mGluR8 Modulates Excitatory Transmission in the Bed Nucleus of the Stria Terminalis in a Stress-Dependent Manner

Gosnell, Heather; Silberman, Yuval; Grueter, Brad A.; Duvoisin, Robert M.; Raber, Jacob; Winder, Danny G.

doi:10.1038/npp.2011.40

Cited by 24 publications

(14 citation statements)

References 34 publications

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“…a 1 -AR-Induced Depression of Excitatory Transmission in the dlBNST is Not Blocked by an OX 1 R Antagonist As shown above, orexin A, acting at the OX 1 R, depresses excitatory transmission in the dlBNST. Similarly, previous work in our lab has demonstrated that several other Gq-linked receptors (eg, a 1 -AR, mGluR1, mGluR5) cause a depression of excitatory transmission in the dlBNST (Gosnell et al, 2011;Grueter et al, 2006;McElligott et al, 2010;Winder, 2008, 2009). Although the a 1 -AR antagonist prazosin did not block yohimbine-induced depression of excitatory transmission (see above), to further address possible activation of common downstream effectors, we investigated if an OX 1 R antagonist could block methoxamine (a Gq-linked a 1 -AR)-induced depression in the dlBNST.…”

Section: Yohimbine-induced Depression Of Excitatory Transmission In Tsupporting

confidence: 74%

Yohimbine Depresses Excitatory Transmission in BNST and Impairs Extinction of Cocaine Place Preference Through Orexin-Dependent, Norepinephrine-Independent Processes

Conrad

Davis

Silberman

et al. 2012

Neuropsychopharmacol

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The alpha2 adrenergic receptor (a 2 -AR) antagonist yohimbine is a widely used tool for the study of anxiogenesis and stress-induced drug-seeking behavior. We previously demonstrated that yohimbine paradoxically depresses excitatory transmission in the bed nucleus of the stria terminalis (BNST), a region critical to the integration of stress and reward pathways, and produces an impairment of extinction of cocaine-conditioned place preference (cocaine-CPP) independent of a 2 -AR signaling. Recent studies show yohimbineinduced drug-seeking behavior is attenuated by orexin receptor 1 (OX 1 R) antagonists. Moreover, yohimbine-induced cocaine-seeking behavior is BNST-dependent. Here, we investigated yohimbine-orexin interactions. Our results demonstrate yohimbine-induced depression of excitatory transmission in the BNST is unaffected by alpha1-AR and corticotropin-releasing factor receptor-1 (CRFR 1 ) antagonists, but is (1) blocked by OxR antagonists and (2) absent in brain slices from orexin knockout mice. Although the actions of yohimbine were not mimicked by the norepinephrine transporter blocker reboxetine, they were by exogenously applied orexin A. We find that, as with yohimbine, orexin A depression of excitatory transmission in BNST is OX 1 R-dependent. Finally, we find these ex vivo effects are paralleled in vivo, as yohimbine-induced impairment of cocaine-CPP extinction is blocked by a systemically administered OX 1 R antagonist. These data highlight a new mechanism for orexin on excitatory anxiety circuits and demonstrate that some of the actions of yohimbine may be directly dependent upon orexin signaling and independent of norepinephrine and CRF in the BNST.

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Section: Yohimbine-induced Depression Of Excitatory Transmission In Tsupporting

confidence: 74%

Yohimbine Depresses Excitatory Transmission in BNST and Impairs Extinction of Cocaine Place Preference Through Orexin-Dependent, Norepinephrine-Independent Processes

Conrad

Davis

Silberman

et al. 2012

Neuropsychopharmacol

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“…Consistent with this, mGlu 8 KO mice display deficits in hippocampal-dependent learning [219]. Additionally, mGlu 8 suppresses glutamatergic input into the bed nucleus of the stria terminalis (BNST) implicating a role for this receptor in anxiety and stress [220], consistent with results observed in the mGlu 8 KO mice [221]. Similar to both mGlu 4 and mGlu 7 , the neuromodulatory role of mGlu 8 in brain regions implicated in learning and memory suggests that mGlu 8 ligands could be beneficial in treating the cognitive deficits in patients with schizophrenia.…”

Section: Group III Mglu Receptors (Mglu4 Mglu7 and Mglu8)mentioning

confidence: 88%

Targeting metabotropic glutamate receptors for novel treatments of schizophrenia

2017

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Support for the N-methyl-d-aspartate receptor (NMDAR) hypofunction hypothesis of schizophrenia has led to increasing focus on restoring proper glutamatergic signaling as an approach for treatment of this devastating disease. The ability of metabotropic glutamate (mGlu) receptors to modulate glutamatergic neurotransmission has thus attracted considerable attention for the development of novel antipsychotics. Consisting of eight subtypes classified into three groups based on sequence homology, signal transduction, and pharmacology, the mGlu receptors provide a wide range of targets to modulate NMDAR function as well as glutamate release. Recently, allosteric modulators of mGlu receptors have been developed that allow unprecedented selectivity among subtypes, not just groups, facilitating the investigation of the effects of subtype-specific modulation. In preclinical animal models, positive allosteric modulators (PAMs) of the group I mGlu receptor mGlu5 have efficacy across all three symptom domains of schizophrenia (positive, negative, and cognitive). The discovery and development of mGlu5 PAMs that display unique signal bias suggests that efficacy can be retained while avoiding the neurotoxic effects of earlier compounds. Interestingly, mGlu1 negative allosteric modulators (NAMs) appear efficacious in positive symptom models of the disease but are still in early preclinical development. While selective group II mGlu receptor (mGlu2/3) agonists have reached clinical trials but were unsuccessful, specific mGlu2 or mGlu3 receptor targeting still hold great promise. Genetic studies implicated mGlu2 in the antipsychotic effects of group II agonists and mGlu2 PAMs have since entered into clinical trials. Additionally, mGlu3 appears to play an important role in cognition, may confer neuroprotective effects, and thus is a promising target to alleviate cognitive deficits in schizophrenia. Although group III mGlu receptors (mGlu4/6/7/8) have attracted less attention, mGlu4 agonists and PAMs appear to have efficacy across all three symptoms domains in preclinical models. The recent discovery of heterodimers comprising mGlu2 and mGlu4 may explain the efficacy of mGlu4 selective compounds but this remains to be determined. Taken together, compounds targeting mGlu receptors, specifically subtype-selective allosteric modulators, provide a compelling alternative approach to fill the unmet clinical needs for patients with schizophrenia.

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“…Although genetic variations of GRM8 in schizophrenia and the antipsychotic effects of mGluR8 agonists have been inconsistently reported in the literature [71, 72, 73, 74], there are conclusive reports regarding its role in mediating excitatory transmission in response to environmental stressors. In fact, the mGlu8 receptor has been specifically implicated in anxiety and stress-related behaviors and its activation has been shown to produce strong anxiolytic effects [75, 76]. Thus, the observed increase in its expression might represent another adaptive response in SLC1A1 deletion carriers, thereby helping them to deal better with stressful stimuli or events.…”

Section: Discussionmentioning

confidence: 99%

Characterization of a Novel Mutation in <b><i>SLC1A1 </i></b>Associated with Schizophrenia

Afshari¹,

Myles-Worsley

Cohen

et al. 2015

Complex Psychiatry

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We have recently described a hemi-deletion on chromosome 9p24.2 at the SLC1A1 gene locus and its co-segregation with schizophrenia in an extended Palauan pedigree. This finding represents a point of convergence for several pathophysiological models of schizophrenia. The present report sought to characterize the biological consequences of this hemi-deletion. Dual luciferase assays demonstrated that the partially deleted allele (lacking exon 1 and the native promoter) can drive expression of a 5′-truncated SLC1A1 using sequence upstream of exon 2 as a surrogate promoter. However, confocal microscopy and electrophysiological recordings demonstrate that the 5′-truncated SLC1A1 lacks normal membrane localization and glutamate transport ability. To identify downstream consequences of the hemi-deletion, we first used a themed qRT-PCR array to compare expression of 84 GABA and glutamate genes in RNA from peripheral blood leukocytes in deletion carriers (n = 11) versus noncarriers (n = 8) as well as deletion carriers with psychosis (n = 5) versus those without (n = 3). Then, targeted RNA-Seq (TREx) was used to quantify expression of 375 genes associated with neuropsychiatric disorders in HEK293 cells subjected to either knockdown of SLC1A1 or overexpression of full-length or 5′-truncated SLC1A1. Expression changes of several genes strongly implicated in schizophrenia pathophysiology were detected (e.g. SLC1A2, SLC1A3, SLC1A6, SLC7A11, GRIN2A, GRIA1 and DLX1).

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mGluR8 Modulates Excitatory Transmission in the Bed Nucleus of the Stria Terminalis in a Stress-Dependent Manner

Cited by 24 publications

References 34 publications

Yohimbine Depresses Excitatory Transmission in BNST and Impairs Extinction of Cocaine Place Preference Through Orexin-Dependent, Norepinephrine-Independent Processes

Yohimbine Depresses Excitatory Transmission in BNST and Impairs Extinction of Cocaine Place Preference Through Orexin-Dependent, Norepinephrine-Independent Processes

Targeting metabotropic glutamate receptors for novel treatments of schizophrenia

Characterization of a Novel Mutation in <b><i>SLC1A1 </i></b>Associated with Schizophrenia

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