Jennifer S. Fosnaugh scite author profile

As immediate early genes (IEGs) are thought to play a critical role in mediating stimulus‐induced neuronal plasticity, several laboratories have characterized the IEG response induced by cocaine to help define the changes in gene expression that may underlie its long‐lasting behavioral effects. Although activation of several transcription factor IEGs has been described, little is known about which “effector” IEGs, if any, are also induced. In the present study, we have examined whether cocaine administration affects expression of a recently identified “effector” IEG, referred to as arc (activity‐regulated, cytoskeleton‐associated). This IEG encodes a protein with homology to spectrin that appears to be associated with the actin cytoskeleton. Using in situ hybridization, we have found that systemic cocaine administration elicits a robust, transient rise in arc mRNA levels in striatum, which is suppressed by D1 dopamine receptor blockade, reserpine treatment, or striatal 6‐hydroxydopamine lesions. D2 receptor antagonists triggered arc expression when administered alone. Immunohistochemical studies indicated that Arc protein induced by cocaine is expressed in neuronal cell bodies and dendrites. As Arc appears to be a component of the neuronal cytoskeleton, it may be involved in structural alterations underlying neuronal plasticity triggered by cocaine.

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Expression of the APC tumor suppressor protein in oligodendroglia

Bhat

Axt

Fosnaugh

et al. 1996

Glia

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Mutations of the adenomatous polyposis coli (APC) tumor suppressor gene have been linked to familial polyposis, an inherited predisposition to colon cancer, and a high percentage of sporadic colon adenomas. Although this gene is best known for its role in development of bowel neoplasms, in recent studies we have found that APC mRNA levels are greatly enriched in brain compared with peripheral tissues. To help define its role in the nervous system, in this study we have determined its cellular localization immunohistochemically in adult rat brain sections and have detected intense APC immunoreactivity in oligodendrocytes. Since prominent APC immunostaining is detected in cell bodies of mature oligodendrocytes, these antibodies may provide a useful addition to available oligodendrocyte markers. Although the cellular function of APC remains undefined, previous biochemical studies have demonstrated that APC is associated with catenins, cytoplasmic proteins involved in regulating cell-cell adhesion. We propose that, in addition to its critical role in ensuring normal maturation of colonic epithelial cells, the APC tumor suppressor protein also regulates the adhesive properties of oligodendrocytes.

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