Lesion of NPY Receptor-expressing Neurons in Perifornical LateralHypothalamus Attenuates Glucoprivic Feeding. Glucoprivic feeding is one of several counter-regulatory responses (CRRs) that facilitates restoration of euglycemia following acute glucose deficit (glucoprivation). Our previous work established that glucoprivic feeding requires ventrolateral medullary (VLM) catecholamine (CA) neurons that coexpress neuropeptide Y (NPY). However, the connections by which VLM CA/NPY neurons trigger increased feeding are uncertain. We have previously shown that glucoprivation, induced by an anti-glycolygic agent 2-Deoxy-D-glucose (2DG), activates perifornical lateralhypothalamus (PeFLH) neurons and that expression of NPY in the VLM CA/NPY neurons is required for glucoprivic feeding. We therefore hypothesized
Loss of Snord116 impacts lateralhypothalamus, sleep, and food-related behaviors. Imprinted genes are highly expressed in the hypothalamus; however, whether specific imprinted genes affect hypothalamic neuromodulators and their functions is unknown. It has been suggested that Prader-Willi syndrome (PWS), a neurodevelopmental disorder caused by lack of paternal expression at chromosome 15q11-q13 , is characterized by hypothalamic insufficiency. Here, we investigate the role of the paternally expressed Snord116 gene within the context of sleep and metabolic abnormalities of PWS, and we report a significant role of this imprinted gene in the function and organization of the 2 main neuromodulatory systems of the lateralhypothalamus (LH) - namely, the orexin (OX) and melanin concentrating hormone (MCH
Effects of GABA and Leptin Receptor-Expressing Neurons in the LateralHypothalamus on Feeding, Locomotion, and Thermogenesis. The lateralhypothalamus (LH) is known for its role in feeding, and it also regulates other aspects of energy homeostasis. How genetically defined LH neuronal subpopulations mediate LH effects on energy homeostasis remains poorly understood. The behavioral effects
Perineuronal nets in the lateralhypothalamus area regulate cue-induced reinstatement of cocaine-seeking behavior. We previously reported that a small, circumscribed region of the lateralhypothalamus, the anterior dorsal region (LHAad), stains heavily for PNNs and dense extracellular matrix (PNNs/ECM) with Wisteria floribunda agglutinin (WFA), and critically contributes to the acquisition
The Role of the LateralHypothalamus in Violent Intraspecific Aggression—The Glucocorticoid Deficit Hypothesis This review argues for a central role of the lateralhypothalamus in those deviant forms of aggression, which result from chronic glucocorticoid deficiency. Currently, this nucleus is considered a key region of the mechanisms that control predatory aggression. However, recent findings predatory aggression accompanies this change. The lateralhypothalamus is not only an integral part of this circuitry, but can elicit deviant and violent forms of aggression. Finally, we formulate a hypothesis on the pathway that connects unfavorable social conditions to violent aggression via the neural circuitry that includes the lateralhypothalamus.
Parallel Arousal Pathways in the LateralHypothalamus Until recently, hypocretin (Hcrt) neurons were the only known wake-promoting neuronal population in the lateralhypothalamus (LH), but subpopulations of inhibitory neurons in this area and glutamatergic neurons in the nearby supramammillary nucleus (SuM) have recently been found that also promote wakefulness. We performed chemogenetic
Sleep-Wake Cycling and Energy Conservation: Role of Hypocretin and the LateralHypothalamus in Dynamic State-Dependent Resource Optimization The hypocretin (Hcrt) system has been implicated in a wide range of physiological functions from sleep-wake regulation to cardiovascular, behavioral, metabolic, and thermoregulagtory control. These wide-ranging physiological effects have challenged expression has not been addressed. Here we examine a potential role for Hcrt and the lateralhypothalamus (LH) in state-dependent resource allocation as a means of optimizing resource utilization and, as a result, energy conservation. We review the energy allocation hypothesis of sleep and how state-dependent metabolic partitioning may contribute toward energy conservation, but with additional examination
LateralHypothalamus as a Motivation-Cognition Interface in the Control of Feeding Behavior Converging evidence for an essential function of the lateralhypothalamus (LHA) in the control of feeding behavior has been accumulating since the classic work conducted almost 80 years ago. The LHA is also important in reward and reinforcement processes and behavioral state control. A unifying function
Melatonin promotes sleep in mice by inhibiting orexin neurons in the perifornical lateralhypothalamus. Melatonin promotes sleep. However, the underlying mechanisms are unknown. Orexin neurons in the perifornical lateralhypothalamus (PFH) are pivotal for wake promotion. Does melatonin promote sleep by inhibiting orexin neurons? We used C57BL/6J mice and designed 4 experiments to address
The Regulatory Effects of LateralHypothalamus Area GABAB Receptor on Gastric Ischemia-Reperfusion Injury in Rats The aim of the research was to determine the functional effects and molecular mechanisms of GABA receptor on ischemia reperfusion-induced gastric injury in rats.The lateralhypothalamus area GABA receptor attenuated the ischemia reperfusion-induced gastric injury by up-regulating
Galanin-Expressing GABA Neurons in the LateralHypothalamus Modulate Food Reward and Noncompulsive Locomotion The lateralhypothalamus (LHA) integrates reward and appetitive behavior and is composed of many overlapping neuronal populations. Recent studies associated LHA GABAergic neurons (LHA ), which densely innervate the ventral tegmental area (VTA), with modulation of food reward food-seeking behavior. We speculate that the striking difference in compulsive-like locomotor behavior is also based on differential VTA innervation. The downstream neural network responsible for this behavior and a potential role for galanin as neuromodulator remains to be identified. The lateralhypothalamus (LHA) regulates motivated feeding behavior via GABAergic LHA neurons. The molecular
Glucose Intake Alters Expression of Neuropeptides Derived from Proopiomelanocortin in the LateralHypothalamus and the Nucleus Accumbens in Fructose Preference Rats To study the neuroendocrine mechanism of sugar preference, we investigated the role of glucose feeding in the regulation of expression levels of neuropeptides derived from proopiomelanocortin (POMC) in the lateralhypothalamus (LH
The lateralhypothalamus to lateral habenula projection, but not the ventral pallidum to lateral habenula projection, regulates voluntary ethanol consumption The lateral habenula (LHb) is an epithalamic brain region implicated in aversive processing via negative modulation of midbrain dopamine (DA) and serotonin (5-HT) systems. Given the role of the LHb in inhibiting DA and 5-HT systems bundle carrying afferent inputs to the LHb, the stria medullaris (SM), increases voluntary ethanol consumption, suggesting that afferent structures projecting to the LHb are important for mediating ethanol-directed behaviors. We then chose two afferent structures as the focus of our investigation. We specifically studied the role of the inputs from the lateralhypothalamus (LH) and ventral pallidum (VP
Orexin-driven GAD65 network of the lateralhypothalamus sets physical activity in mice Damage to the lateralhypothalamus (LH) causes profound physical inactivity in mammals. Several molecularly distinct types of LH neurons have been identified, including orexin cells and glutamic acid decarboxylase 65 (GAD65) cells, but their interplay in orchestrating physical activity is not fully understood
Functional interaction between orexin-1 and CB1 receptors in the periaqueductal gray matter during antinociception induced by chemical stimulation of the lateralhypothalamus in rats. Chemical stimulation of the lateralhypothalamus (LH) with carbachol induces antinociception which is antagonized by blockade of orexin receptors in some pain modulatory sites in the tail-flick test. In this study
Disrupted leptin signaling in the lateralhypothalamus and ventral premammillary nucleus alters insulin and glucagon secretion and protects against diet-induced obesity. Leptin signaling in the central nervous system, and particularly the arcuate hypothalamic nucleus, is important for regulating energy and glucose homeostasis. However, the roles of extra-arcuate leptin responsive neurons are less
A novel population of wake-promoting GABAergic neurons in the ventral lateralhypothalamus The largest synaptic input to the sleep-promoting ventrolateral preoptic area (VLPO) [1] arises from the lateralhypothalamus [2], a brain area associated with arousal [3-5]. However, the neurochemical identity of the majority of these VLPO-projecting neurons within the lateralhypothalamus (LH), as well
An Inhibitory Septum to LateralHypothalamus Circuit That Suppresses Feeding Feeding behavior is orchestrated by neural circuits primarily residing in the hypothalamus and hindbrain. However, the relative influence of cognitive and emotional brain circuits to the feeding circuitry in the hypothalamus and hindbrain remains unclear. Here, using the cell-type selectivity of genetic methods, circuit mapping, and behavior assays, we sought to decipher neural circuits emanating from the septal nucleus to the lateralhypothalamus (LH) that contribute to neural regulation of food intake in mice. We found that chemogenetic and optogenetic activation of septal vesicular GABA transporter (vGAT)-containing neurons or their projections in the LH reduced food intake in mice. Consistently, chemogenetic
Hubs and spokes of the lateralhypothalamus: cell types, circuits and behaviour The hypothalamus is among the most phylogenetically conserved regions in the vertebrate brain, reflecting its critical role in maintaining physiological and behavioural homeostasis. By integrating signals arising from both the brain and periphery, it governs a litany of behaviourally important functions essential
Inhibitory Input from the LateralHypothalamus to the Ventral Tegmental Area Disinhibits Dopamine Neurons and Promotes Behavioral Activation Projections from the lateralhypothalamus (LH) to the ventral tegmental area (VTA), containing both GABAergic and glutamatergic components, encode conditioned responses and control compulsive reward-seeking behavior. GABAergic neurons in the LH have been