Jim Eberwine scite author profile

Cortical dysplasias (CD) are characterized histologically by disorganized cortical lamination and abnormally shaped neurons. We hypothesized that neurons within CD have failed to differentiate fully and may express proteins such as cytoskeletal elements characteristic of immature cells. Disrupted expression of certain cytoskeletal proteins, which have been implicated in neuronal polarity, process outgrowth, and migration, could result in disorganized cortical lamination. Thus, we probed two CD subtypes, focal CD (FCD) and hemimegalencephaly (HME), with antibodies specific for cytoskeletal proteins that are developmentally regulated in neural progenitor cells and neurons to define more fully the developmental phenotype of neurons within CD. Microtubule-associated protein 1B (MAP1B) and the intermediate filament (IF) protein nestin are enriched in neural progenitors, whereas MAP2B, phosphorylated and non-phosphorylated forms of medium (NFM) and high (NFH) molecular weight neurofilament (NF) proteins, as well as the light NF subunit (NFL) and IF protein alpha internexin are expressed in developing and mature neurons. Immunolabeling for internexin and MAP1B was more abundant in the most abnormally shaped neurons that populated dysplastic regions than in adjacent regions exhibiting milder cytoarchitectural abnormalities or control cortex. Nestin immunoreactivity was noted in large dysplastic and heterotopic neurons within the deeper cortical layers of CD specimens but not in normal cortex. In contrast, neurons in CD specimens also expressed cytoskeletal markers characteristic of differentiated neurons such as NF subunits and MAP2B. These findings suggest that the cytoarchitectural abnormalities in CD may reflect pathophysiological changes in the developing brain that disrupt expression of several key components of the neuronal cytoskeleton and may contribute to impaired migration of cortical neurons.

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Elk-1 associates with the mitochondrial permeability transition pore complex in neurons

Barrett¹,

Bockstaele

Sul³

et al. 2006

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

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Using coimmunoprecipitation and reciprocal coimmunoprecipitation from adult rat brain, we found an association between Elk-1 protein and the mitochondrial permeability transition pore complex (PTP), a structure involved in both apoptotic and necrotic cell death. Electron microscopy in adult rat brain sections confirmed this association with mitochondria. Elk-1 was also identified from purified mitochondrial fractions by using Western blotting, and Elk-1 increased its association with mitochondria following proapoptotic stimuli. Consistent with a role for Elk-1 in neuron viability, overexpression of Elk-1 in primary neurons decreased cell viability, whereas Elk-1 siRNA-mediated knockdown increased cell viability. This decrease in viability induced by Elk-1 overexpression was blocked with application of a PTP inhibitor. These results show an association of the nuclear transcription factor Elk-1 with the mitochondrial PTP and suggest an additional extranuclear function for Elk-1 in neurons.dendrite ͉ mitochondria ͉ viability

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Expression of mRNAs Encoding for Two Different Olfactory Receptors in a Subset of Olfactory Receptor Neurons

Rawson¹,

Eberwine²,

Dotson³

et al. 2000

Journal of Neurochemistry

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Evidence has accumulated to support a model for odorant detection in which individual olfactory receptor neurons (ORNs) express one of a large family of G protein-coupled receptor proteins that are activated by a small number of closely related volatile chemicals. However, the issue of whether an individual ORN expresses one or multiple types of receptor proteins has yet to be definitively addressed. Physiological data indicate that some individual ORNs can be activated by odorants differing substantially in structure and/or perceived quality, suggesting multiple receptors or one nonspecific receptor per cell. In contrast, molecular biological studies favor a scheme with a single, fairly selective receptor per cell. The present studies directly assessed whether individual rat ORNs can express multiple receptors using single-cell PCR techniques with degenerate primers designed to amplify a wide variety of receptor sequences. We found that whereas only a single OR sequence was obtained from most ORNs examined, one ORN produced two distinct receptor sequences that represented different receptor gene families. Double-label in situ hybridization studies indicated that a subset of ORNs co-express two distinct receptor mRNAs. A laminar segregation analysis of the cell nuclei of ORNs labeled with the two OR mRNA probes showed that for one probe, the histogram of the distribution of the cell nuclei along the depth of the epithelium was bimodal, with one peak overlapping the (unimodal) histogram for the other probe. These results are consistent with co-expression of two OR mRNAs in a population of single ORNs.

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Analysis of POMC Gene Expression by Transcription Assay and In Situ Hybridization Histochemistry

Roberts¹,

Eberwine²,

Gee³

1983

Cold Spring Harbor Symposia on Quantitative Biology

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Jim Eberwine

Internexin, MAP1B, and nestin in cortical dysplasia as markers of developmental maturity

Elk-1 associates with the mitochondrial permeability transition pore complex in neurons

Expression of mRNAs Encoding for Two Different Olfactory Receptors in a Subset of Olfactory Receptor Neurons

Analysis of POMC Gene Expression by Transcription Assay and In Situ Hybridization Histochemistry

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