Stress transforms lateral habenula reward responses into punishment signals

Shabel, Steven J.; Wang, Chenyu; Monk, Bradley; Aronson, Sage; Malinow, Roberto

doi:10.1073/pnas.1903334116

Cited by 58 publications

(51 citation statements)

References 64 publications

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“…These data also suggest that there may be a disconnect between the transcriptional definition of cell types, and their functional encoding dynamics in vivo or ex vivo following aversive stimulus exposure. Electrophysiological (Amo et al, 2014;Cui et al, 2018;Lecca et al, 2017;Li et al, 2011;Yang et al, 2018) and calcium imaging (Shabel et al, 2019) studies show that large proportions of LHb neurons display an increase in their firing/activity rate in response to, or following aversive stimuli exposure, while our transcriptional profiling results suggests more molecular heterogeneity exists. Thus, it seems likely that despite the striking transcriptional differences across habenula cells, their activity dynamics could be similar (at least in response to simple aversive stimuli exposure), and driven largely by their anatomical connectivity.…”

Section: Discussionmentioning

confidence: 51%

Transcriptional and Spatial Resolution of Cell Types in the Mammalian Habenula

Hashikawa

Basiri

et al. 2019

Preprint

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SummaryThe habenula complex is appreciated as a critical regulator of motivated and pathological behavioral states via its output to midbrain nuclei. Despite this, transcriptional definition of cell populations that comprise both the medial (MHb) and lateral habenular (LHb) subregions in mammals remain undefined. To resolve this, we performed single-cell transcriptional profiling and highly multiplexed in situ hybridization experiments of the mouse habenula complex in naïve mice and those exposed to an acute aversive stimulus. Transcriptionally distinct neuronal cell types identified within the MHb and LHb, were spatially defined, and differentially engaged by aversive stimuli. Cell types identified in mice, also displayed a high degree of transcriptional similarity to those previously described in zebrafish, highlighting the well conserved nature of habenular cell types across the phylum. These data identify key molecular targets within habenula cell types, and provide a critical resource for future studies.

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Section: Discussionmentioning

confidence: 51%

Transcriptional and Spatial Resolution of Cell Types in the Mammalian Habenula

Hashikawa

Basiri

et al. 2019

Preprint

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“…A Go/NoGo task requires the animal to refrain from responding in S− trials. Studies in different vertebrates show that neurons of the HbL code for negative events 55 and are able to downregulate the activity of dopaminergic VTA cells 56 . As a result, the HbL plays a key role in aversion-induced behavioral suppression by generating a feedback signals that discourages behavioral repetition 57 .…”

Section: Discussionmentioning

confidence: 99%

Event-related functional MRI of awake behaving pigeons at 7T

et al. 2020

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Animal-fMRI is a powerful method to understand neural mechanisms of cognition, but it remains a major challenge to scan actively participating small animals under low-stress conditions. Here, we present an event-related functional MRI platform in awake pigeons using single-shot RARE fMRI to investigate the neural fundaments for visually-guided decision making. We established a head-fixated Go/NoGo paradigm, which the animals quickly learned under low-stress conditions. The animals were motivated by water reward and behavior was assessed by logging mandibulations during the fMRI experiment with close to zero motion artifacts over hundreds of repeats. To achieve optimal results, we characterized the species-specific hemodynamic response function. As a proof-of-principle, we run a color discrimination task and discovered differential neural networks for Go-, NoGo-, and response execution-phases. Our findings open the door to visualize the neural fundaments of perceptual and cognitive functions in birds—a vertebrate class of which some clades are cognitively on par with primates.

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“…Unlike the wild type (WT), cLH rats exhibit a helpless phenotype without prior exposure to stress, as demonstrated in the shuttle box or forced swim test (37). Consistent with its modeling maladaptive valence processing, cLH animals display abnormal reward responses like those observed in depressed patients (38)(39)(40). Furthermore, this line displays several depression-like symptoms (e.g., anhedonia, avolition, weight changes) (41) that improve with drugs (42)(43)(44) used to treat human depression, including ketamine (35).…”

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confidence: 91%

Opioid system is necessary but not sufficient for antidepressive actions of ketamine in rodents

Klein

Chandra

Sheriff

et al. 2020

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

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110

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Slow response to the standard treatment for depression increases suffering and risk of suicide. Ketamine, an N-methyl-d-aspartate (NMDA) receptor antagonist, can rapidly alleviate depressive symptoms and reduce suicidality, possibly by decreasing hyperactivity in the lateral habenula (LHb) brain nucleus. Here we find that in a rat model of human depression, opioid antagonists abolish the ability of ketamine to reduce the depression-like behavioral and LHb hyperactive cellular phenotypes. However, activation of opiate receptors alone is not sufficient to produce ketamine-like effects, nor does ketamine mimic the hedonic effects of an opiate, indicating that the opioid system does not mediate the actions of ketamine but rather is permissive. Thus, ketamine does not act as an opiate but its effects require both NMDA and opiate receptor signaling, suggesting that interactions between these two neurotransmitter systems are necessary to achieve an antidepressant effect.

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Stress transforms lateral habenula reward responses into punishment signals

Cited by 58 publications

References 64 publications

Transcriptional and Spatial Resolution of Cell Types in the Mammalian Habenula

Transcriptional and Spatial Resolution of Cell Types in the Mammalian Habenula

Event-related functional MRI of awake behaving pigeons at 7T

Opioid system is necessary but not sufficient for antidepressive actions of ketamine in rodents

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