Evidence for the gamma‐amino‐butyric acid type B receptor 1 (<i>GABBR1</i>) gene as a susceptibility factor in obsessive‐compulsive disorder

Zai, Gwyneth; Arnold, Paul; Burroughs, Eliza; Barr, Cathy L.; Richter, Margaret A.; Kennedy, James L.

doi:10.1002/ajmg.b.30152

Cited by 60 publications

(38 citation statements)

References 28 publications

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“…As described above, such deficits are consistent with proposed mechanisms of OCD pathogenesis (Rosenberg and Keshavan 1998). The observed deficits in GABA B receptor-mediated inhibition are consistent with a study implicating the GABA B receptor 1 (GABBR1) gene in susceptibility gene to OCD (Zai et al, 2005). Additionally, our findings of increased ICF in OCD are in line with a wellreplicated finding of association between the neuronal glutamate transporter gene SLC1A1 and OCD (Arnold et al, 2006;Dickel et al, 2006;Liang et al, 2008;Stewart et al, 2007).…”

Section: Discussionsupporting

confidence: 91%

“…Additional evidence supports the involvement of g-aminobutyric acid (GABA) and glutamatergic neurotransmission in OCD, including magnetic resonance spectroscopy studies, which suggest alterations in glutamate concentrations in the caudate in pediatric OCD (Rosenberg et al, 2000), and genetic studies implicating the glutamate transporter gene SLC1A1 (Arnold et al, 2006;Dickel et al, 2006), the glutamate N-Methyl-D-aspartate (NMDA) subunit receptor gene GRIN2B (Arnold et al, 2004;Dickel et al, 2006), as well as the GABA B receptor 1 (GABBR1) gene as susceptibility genes in OCD (Zai et al, 2005). Collectively the above represents compelling evidence that OCD is associated with deficient inhibition and excessive facilitation in the cortex.…”

Section: Introductionmentioning

confidence: 98%

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Evidence for Cortical Inhibitory and Excitatory Dysfunction in Obsessive Compulsive Disorder

Richter

Jesus

Hoppenbrouwers

et al. 2011

Neuropsychopharmacol

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Several lines of evidence suggest that obsessive-compulsive disorder (OCD) is associated with an inability to inhibit unwanted intrusive thoughts. The neurophysiological mechanisms mediating such inhibitory deficits include abnormalities in cortical g-aminobutyric acid (GABA) inhibitory as well as N-methyl-D-aspartate (NMDA) receptor-mediated mechanisms. Molecular evidence suggests that both these neurotransmitter systems are involved in OCD. Transcranial magnetic stimulation (TMS) represents a noninvasive technique to ascertain neurophysiological indices of inhibitory GABA and facilitatory NMDA receptor-mediated mechanisms. In this study, both mechanisms were indexed in 34 patients with OCD (23 unmedicated and 11 medicated) and compared with 34 healthy subjects. Cortical inhibitory and facilitatory neurotransmission was measured using TMS paradigms known as short-interval cortical inhibition (SICI), cortical silent period (CSP), and intracortical facilitation (ICF). Patients with OCD demonstrated significantly shortened CSP (po0.001, Cohen's d ¼ 0.91) and increased ICF (po0.009, Cohen's d ¼ 0.71) compared with healthy subjects. By contrast, there were no significant deficits in SICI. After excluding patients with OCD and comorbid major depressive disorder (MDD) from the analysis, these differences remained significant. Our findings suggest that OCD is associated with dysregulation in cortical inhibitory and facilitatory neurotransmission. Specifically, these findings suggest impairments in GABA B receptor-mediated and NMDA receptor-mediated neurotransmission. These findings are consistent with previously published genetic studies implicating GABA B , and NMDA transporter and receptor genes in OCD. It is posited that dysregulation of such mechanisms may lead to the generation and persistence of intrusive thoughts that form the basis for this disorder.

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Section: Discussionsupporting

confidence: 91%

Section: Introductionmentioning

confidence: 98%

Evidence for Cortical Inhibitory and Excitatory Dysfunction in Obsessive Compulsive Disorder

Richter

Jesus

Hoppenbrouwers

et al. 2011

Neuropsychopharmacol

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“…Here we test the predictions of the model regarding selection processes that are supported by the left ventrolateral prefrontal cortex. We do so for the following reasons: (i) this region has been implicated in selecting among competing alternatives during language processing (6,(15)(16)(17)(18); (ii) this region shows altered activity in individuals who suffer from anxiety (particularly anxious apprehension, characterized by worry, and hereafter referred to as "anxiety" (19); and (iii) GABAergic function is reduced in individuals with anxiety (20)(21)(22)(23). Hence, our model provides a unified framework that can link these formerly disconnected observations.…”

mentioning

confidence: 99%

Neural inhibition enables selection during language processing

Snyder

Hutchison²,

Nyhus³

et al. 2010

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

133

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Whether grocery shopping or choosing words to express a thought, selecting between options can be challenging, especially for people with anxiety. We investigate the neural mechanisms supporting selection during language processing and its breakdown in anxiety.Our neural network simulations demonstrate a critical role for competitive, inhibitory dynamics supported by GABAergic interneurons. As predicted by our model, we find that anxiety (associated with reduced neural inhibition) impairs selection among options and associated prefrontal cortical activity, even in a simple, nonaffective verb-generation task, and the GABA agonist midazolam (which increases neural inhibition) improves selection, whereas retrieval from semantic memory is unaffected when selection demands are low. Neural inhibition is key to choosing our words.P eople claim to love the freedom of unlimited choices, but in reality we are often stymied by too many options and disconcerted by not knowing what the outcomes of our choices will be. Selecting among multiple options is effortful and time consuming, whether choosing among fruit jams (1), retirement plans (2), or medical treatments (3). This problem is particularly pervasive during language production, when we must constantly choose words to express a thought (4-6). People with anxiety disorders find coping with too many options particularly difficult, and struggle with decision-making problems (7), indecisiveness (8), and intolerance of uncertainty (9). What mechanisms allow us to select among multiple options when speaking, and why does this process break down in people with anxiety? Current psychological theories of selection focus on the importance of cognitive control (5) and prefrontal cortical regions (4, 6, 10), but do not address questions at the level of specific neural mechanisms. We address these questions by implementing a unified, biologically plausible computational model of selection, and testing its predictions about both brain and behavior in humans making choices in a well-controlled language production task.Our model demonstrates how competitive, inhibitory dynamics among neurons in prefrontal cortical networks (11) support selection between alternatives. Specifically, these competitive dynamics serve to sharpen cognitive representations by amplifying activity in the most active, task-relevant, representations (e.g., the most appropriate word to complete a sentence) and suppressing competing representations (e.g., for the many other word possibilities). A tenet of the model is that these critical dynamics occur via inhibitory, GABAergic interneurons (12-14). Here we test the predictions of the model regarding selection processes that are supported by the left ventrolateral prefrontal cortex. We do so for the following reasons: (i) this region has been implicated in selecting among competing alternatives during language processing (6, 15-18); (ii) this region shows altered activity in individuals who suffer from anxiety (particularly anxious apprehension, characterized by w...

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“…In this case, the results suggest that OCD is associated with deficient cortical silent period and excessive intracortical facilitation, regardless of medication state, reflecting abnormalities in GABA B and NMDA-mediated neurotransmission, which is consistent with the reults of several genetic studies of this disorder. [76][77][78][79][80][81] The authors suggested that differences between their results and those previously published could be owing to the greater number of unmedicated patients and elevated symptom severity in their sample or to the different stimulation intensities used to elicit measures. The discrepant findings in the limited number of studies highlight the need for further research to better characterize the potential abnormalities seen in patients with OCD.…”

Section: Obsessive-compulsive Disordermentioning

confidence: 79%

Inhibition of the cortex using transcranial magnetic stimulation in psychiatric populations: current and future directions

Radhu

Ravindran

Levinson

et al. 2012

J Psychiatry Neurosci

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Evidence for the gamma‐amino‐butyric acid type B receptor 1 (GABBR1) gene as a susceptibility factor in obsessive‐compulsive disorder

Cited by 60 publications

References 28 publications

Evidence for Cortical Inhibitory and Excitatory Dysfunction in Obsessive Compulsive Disorder

Evidence for Cortical Inhibitory and Excitatory Dysfunction in Obsessive Compulsive Disorder

Neural inhibition enables selection during language processing

Inhibition of the cortex using transcranial magnetic stimulation in psychiatric populations: current and future directions

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