The lateral habenula (LHb), which is a critical neuroanatomical hub and a regulator of midbrain monoaminergic centers, is activated by events resulting in negative valence and contributes to the expression of both appetitive and aversive behaviors. However, whole-brain cell-type-specific monosynaptic inputs to the LHb in both sexes remain incompletely elucidated. In this study, we used viral tracing combined with in situ hybridization targeting vesicular glutamate transporter 2 (vGlut2) and glutamic acid decarboxylase 2 (Gad2) to generate a comprehensive whole-brain atlas of inputs to glutamatergic and γ-aminobutyric acid (GABA)ergic neurons in the LHb. We found >30 ipsilateral and contralateral brain regions that projected to the LHb. Of these, there were significantly more monosynaptic LHb-projecting neurons from the lateral septum, anterior hypothalamus, dorsomedial hypothalamus, and ventromedial hypothalamus in females than in males. More interestingly, we found a stronger GABAergic projection from the medial septum to the LHb in males than in females. Our results reveal a comprehensive connectivity atlas of glutamatergic and GABAergic inputs to the LHb in both sexes, which may facilitate a better understanding of sexual dimorphism in physiological and pathological brain functions.
Animals ; Male ; Mice ; Glutamic Acid/metabolism* ; Habenula/metabolism* ; Hypothalamus/metabolism* ; Neural Pathways/physiology* ; Sex Characteristics ; Vesicular Glutamate Transport Protein 2/metabolism* ; Female

Habenula ; Humans ; Neuralgia/therapy* ; Neurons

Nociceptin/orphanin FQ (N/OFQ) and its receptor, nociceptin opioid peptide (NOP) receptor, are localized in brain areas implicated in depression including the amygdala, bed nucleus of the stria terminalis, habenula, and monoaminergic nuclei in the brain stem. N/OFQ inhibits neuronal excitability of monoaminergic neurons and monoamine release from their terminals by activation of G protein-coupled inwardly rectifying K⁺ channels and inhibition of voltage sensitive calcium channels, respectively. Therefore, NOP receptor antagonists have been proposed as a potential antidepressant. Indeed, mounting evidence shows that NOP receptor antagonists have antidepressant-like effects in various preclinical animal models of depression, and recent clinical studies again confirmed the idea that blockade of NOP receptor signaling could provide a novel strategy for the treatment of depression. In this review, we describe the pharmacological effects of N/OFQ in relation to depression and explore the possible mechanism of NOP receptor antagonists as potential antidepressants.
Amygdala ; Antidepressive Agents ; Brain ; Brain Stem ; Calcium Channels ; Depression ; Habenula ; Models, Animal ; Neurons ; Neuropeptides ; Opioid Peptides ; Receptors, Drug ; Septal Nuclei

The habenula is a small and bilateral nucleus above dorsal thalamus, which contains several different types of neurons. The habenula has extensive connections with the forebrain, septum and monoaminergic nuclei in the midbrain and brainstem. Habenula is known as an 'anti-reward' nucleus, which can be activated by aversive stimulus and negative reward prediction errors. Accumulating researchs have implicated that the habenula is involved in several behaviors crucial to survival. Meanwhile, the roles of the habenula in neuropsychiatric diseases have received increasing attention. This review summaries the studies regarding the roles of habenula and the related circuits in neuropathic pain, depression, drug addiction and schizophrenia, and discusses the possibility to use the habenula as a treatment target.
Depressive Disorder ; Habenula ; Humans ; Mental Disorders ; pathology ; Mesencephalon ; Neurons ; metabolism ; Reward

The habenula (Hb) is small but important brain structure, anatomically and functionally links the forebrain with the midbrain to modulate various neuropsychiatric functions associated with drug addiction and emotion-associated dysfunctions. Several reports suggested that the dysfunction of Hb-related functions affected the Hb structurally and functionally. However, the technical limitation has awaited the solid conclusion of whether Hb change due to depression is likely to occur in certain subnuclei of the Hb. To probe this possibility, we developed 3-dimensional reconstruction methods for the high-resolution volumetric analysis of Hb and the mRNA levels at the given volume in normal or lipopolysaccharide (LPS)-mediated mouse model of depression. Notably, we discovered that the volume reduction was prominent in medial Hb but not in lateral Hb after LPS treatments. On the other hand, the RNA expression levels of known Hb regional markers such as Tac1 (dorsal part of medial Hb), ChAT (ventral part of medial Hb), and Tacr1 (medial and lateral Hb) were all decreased in all Hb subnuclei in LPS-injected mice. Accordingly, accurate volumetry with marker labeling was not feasible. Collectively, these established 3D analyses of mouse Hb successfully and precisely determine the volume-based changes of small brain structure, which should be applicable in a wider range of mouse models or pathological specimens.
Animals ; Brain ; Depression ; Gene Expression ; Habenula ; Hand ; Mesencephalon ; Mice ; Prosencephalon ; RNA ; RNA, Messenger ; Substance-Related Disorders

Chronic stress induces changes in neuronal functions in specific brain regions regulating sociability and mood-related behaviors. Recently we reported that stress-induced persistent upregulation of the neuropeptides orexin and melanin-concentrating hormone (MCH) in the basolateral amygdala (BLA) and the resulting activation of orexin receptors or MCH receptors within the BLA produced deficits in sociability and mood-related behaviors. In the present study, we investigated the neural targets that were innervated by BLA neurons containing orexin receptors or MCH receptors. The viral vector system AAV2-CaMKII-ChR2-eYFP was injected into the BLA to trace the axonal tracts of BLA neurons. This axon labeling analysis led us to identify the prelimbic and infralimbic cortices, nucleus accumbens (NAc), dorsal striatum, paraventricular nucleus (PVN), interstitial nucleus of the posterior limb of the anterior commissure, habenula, CA3 pyramidal neurons, central amygdala, and ventral hippocampus as the neuroanatomical sites receiving synaptic inputs of BLA neurons. Focusing on these regions, we then carried out stimulus-dependent c-Fos induction analysis after activating orexin receptors or MCH receptors of BLA neurons. Stereotaxic injection of an orexin receptor agonist or an MCH receptor agonist in the BLA induced c-Fos expression in the NAc, PVN, central amygdala, ventral hippocampus, lateral habenula and lateral hypothalamus, which are all potentially important for depression-related behaviors. Among these neural correlates, the NAc, PVN and central amygdala were strongly activated by stimulation of orexin receptors or MCH receptors in the BLA, whereas other BLA targets were differentially and weakly activated. These results identify a functional connectivity of BLA neurons regulated by orexin and MCH receptor systems in sociability and mood-related behaviors.
Axons ; Basolateral Nuclear Complex* ; Brain ; Central Amygdaloid Nucleus ; Depression ; Extremities ; Habenula ; Hippocampus ; Hypothalamic Area, Lateral ; Neurons* ; Neuropeptides ; Nucleus Accumbens ; Orexin Receptors* ; Paraventricular Hypothalamic Nucleus ; Pyramidal Cells ; Up-Regulation

Animals ; Blood Pressure ; drug effects ; Electric Stimulation ; Female ; Habenula ; physiology ; Lidocaine ; pharmacology ; Male ; Raphe Nuclei ; physiology ; Rats ; Rats, Wistar ; Respiration ; drug effects ; Serotonin ; physiology

AIMTo investigate the effects and the possible mechanism of cocaine on the neurons of lateral habenular nucleus (LHb).

METHODSWe observed the effects on c-Fos protein expression in lateral habenular nucleus and medial habenular nucleus after injecting cocaine into a belly cavity and spontaneous and evoked discharge of pain-correlative unit through iontophoresis of cocaine into LHb. The delayed rectifier K+ current was recorded in the acute isolated LHb neuron in whole-cell mode.

RESULTS(1) The c-Fos protein expression was increased by cocaine treatment in LHb, but little effect in MHb. (2) Iontophoresis of cocaine into LHb increased the discharges of pain excitation unit and enhanced excitation response to noxious stimulation, but it decreased the discharges of pain inhibition unit and its responses to noxious stimulation in LHb. Cocaine inhibited the delayed rectifier K+ current.

CONCLUSIONCocaine can excite the LHb and increase its sensitivity. The probable mechanism is that cocaine inhibits the delayed rectifier K+ channels.

Animals ; Cocaine ; pharmacology ; Habenula ; drug effects ; metabolism ; physiology ; Proto-Oncogene Proteins c-fos ; metabolism ; Rats ; Rats, Wistar

Animals ; Cocaine ; pharmacology ; Habenula ; drug effects ; physiology ; Neurons ; drug effects ; physiology ; Pain Threshold ; drug effects ; Rats

AIMThe effect and possible mechanism of Melatonin (MEL) on firing rate of pain neurons in lateral habenular nucleus of rats were investigated in the experiment.

METHODSSingle extracellular firing were recorded to study the firing rate changes of pain neurons and sensitivity changes to pain stimulation induced by MEL in LHb of rats. Reverse effect of naloxone on the analgesia induced by melatonin was also observed.

RESULTSMelatonin showed the effects on the firing of pain neurons in the LHb and decreased the sensitivity of pain neurons to pain stimulation, which could be reversed by naloxone.

CONCLUSIONMelatonin can change the responses of pain neurons to pain stimulation via opioid receptor in the LHb, which might be one of analgesic mechanisms by MEL.

Analgesics ; pharmacology ; Animals ; Habenula ; drug effects ; physiology ; Male ; Melatonin ; pharmacology ; Neuralgia ; physiopathology ; Neurons ; drug effects ; physiology ; Rats ; Rats, Wistar