Elizabeth Hackler scite author profile

Neurofibromatosis type 2 is an autosomal dominant disorder characterized by tumors, predominantly schwannomas, in the nervous system. It is caused by mutations in the gene NF2, encoding the growth regulator schwannomin (also known as merlin). Mutations occur throughout the 17-exon gene, with most resulting in protein truncation and undetectable amounts of schwannomin protein. Pathogenic mutations that result in production of defective schwannomin include in-frame deletions of exon 2 and three independent missense mutations within this same exon. Mice with conditional deletion of exon 2 in Schwann cells develop schwannomas, which confirms the crucial nature of exon 2 for growth control. Here we report that the molecular adaptor paxillin binds directly to schwannomin at residues 50-70, which are encoded by exon 2. This interaction mediates the membrane localization of schwannomin to the plasma membrane, where it associates with beta 1 integrin and erbB2. It defines a pathogenic mechanism for the development of NF2 in humans with mutations in exon 2 of NF2.

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5-HT2C receptor RNA editing in the amygdala of C57BL/6J, DBA/2J, and BALB/cJ mice

Hackler

Airey

Shannon

et al. 2006

Neuroscience Research

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5-Hydroxytryptamine2C Receptor Contribution to m-Chlorophenylpiperazine and N-Methyl-β-carboline-3-carboxamide-Induced Anxiety-Like Behavior and Limbic Brain Activation

Hackler¹,

Turner²,

Gresch³

et al. 2006

J Pharmacol Exp Ther

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Activation of 5-hydroxytryptamine2C (5-HT 2C ) receptors by the 5-HT 2 receptor agonist m-chlorophenylpiperazine (m-CPP) elicits anxiety in humans and anxiety-like behavior in animals. We compared the effects of m-CPP with the anxiogenic GABA A receptor inverse agonist N-methyl-␤-carboline-3-carboxamide (FG-7142) on both anxiety-like behavior and regional brain activation using functional magnetic resonance imaging (fMRI) in the rat. We also determined whether the selective 5-HT 2C receptor antagonist SB 242084 [6-chloro-2,3-dihydro-5-methyl-N-[6-[(2-methyl-3-pyridinyl)oxy]-3-pyridinyl]-1H-indole-1-carboxyamide dihydrochloride] would blunt m-CPP or FG-7142-induced neuronal activation. Both m-CPP (3 mg/kg i.p.) and FG-7142 (10 mg/kg i.p.) elicited anxiety-like behavior when measured in the social interaction test, and pretreatment with SB 242084 (1 mg/kg i.p.) completely blocked the behavioral effects of both anxiogenic drugs. Regional brain activation in vivo in response to anxiogenic drug challenge was determined by blood oxygen level-dependent (BOLD) fMRI using a powerful 9.4T magnet. Region of interest analyses revealed that m-CPP and FG-7142 significantly increased BOLD signals in brain regions that have been linked to anxiety, including the amygdala, dorsal hippocampus, and medial hypothalamus. These BOLD signal increases were blocked by pretreatment with SB 242084. In contrast, injection of m-CPP and FG-7142 resulted in BOLD signal decreases in the medial prefrontal cortex that were not blocked by SB 242084. In conclusion, the brain activation signals produced by anxiogenic doses of both m-CPP and FG-7142 are mediated at least partially by the 5-HT 2C receptor, indicating that this receptor is a key component in anxiogenic neural circuitry.The 5-hydroxytryptamine 2C (5-HT 2C ) receptor has been implicated in mood and anxiety disorders and is a target for development of novel anxiolytic drugs (Wood, 2003). Selective and nonselective 5-HT 2C receptor antagonists reduce anxiety-like behavior in several animal models of anxiety (Stutzmann et al., 1991;Kennett et al., 1995;Griebel et al., 1997). (Charney et al., 1987;Lowy and Meltzer, 1988;Kahn and Wetzler, 1991;Gatch, 2003;de Mello Cruz et al., 2005). For example, m-CPP administration to mice resulted in less time spent on the open arms of an elevated plus maze (Benjamin et al., 1990), and in rats, anxiety-like behavior has been reported in the This study was supported by National Institutes of Health Grants T32 GM07628, RO1 MH34007, and R01 EB02326 and a predoctoral fellowship from the PhRMA foundation (to E.A.H.).Article, publication date, and citation information can be found at http://jpet.aspetjournals.org. doi:10.1124/jpet.106.113357. 2C , 5-hydroxytryptamine2C; m-CPP, m-chlorophenylpiperazine; FG-7142, N-methyl-␤-carboline-3-carboxamide; SB 242084, 6-chloro-2,3-dihydro-5-methyl-N-[6-[(2-methyl-3-pyridinyl)oxy]-3-pyridinyl]-1H-indole-1-carboxyamide dihydrochloride; fMRI, functional magnetic resonance imaging; BOLD, blood oxygen level-dependent;...

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Selective potentiation of the metabotropic glutamate receptor subtype 2 blocks phencyclidine-induced hyperlocomotion and brain activation

et al. 2010

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Previous preclinical and clinical studies have demonstrated the efficacy of group II metabotropic glutamate receptor (mGluR) agonists as potential antipsychotics. Recent studies utilizing mGluR2-, mGluR3-, and double knockout mice support that the antipsychotic effects of those compounds are mediated by mGluR2. Indeed, biphenyl indanone-A (BINA), an allosteric potentiator of mGluR2, is effective in experimental models of psychosis, blocking phencyclidine (PCP)-induced hyperlocomotion and prepulse inhibition deficits in mice. In this study, we administered the NMDA receptor antagonist PCP (5.6 mg/kg i.p.) to rats, an established animal model predictive of schizophrenia. Here, we show that BINA (32 mg/kg i.p.) attenuated PCP-induced locomotor activity in rats. Using behaviorally relevant doses of BINA and PCP, we performed pharmacological magnetic resonance imaging (phMRI) to assess the specific brain regions that underlie the psychotomimetic effects of PCP, and examined how BINA modulated the PCP-induced functional changes in vivo. In anesthetized rats, acute administration of PCP produced robust, sustained blood oxygenation level-dependent (BOLD) activation in specific cortical, limbic, thalamic, and striatal regions. Pretreatment with BINA suppressed the amplitude of the BOLD response to PCP in the prefrontal cortex, caudaute–putamen, nucleus accumbens, and mediodorsal thalamus. Our results show key brain structures underlying PCP-induced behaviors in a preclinical model of schizophrenia, and, importantly, its reversal by potentiation of mGluR2 by BINA, revealing specific brain regions functionally involved in its pharmacological action. Finally, our findings bolster the growing body of evidence that mGluR2 is a viable target for the treatment of schizophrenia.

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