Reward processing by the lateral habenula in normal and depressive behaviors

Proulx, Christophe D.; Hikosaka, Okihide; Malinow, Roberto

doi:10.1038/nn.3779

Cited by 376 publications

(371 citation statements)

References 97 publications

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“…These phenotypes are not restricted to zebrafish: Lat À/À mice also show alterations in several brain regions including cortex and habenula, a structure that plays a central role in the positive and negative reinforcements of the reward process. [51][52][53] Cd247 À/À mice show brain morphological defects, in particular reduced glutamatergic synaptic activity in the retina 54 and synaptic plasticity in the hippocampus, 41 as well as impaired learning and memory, a T cell-independent mechanism. 44 In zebrafish, ZAP70 is expressed ubiquitously in early development, and highly and specifically in the head from the 16-somite stage, with low expression level throughout the rest of the embryo.…”

Section: Discussionmentioning

confidence: 99%

The Immune Signaling Adaptor LAT Contributes to the Neuroanatomical Phenotype of 16p11.2 BP2-BP3 CNVs

Loviglio

Arbogast

Jønch³

et al. 2017

The American Journal of Human Genetics

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Copy-number changes in 16p11.2 contribute significantly to neuropsychiatric traits. Besides the 600 kb BP4-BP5 CNV found in 0.5%-1% of individuals with autism spectrum disorders and schizophrenia and whose rearrangement causes reciprocal defects in head size and body weight, a second distal 220 kb BP2-BP3 CNV is likewise a potent driver of neuropsychiatric, anatomical, and metabolic pathologies. These two CNVs are engaged in complex reciprocal chromatin looping, intimating a functional relationship between genes in these regions that might be relevant to pathomechanism. We assessed the drivers of the distal 16p11.2 duplication by overexpressing each of the nine encompassed genes in zebrafish. Only overexpression of LAT induced a reduction of brain proliferating cells and concomitant microcephaly. Consistently, suppression of the zebrafish ortholog induced an increase of proliferation and macrocephaly. These phenotypes were not unique to zebrafish; Lat knockout mice show brain volumetric changes. Consistent with the hypothesis that LAT dosage is relevant to the CNV pathology, we observed similar effects upon overexpression of CD247 and ZAP70, encoding members of the LAT signalosome. We also evaluated whether LAT was interacting with KCTD13, MVP, and MAPK3, major driver and modifiers of the proximal 16p11.2 600 kb BP4-BP5 syndromes, respectively. Co-injected embryos exhibited an increased microcephaly, suggesting the presence of genetic interaction. Correspondingly, carriers of 1.7 Mb BP1-BP5 rearrangements that encompass both the BP2-BP3 and BP4-BP5 loci showed more severe phenotypes. Taken together, our results suggest that LAT, besides its well-recognized function in T cell development, is a major contributor of the 16p11.2 220 kb BP2-BP3 CNV-associated neurodevelopmental phenotypes.

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Section: Discussionmentioning

confidence: 99%

The Immune Signaling Adaptor LAT Contributes to the Neuroanatomical Phenotype of 16p11.2 BP2-BP3 CNVs

Loviglio

Arbogast

Jønch³

et al. 2017

The American Journal of Human Genetics

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“…In the habenula, GPR139-positive neurons project axons via the fasciculus retroflexus to the interpeduncular nucleus, where both GPR139 and b-gal immunoreactivity is detected. The expression of GPR139 in the medial habenula is interesting, as the mammalian habenula is involved in regulating the activities of serotonergic and dopaminergic neurons (Hikosaka, 2010;Proulx et al, 2014). In contrast to the lateral habenula, the medial habenula is relatively understudied.…”

Section: Gpr139 Is Activated By L-tryptophan and L-phenylalaninementioning

confidence: 99%

GPR139, an Orphan Receptor Highly Enriched in the Habenula and Septum, Is Activated by the Essential Amino Acids l-Tryptophan and l-Phenylalanine

et al. 2015

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GPR139 is an orphan G-protein-coupled receptor expressed in the central nervous system. To identify its physiologic ligand, we measured GPR139 receptor activity from recombinant cells after treatment with amino acids, orphan ligands, serum, and tissue extracts. GPR139 activity was measured using guanosine 59-O-(3-[ Sequence alignment revealed that GPR139 is highly conserved across species, and RNA sequencing studies of rat and human tissues indicated its exclusive expression in the brain and pituitary gland. Immunohistochemical analysis showed specific expression of the receptor in circumventricular regions of the habenula and septum in mice. Together, these findings suggest that L-Trp and L-Phe are candidate physiologic ligands for GPR139, and we hypothesize that this receptor may act as a sensor to detect dynamic changes of L-Trp and L-Phe in the brain.

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“…Function of these monoaminergic pathways is controlled by inhibitory and excitatory neurons, including important populations residing locally within the monoaminergic nuclei as well as in the adjacent midbrain and anterior hindbrain (Russo and Nestler, 2013;Lammel et al, 2014;Proulx et al, 2014;Morello and Partanen, 2015). Dysfunction of monoaminergic circuits is thought to lead to a multitude of psychiatric and neurophysiological disorders, such as schizophrenia, depression, addiction and Parkinson's disease.…”

Section: Introductionmentioning

confidence: 99%

“…Collectively, these GABAergic neurons are referred to as dopaminergic neuron-associated GABAergic (D-GABA) neurons . It has been suggested that the RMTg integrates signals from different parts of the brain, including the lateral habenula (LHb), converting them into inhibitory inputs to both DA and 5-HT networks (Lavezzi and Zahm, 2011;Barrot et al, 2012;Bourdy and Barrot, 2012;Proulx et al, 2014;Sego et al, 2014).…”

Section: Introductionmentioning

confidence: 99%

“…Recent studies have also identified glutamatergic neurons embedded in the DA nuclei themselves and these may provide local excitatory neurotransmission (Morales and Root, 2014). Moreover, the interpeduncular nucleus (IPN) below the DA and RMTg nuclei can relay excitatory input to monoaminergic neurons, in particular the 5-HT system (Groenewegen et al, 1986;Proulx et al, 2014;Antolin-Fontes et al, 2015).…”

Section: Introductionmentioning

confidence: 99%

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Differentiation and molecular heterogeneity of inhibitory and excitatory neurons associated with midbrain dopaminergic nuclei

et al. 2015

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Local inhibitory GABAergic and excitatory glutamatergic neurons are important for midbrain dopaminergic and hindbrain serotonergic pathways controlling motivation, mood, and voluntary movements. Such neurons reside both within the dopaminergic nuclei, and in adjacent brain structures, including the rostromedial and laterodorsal tegmental nuclei. Compared with the monoaminergic neurons, the development, heterogeneity, and molecular characteristics of these regulatory neurons are poorly understood. We show here that different GABAergic and glutamatergic subgroups associated with the monoaminergic nuclei express specific transcription factors. These neurons share common origins in the ventrolateral rhombomere 1, where the postmitotic selector genes Tal1, Gata2 and Gata3 control the balance between the generation of inhibitory and excitatory neurons. In the absence of Tal1, or both Gata2 and Gata3, the GABAergic precursors adopt glutamatergic fates and populate the glutamatergic nuclei in excessive numbers. Together, our results uncover developmental regulatory mechanisms, molecular characteristics, and heterogeneity of central regulators of monoaminergic circuits.

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Reward processing by the lateral habenula in normal and depressive behaviors

Cited by 376 publications

References 97 publications

The Immune Signaling Adaptor LAT Contributes to the Neuroanatomical Phenotype of 16p11.2 BP2-BP3 CNVs

The Immune Signaling Adaptor LAT Contributes to the Neuroanatomical Phenotype of 16p11.2 BP2-BP3 CNVs

GPR139, an Orphan Receptor Highly Enriched in the Habenula and Septum, Is Activated by the Essential Amino Acids l-Tryptophan and l-Phenylalanine

Differentiation and molecular heterogeneity of inhibitory and excitatory neurons associated with midbrain dopaminergic nuclei

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