal tissue slices. Time lapse imaging of transfected neurons expressing GFP-tagged PSD95, a prominent PSD protein, revealed that up to 40% of PSDs in developing dendrites are structurally dynamic; they rapidly (<15 min) appear or disappear, but also grow, shrink and move within shafts and spines. New spines containing PSDs were formed by conversion of dynamic filopodia-like spine precursors in which PSDs appeared de novo, or by direct extension of spines or spine precursors carrying preformed PSDs from the shaft. PSDs are therefore highly dynamic structures that can undergo rapid structural alteration within dendrite shafts, spines and spine precursors, permitting rapid formation and remodeling of synaptic connections in developing CNS tissues.

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Neuronal activity regulates glutamate transporter dynamics in developing astrocytes

Benediktsson

Marrs

et al. 2011

Glia

108

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Glutamate transporters maintain a low ambient level of glutamate in the CNS and shape the activation of glutamate receptors at synapses. Nevertheless, the mechanisms that regulate the trafficking and localization of transporters near sites of glutamate release are poorly understood. Here we examined the subcellular distribution and dynamic remodeling of the predominant glutamate transporter GLT-1 (EAAT2) in developing hippocampal astrocytes. Immunolabeling revealed that endogenous GLT-1 is concentrated into discrete clusters along branches of developing astrocytes that were apposed preferentially to synapsin-1 positive synapses. GFP-GLT-1 fusion proteins expressed in astrocytes also formed distinct clusters that lined the edges of astrocyte processes, as well as the tips of filopodia and spine-like structures. Time-lapse 3D confocal imaging in tissue slices revealed that GFP-GLT-1 clusters were dynamically remodeled on a timescale of minutes. Some transporter clusters moved within developing astrocyte branches as filopodia extended and retracted, while others maintained stable positions at the tips of spine-like structures. Blockade of neuronal activity with tetrodotoxin reduced both the density and perisynaptic localization of GLT-1 clusters. Conversely, enhancement of neuronal activity increased the size of GLT-1 clusters and their proximity to synapses. Together, these findings indicate that neuronal activity influences both the organization of glutamate transporters in developing astrocyte membranes and their position relative to synapses.

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Broad Phenotypic Changes Associated with Gain of Radiation Resistance in Head and Neck Squamous Cell Cancer

Bansal

Mims

Kuremsky

et al. 2014

Antioxidants & Redox Signaling

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Using Fluorescent Post‐Labeling To Probe the Subcellular Localization of DNA‐Targeted Platinum Anticancer Agents

et al. 2013

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Green around the cells: A post‐labeling method was developed to image a DNA‐targeted platinum drug in cancer cells by confocal fluorescence microscopy. This was done using ligation chemistry between an azide‐functionalized platinum‐acridine anticancer drug and an alkyne‐modified dye, Alexa Fluor 488 (green star, see figure). The platinum‐acridine agent was shown to accumulate in the nucleoli of cancer cells (NCI‐H460).

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Embryonic origins of the mouse superior olivary complex

Marrs

Morgan

Howell

et al. 2013

Developmental Neurobiology

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Many areas of the central nervous system are organized into clusters of cell groups, with component cell groups exhibiting diverse but related functions. One such cluster, the superior olivary complex (SOC), is located in the ventral auditory brainstem in mammals. The SOC is an obligatory contact point for most projection neurons of the ventral cochlear nucleus and plays central roles in many aspects of monaural and binaural information processing. Despite their important interrelated functions, little is known about the embryonic origins of SOC nuclei, due in part to a paucity of developmental markers to distinguish individual cell groups. In this report, we present a collection of novel markers for the developing SOC nuclei in mice, including the transcription factors FoxP1, MafB, and Sox2, and the lineage-marking transgenic line En1-Cre. We use these definitive markers to examine the rhombic lip and rhombomeric origins of SOC nuclei and demonstrate that they can serve to uniquely identify SOC nuclei and subnuclei in newborn pups. The markers are also useful in identifying distinct nuclear domains within the presumptive SOC as early as embryonic day (E) 14.5, well before morphological distinction of individual nuclei is evident. These findings indicate that the mediolateral and dorsoventral position of SOC nuclei characteristic of the adult brainstem is established during early neurogenesis.

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Glen S. Marrs

Rapid formation and remodeling of postsynaptic densities in developing dendrites

Neuronal activity regulates glutamate transporter dynamics in developing astrocytes

Broad Phenotypic Changes Associated with Gain of Radiation Resistance in Head and Neck Squamous Cell Cancer

Using Fluorescent Post‐Labeling To Probe the Subcellular Localization of DNA‐Targeted Platinum Anticancer Agents

Embryonic origins of the mouse superior olivary complex

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