Dopamine in amygdala gates limbic processing of aversive stimuli in humans

Kienast, Thorsten; Hariri, Ahmad R.; Schlagenhauf, Florian; Wrase, Jana; Sterzer, Philipp; Buchholz, Hans Georg; Smolka, Michael N.; Gründer, Gerhard; Cumming, Paul; Kumakura, Yoshitaka; Bartenstein, Peter; Dolan, Raymond J.; Heinz, Andreas

doi:10.1038/nn.2222

Cited by 156 publications

(116 citation statements)

References 15 publications

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“…We found that DA D1 receptors, but not D2 receptors, predicted amygdala response induced by novel facial stimuli with either neutral or fearful expression. Our findings broaden our knowledge about dopaminergic transmission in amygdala response beyond the recent study (Kienast et al, 2008) that elucidated the relation between presynaptic dopamine synthesis and amygdala reactivity.…”

Section: Discussionmentioning

confidence: 51%

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Contribution of Dopamine D1 and D2 Receptors to Amygdala Activity in Human

Takahashi¹,

Takano²,

Kodaka³

et al. 2010

J. Neurosci.

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Several animal studies have demonstrated functional roles of dopamine (DA) D1 and D2 receptors in amygdala activity. However, the contribution of DA D1 and D2 receptors to amygdala response induced by affective stimuli in human is unknown. To investigate the contribution of DA receptor subtypes to amygdala reactivity in human, we conducted a multimodal in vivo neuroimaging study in which DA D1 and D2 receptor bindings in the amygdala were measured with positron emission tomography (PET), and amygdala response induced by fearful faces was assessed by functional magnetic resonance imaging (fMRI) in healthy volunteers. We used multimodality voxelwise correlation analysis between fMRI signal and DA receptor binding measured by PET. DA D1 binding in the amygdala was positively correlated with amygdala signal change in response to fearful faces, but DA D2 binding in the amygdala was not related to amygdala signal change. DA D1 receptors might play a major role in enhancing amygdala response when sensory inputs are affective.

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Section: Discussionmentioning

confidence: 51%

“…In addition, another fMRI study of healthy volunteers has demonstrated that amphetamine potentiated the response of the amygdala during an emotional task . More recently, Kienast et al (2008) reported that dopamine storage capacity in human amygdala, measured with 6-[…”

Section: Introductionmentioning

confidence: 99%

Contribution of Dopamine D1 and D2 Receptors to Amygdala Activity in Human

Takahashi¹,

Takano²,

Kodaka³

et al. 2010

J. Neurosci.

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“…fMRI paradigms. FMT based on emotion identity recognition, this task, originally developed by Hariri et al (2000), has been widely used by our group and others (Hariri et al, 2002;Kienast et al, 2008) and has been shown to strongly engage the amygdala and HF. The subjects underwent two experimental conditions: emotional identity face matching and a sensorimotor task.…”

Section: Subjectsmentioning

confidence: 99%

Effect of Schizophrenia Risk-Associated Alleles in SREB2 (GPR85) on Functional MRI Phenotypes in Healthy Volunteers

Radulescu¹,

Sambataro

Mattay

et al. 2012

Neuropsychopharmacol

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Genetic variants in GPR85 (SREB2: rs56080411 and rs56039557) have been associated with risk for schizophrenia. Here, we test the hypothesis that these variants impact on brain function in normal subjects, measured with functional magnetic resonance imaging (fMRI) paradigms that target regions with greatest SREB2 expression (hippocampal formation and amygdaloid complex). During a facial emotion recognition paradigm, a significant interaction of rs56080411 genotype by sex was found in the left amygdaloid complex (male risk allele carriers showed less activation than male homozygotes for the non-risk allele, while females showed the opposite pattern). During aversive encoding of an emotional memory paradigm, we found that risk allele carriers for rs56080411 had greater activation in the right inferior frontal gyrus. Trends in the same direction were present for rs56039557 in the right occipital cortex and right fusiform gyrus. During a working memory paradigm, a significant sex-by-genotype interaction was found with male risk allele carriers of rs56080411 having inefficient activation within the left dorsolateral prefrontal cortex (DLPFC), compared with same sex non-risk carriers, while females revealed an opposite pattern, despite similar levels of performance. These data suggest that risk-associated variants in SREB2 are associated with phenotypes similar to those found in patients with schizophrenia in the DLPFC and the amygdala of males, while the pattern is opposite in females. The findings in females and during the emotional memory paradigm are consistent with modulation by SREB2 of brain circuitries implicated in mood regulation and may be relevant to neuropsychiatric conditions other than schizophrenia.

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“…There are also strong anatomical connections between rostral parts of ACC and other limbic structures involved in affect and motivation, such as the amygdala and insula (van Hoesen, Morecraft, & Vogt, 1993;Ongur & Price, 2000; see also Ochsner & Gross, 2005;Kienast et al, 2008). Based on this evidence, some theories proposed that ACC activity following errors could also reflect an appraisal of the affective significance or salience of errors (Luu, Tucker, Derryberry, Reed, & Poulsen, 2003;Hajcak, Moser, Yeung, & Simons, 2005;Pizzagalli, Peccoralo, Davidson, & Cohen, 2006;Taylor et al, 2006;Polli et al, 2008Polli et al, , 2009Li et al, 2008;Hajcak & Foti, 2008).…”

Section: Introductionmentioning

confidence: 99%

“…Further, in a recent scalp ERP study in healthy participants, Hajcak & Foti (2008) found that the startle blink reflex was enhanced following errors during a flanker task, suggesting that error monitoring could also activate the defensive motivational system responsible for the startle reflex (Lang, Bradley, & Cuthbert, 1990). Because both the amygdala and insula are implicated in anxiety and defensive behaviors, these limbic regions might also contribute to error detection processes taking place in dorsal ACC (Ochsner & Gross, 2005;Fales et al, 2008;Kienast et al, 2008). Indirect evidence in support of this theory comes from a few neuroimaging studies that showed increased activity to errors not only in ACC and PFC, but also in deeper limbic brain structures such as the amygdala, insula, and thalamus (Menon, Adleman, White, Glover, & Reiss, 2001;Garavan, Ross, Murphy, Roche, & Stein, 2002;Polli et al, 2008;Li et al, 2008).…”

Section: Introductionmentioning

confidence: 99%

Errors recruit both cognitive and emotional monitoring systems: Simultaneous intracranial recordings in the dorsal anterior cingulate gyrus and amygdala combined with fMRI

Pourtois¹,

Vocat²,

N’Diaye³

et al. 2010

Neuropsychologia

119

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We studied error monitoring in a human patient with unique implantation of depth electrodes in both the left dorsal cingulate gyrus and medial temporal lobe prior to surgery. The patient performed a speeded go/nogo task and made a substantial number of commission errors (false alarms). As predicted, intracranial Local Field Potentials (iLFPs) in dorsal anterior cingulate indexed the detection of errors, showing an early differential activity around motor execution for false alarms, relative to correct responses (either hits or correct inhibitions). More surprisingly, we found that the left amygdala also participated to error monitoring (although no emotional stimuli were used), but with a very different neurophysiological profile as compared with the dorsal cingulate cortex. Amygdala iLFPs showed a precise and reproducible temporal unfolding, characterized by an early monophasic response for correct hits around motor execution, which was delayed by ~300 ms for errors (even though actual RTs were almost identical in these two conditions). Moreover, time-frequency analyses demonstrated a reliable and transient coupling in the theta band around motor execution between these two distant regions. Additional fMRI investigation in the same patient confirmed a differential involvement of the dorsal cingulate cortex vs. amygdala in error monitoring during this go/nogo task. Finally, these intracranial results for the left amygdala were replicated in a second patient with intracranial electrodes in the right amygdala. Altogether, these results suggest that the amygdala may register the motivational significance of motor actions on a trial-by-trial basis, while the dorsal anterior cingulate cortex may provide signals concerning failures of cognitive control and behavioral adjustment. More generally, these data shed new light on neural mechanisms underlying self monitoring by showing that even "simple" motor actions recruit not only executive cognitive processes (in dorsal cingulate) but also affective processes (in amygdala).

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Dopamine in amygdala gates limbic processing of aversive stimuli in humans

Cited by 156 publications

References 15 publications

Contribution of Dopamine D1 and D2 Receptors to Amygdala Activity in Human

Contribution of Dopamine D1 and D2 Receptors to Amygdala Activity in Human

Effect of Schizophrenia Risk-Associated Alleles in SREB2 (GPR85) on Functional MRI Phenotypes in Healthy Volunteers

Errors recruit both cognitive and emotional monitoring systems: Simultaneous intracranial recordings in the dorsal anterior cingulate gyrus and amygdala combined with fMRI

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