Eric Rutledge scite author profile

Summary: Astrocytic swelling occurs readily in ischemia and traumatic brain injury (TBI) as part of the cytotoxic or cellular edema response. Ischemia is known to pro duce large extracellular increases in both [K + 1 and excit atory amino acids (EAA) in vivo, and astrocytic swelling in vitro leads to marked release of EAA. In this study we compared the effect of swelling due to hypotonic media and high K + medium on the uptake and release of EAA by rat primary astrocyte cultures in vitro. In both cases, there was a significant inhibition of uptake of [3HlL glutamate and [3Hln-aspartate, and increased release of preloaded eHln-aspartate. The kinetics of the increased efflux was very different in response to hypotonic or high K + media. In hypotonic medium there was a rapid initial release followed by a decline in the rate of release over time. This release was independent of whether Na + was present. Upon exposure to high K + medium there was a Marked astrocyte swelling is a prominent occur rence during and after ischemia (Ames et aI. , 1968; Garcia et aI. , 1977; Kalimo et aI. , 1977; Jenkins et aI., 1979 Jenkins et aI., , 1982Garcia 1984; Kimelberg and Ran som, 1986;Kraig and Petito, 1989;Hatashita and Hoff, 1990; Chen et aI. , 1992; Siesjo, 1992). In order to study the consequences and mechanisms of such swelling we have used primary astrocyte cultures swollen by hypotonic or high K + solutions as model systems (Walz 1987; O'Connor et ai. , 1992). We and others have observed that exposure to such solu tions will release endogenous or preloaded radiola beled taurine, glutamate, or aspartate, and this ef-

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Release of [³H]-d-Aspartate from Primary Astrocyte Cultures in Response to Raised External Potassium

Rutledge¹,

Kimelberg

1996

J. Neurosci.

109

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There are significant Ca2+-independent increases in extracellular glutamate and aspartate during various CNS insults such as ischemia and anoxia. However, the cellular sources of such presumed nonvesicular excitatory amino acid (EAA) release have not been established. To further explore potential mechanisms and sites for EAA release, we studied the release of preloaded [3H]-D-aspartate from primary cultured astrocytes prepared from the cerebral cortices of rat pups. Two phases of release were seen in response to raised KCl. The first phase was small and transient, and the second phase was slower and increased progressively. The initial phase of [3H]-D-aspartate release was greatly enhanced by ouabain pretreatment and was inhibited when astrocytes were preexposed to the EAA transport inhibitor threo-hydroxy beta-aspartic acid (THBA). Neither of these manipulations affected the second release component. The second phase of release was inhibited by an anion channel blocker, L-644,711, which is known to inhibit hypotonic swelling-induced release of EAA. Ouabain also resulted in the first phase of release occurring at lower [K+]o. Omission of Ca2+ had no effect on either phase of [3H]-D-aspartate release. These results support the hypothesis that the first component of release in cultured astrocytes is a reversal of the glutamate transporter, and the second component is a result of high KCl-induced swelling. Because marked increases in [K+]o are well established in CNS pathologies such as ischemia, such release may represent a significant source for the increased extracellular EAAs seen in such conditions.

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Nuclear receptor coactivators function in estrogen receptor- and progestin receptor-dependent aspects of sexual behavior in female rats

Molenda-Figueira

Williams

Griffin

et al. 2006

Hormones and Behavior

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The ovarian hormones, estradiol (E) and progesterone (P) facilitate the expression of sexual behavior in female rats. E and P mediate many of these behavioral effects by binding to their respective intracellular receptors in specific brain regions. Nuclear receptor coactivators, including Steroid Receptor Coactivator-1 (SRC-1) and CREB Binding Protein (CBP), dramatically enhance ligand-dependent steroid receptor transcriptional activity in vitro. Previously, our lab has shown that SRC-1 and CBP modulate estrogen receptor (ER)-mediated induction of progestin receptor (PR) gene expression in the ventromedial nucleus of the hypothalamus (VMN) and hormone-dependent sexual receptivity in female rats. Female sexual behaviors can be activated by high doses of E alone in ovariectomized rats, and thus are believed to be ER-dependent. However, the full repertoire of female sexual behavior, in particular, proceptive behaviors such as hopping, darting and ear wiggling, are considered to be PR-dependent. In the present experiments, the function of SRC-1 and CBP in distinct ER- (Exp. 1) and PR- (Exp. 2) dependent aspects of female sexual behavior was investigated. In Exp. 1, infusion of antisense oligodeoxynucleotides to SRC-1 and CBP mRNA into the VMN decreased lordosis intensity in rats treated with E alone, suggesting that these coactivators modulate ER-mediated female sexual behavior. In Exp. 2, antisense to SRC-1 and CBP mRNA around the time of P administration reduced PR-dependent ear wiggling and hopping and darting. Taken together, these data suggest that SRC-1 and CBP modulate ER and PR action in brain and influence distinct aspects of hormone-dependent sexual behaviors. These findings support our previous studies and provide further evidence that SRC-1 and CBP function together to regulate ovarian hormone action in behaviorally-relevant brain regions.

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Cell cycle– and swelling-induced activation of a Caenorhabditis elegans ClC channel is mediated by CeGLC-7α/β phosphatases

Rutledge

Denton

Strange

2002

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ClC voltage-gated anion channels have been identified in bacteria, yeast, plants, and animals. The biophysical and structural properties of ClCs have been studied extensively, but relatively little is known about their precise physiological functions. Furthermore, virtually nothing is known about the signaling pathways and molecular mechanisms that regulate channel activity. The nematode Caenorhabditis elegans provides significant experimental advantages for characterizing ion channel function and regulation. We have shown previously that the ClC Cl− channel homologue CLH-3 is expressed in C. elegans oocytes, and that it is activated during meiotic maturation and by cell swelling. We demonstrate here that depletion of intracellular ATP or removal of Mg2+, experimental maneuvers that inhibit kinase function, constitutively activate CLH-3. Maturation- and swelling-induced channel activation are inhibited by type 1 serine/threonine phosphatase inhibitors. RNA interference studies demonstrated that the type 1 protein phosphatases CeGLC-7α and β, both of which play essential regulatory roles in mitotic and meiotic cell cycle events, mediate CLH-3 activation. We have suggested previously that CLH-3 and mammalian ClC-2 are orthologues that play important roles in heterologous cell–cell interactions, intercellular communication, and regulation of cell cycle–dependent physiological processes. Consistent with this hypothesis, we show that heterologously expressed rat ClC-2 is also activated by serine/threonine dephosphorylation, suggesting that the two channels have common regulatory mechanisms.

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Eric Rutledge

CLH-3, a ClC-2 anion channel ortholog activated during meiotic maturation in C. elegans oocytes

Astrocytic Swelling Due to Hypotonic or High K⁺Medium Causes Inhibition of Glutamate and Aspartate Uptake and Increases Their Release

Release of [³H]-d-Aspartate from Primary Astrocyte Cultures in Response to Raised External Potassium

Nuclear receptor coactivators function in estrogen receptor- and progestin receptor-dependent aspects of sexual behavior in female rats

Cell cycle– and swelling-induced activation of a Caenorhabditis elegans ClC channel is mediated by CeGLC-7α/β phosphatases

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Eric Rutledge

CLH-3, a ClC-2 anion channel ortholog activated during meiotic maturation in C. elegans oocytes

Astrocytic Swelling Due to Hypotonic or High K+Medium Causes Inhibition of Glutamate and Aspartate Uptake and Increases Their Release

Release of [3H]-d-Aspartate from Primary Astrocyte Cultures in Response to Raised External Potassium

Nuclear receptor coactivators function in estrogen receptor- and progestin receptor-dependent aspects of sexual behavior in female rats

Cell cycle– and swelling-induced activation of a Caenorhabditis elegans ClC channel is mediated by CeGLC-7α/β phosphatases

Contact Info

Product

Resources

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Astrocytic Swelling Due to Hypotonic or High K⁺Medium Causes Inhibition of Glutamate and Aspartate Uptake and Increases Their Release

Release of [³H]-d-Aspartate from Primary Astrocyte Cultures in Response to Raised External Potassium