scholarly article | Q13442814 |
P50 | author | Marian Henryk Lewandowski | Q91896152 |
Andrew L Gundlach | Q63373406 | ||
Anna Blasiak | Q73447818 | ||
P2093 | author name string | Grzegorz Hess | |
P2860 | cites work | A role of melanin-concentrating hormone producing neurons in the central regulation of paradoxical sleep | Q21262952 |
Orexins and orexin receptors: a family of hypothalamic neuropeptides and G protein-coupled receptors that regulate feeding behavior | Q24315738 | ||
Electric light, particularly at night, disrupts human circadian rhythmicity: is that a problem? | Q26830662 | ||
Diurnal expression of functional and clock-related genes throughout the rat HPA axis: system-wide shifts in response to a restricted feeding schedule | Q28572853 | ||
The role of melanin-concentrating hormone and its receptors in energy homeostasis | Q28708877 | ||
Interaction between circadian rhythms and stress | Q28917101 | ||
Heterogeneous responses of nucleus incertus neurons to corticotrophin-releasing factor and coherent activity with hippocampal theta rhythm in the rat. | Q44202504 | ||
Hypothalamic gene expression in long-term fasted rats: relationship with body fat. | Q44395867 | ||
Excitatory orexinergic innervation of rat nucleus incertus--Implications for ascending arousal, motivation and feeding control. | Q44672614 | ||
The suprachiasmatic nuclei stimulate evening ACTH secretion in the rat. | Q44727312 | ||
Suprachiasmatic nuclei grafts restore the circadian rhythm in the paraventricular nucleus of the hypothalamus. | Q44814705 | ||
Indirect projections from the suprachiasmatic nucleus to major arousal-promoting cell groups in rat: implications for the circadian control of behavioural state | Q45160929 | ||
Rat melanin-concentrating hormone messenger ribonucleic acid expression: marked changes during development and after stress and glucocorticoid stimuli | Q45329285 | ||
Viral-mediated delivery of an RXFP3 agonist into brain promotes arousal in mice | Q45812181 | ||
Modulation of feeding by chronic rAAV expression of a relaxin-3 peptide agonist in rat hypothalamus. | Q45882999 | ||
Orexin A modulates neuronal activity of the rodent suprachiasmatic nucleus in vitro. | Q45972904 | ||
Brain glucocorticoid receptors are necessary for the rhythmic expression of the clock protein, PERIOD2, in the central extended amygdala in mice. | Q46018044 | ||
Effects of intracerebroventricular and intra-accumbens melanin-concentrating hormone agonism on food intake and energy expenditure | Q46171874 | ||
The hypothalamic neuropeptide melanin-concentrating hormone acts in the nucleus accumbens to modulate feeding behavior and forced-swim performance. | Q46384471 | ||
Effects of sleep restriction periods on serum cortisol levels in healthy men. | Q46399099 | ||
Glucocorticoids increase neuropeptide Y and agouti-related peptide gene expression via adenosine monophosphate-activated protein kinase signaling in the arcuate nucleus of rats | Q46555406 | ||
Neural regulation of endocrine and autonomic stress responses | Q29616362 | ||
Resetting of circadian time in peripheral tissues by glucocorticoid signaling | Q29616364 | ||
Neurons containing hypocretin (orexin) project to multiple neuronal systems | Q29619641 | ||
Glucocorticoids as entraining signals for peripheral circadian oscillators | Q30416905 | ||
Melanin-concentrating hormone neurons discharge in a reciprocal manner to orexin neurons across the sleep-wake cycle | Q30486271 | ||
Rapid, reversible activation of AgRP neurons drives feeding behavior in mice | Q30499305 | ||
Orexin A activates locus coeruleus cell firing and increases arousal in the rat. | Q30504135 | ||
The suprachiasmatic nucleus projects to posterior hypothalamic arousal systems. | Q32037428 | ||
Interactions of the circadian CLOCK system and the HPA axis | Q33823325 | ||
Role of orexin/hypocretin in reward-seeking and addiction: implications for obesity | Q33915391 | ||
Loss of a circadian adrenal corticosterone rhythm following suprachiasmatic lesions in the rat. | Q34053330 | ||
Antidepressant, anxiolytic and anorectic effects of a melanin-concentrating hormone-1 receptor antagonist | Q34138869 | ||
Melanin-concentrating hormone functions in the nervous system: food intake and stress | Q34217708 | ||
Differential regulation of agouti-related protein and neuropeptide Y in hypothalamic neurons following a stressful event. | Q34441348 | ||
Melanin-concentrating hormone-1 receptor modulates neuroendocrine, behavioral, and corticolimbic neurochemical stress responses in mice | Q34456979 | ||
Mice lacking melanin-concentrating hormone are hypophagic and lean | Q34485506 | ||
Anxiolytic effects of the MCH1R antagonist TPI 1361-17. | Q34520075 | ||
Caloric restriction experience reprograms stress and orexigenic pathways and promotes binge eating | Q34554528 | ||
A study of the involvement of melanin-concentrating hormone receptor 1 (MCHR1) in murine models of depression | Q34560742 | ||
Hypocretins: the timing of sleep and waking | Q34567401 | ||
Stress, visceral obesity, and metabolic complications | Q34587960 | ||
Acute and repeated restraint differentially activate orexigenic pathways in the rat hypothalamus | Q34590474 | ||
ACTH-dependent ultradian rhythm of corticosterone secretion | Q34696831 | ||
The effects of stressful stimuli and hypothalamic-pituitary-adrenal axis activation are reversed by the melanin-concentrating hormone 1 receptor antagonist SNAP 94847 in rodents | Q34827839 | ||
Orexins, orexigenic hypothalamic peptides, interact with autonomic, neuroendocrine and neuroregulatory systems | Q34854732 | ||
Peripheral circadian oscillators in mammals: time and food | Q35163407 | ||
Circadian integration of sleep-wake and feeding requires NPY receptor-expressing neurons in the mediobasal hypothalamus | Q35543376 | ||
Glucocorticoid signaling in the arcuate nucleus modulates hepatic insulin sensitivity | Q35696540 | ||
Fasting activation of AgRP neurons requires NMDA receptors and involves spinogenesis and increased excitatory tone | Q35754640 | ||
Leptin-sensitive neurons in the arcuate nuclei contribute to endogenous feeding rhythms | Q36042880 | ||
Role of orexin-1 receptor mechanisms on compulsive food consumption in a model of binge eating in female rats | Q36100315 | ||
An Indirect Action Contributes to C-Fos Induction in Paraventricular Hypothalamic Nucleus by Neuropeptide Y | Q36507065 | ||
Chronic administration of glucocorticoids directly upregulates prepro-neuropeptide Y and Y1-receptor mRNA levels in the arcuate nucleus of the rat. | Q36736002 | ||
Neurochemical characterization of neurons expressing melanin-concentrating hormone receptor 1 in the mouse hypothalamus | Q36786510 | ||
CRFR1 in AgRP Neurons Modulates Sympathetic Nervous System Activity to Adapt to Cold Stress and Fasting. | Q37014293 | ||
Central administration of melanin-concentrating hormone increases alcohol and sucrose/quinine intake in rats | Q46565118 | ||
Relation between the hypothalamic-pituitary-thyroid (HPT) axis and the hypothalamic-pituitary-adrenal (HPA) axis during repeated stress | Q46601828 | ||
Chronic intracerebroventricular administration of orexin-A to rats increases food intake in daytime, but has no effect on body weight | Q47251793 | ||
Sex differences in the effects of chronic stress and food restriction on body weight gain and brain expression of CRF and relaxin-3 in rats. | Q47253185 | ||
Sex-Specific Effects of Chronic Administration of Relaxin-3 on Food Intake, Body Weight and the Hypothalamic-Pituitary-Gonadal Axis in Rats | Q47262571 | ||
Chronic intracerebroventricular administration of relaxin-3 increases body weight in rats | Q47333527 | ||
Ultradian corticosterone secretion is maintained in the absence of circadian cues | Q47353073 | ||
Relaxin-3 receptor (Rxfp3) gene knockout mice display reduced running wheel activity: implications for role of relaxin-3/RXFP3 signalling in sustained arousal | Q47725165 | ||
Orexins/hypocretins modulate the activity of NPY-positive and -negative neurons in the rat intergeniculate leaflet via OX1 and OX2 receptors. | Q47969474 | ||
Relaxin-3 innervation of the intergeniculate leaflet of the rat thalamus - neuronal tract-tracing and in vitro electrophysiological studies | Q48152692 | ||
Coexpression of Agrp and NPY in fasting-activated hypothalamic neurons | Q48242769 | ||
The effect of the orexins on food intake: comparison with neuropeptide Y, melanin-concentrating hormone and galanin | Q48264110 | ||
Relaxin-3 null mutation mice display a circadian hypoactivity phenotype | Q48284136 | ||
Hypocretin/orexin- and melanin-concentrating hormone-expressing cells form distinct populations in the rodent lateral hypothalamus: relationship to the neuropeptide Y and agouti gene-related protein systems | Q48323720 | ||
Relaxin-3 in GABA projection neurons of nucleus incertus suggests widespread influence on forebrain circuits via G-protein-coupled receptor-135 in the rat. | Q48385167 | ||
Sex-specific effects of relaxin-3 on food intake and brain expression of corticotropin-releasing factor in rats | Q48453637 | ||
Input organization and plasticity of hypocretin neurons: possible clues to obesity's association with insomnia. | Q48542456 | ||
Sustained NPY overexpression in the PVN results in obesity via temporarily increasing food intake | Q48554759 | ||
Convergence of circadian and sleep regulatory mechanisms on hypocretin-1. | Q48573499 | ||
Lesions of the suprachiasmatic nucleus eliminate the daily rhythm of hypocretin-1 release | Q48586398 | ||
Fluctuation of extracellular hypocretin-1 (orexin A) levels in the rat in relation to the light-dark cycle and sleep-wake activities | Q48680835 | ||
Genetic ablation of orexin neurons in mice results in narcolepsy, hypophagia, and obesity | Q48691942 | ||
Effects of Intracerebroventricular Administration of Neuropeptide Y on Metabolic Gene Expression and Energy Metabolism in Male Rats | Q48692653 | ||
Ventromedial arcuate nucleus communicates peripheral metabolic information to the suprachiasmatic nucleus | Q48757989 | ||
Agouti-related peptide-expressing neurons are mandatory for feeding | Q48769931 | ||
The influence of orexins on the firing rate and pattern of rat intergeniculate leaflet neurons--electrophysiological and immunohistological studies. | Q48810476 | ||
Corticotropin-releasing factor concentrations exhibit an apparent diurnal rhythm in hypothalamic and extrahypothalamic brain regions: differential sensitivity to corticosterone | Q48849361 | ||
Distribution of glucocorticoid receptor immunoreactivity and mRNA in the rat brain: an immunohistochemical and in situ hybridization study | Q48866877 | ||
Altered cerebrospinal fluid neuropeptide Y and peptide YY immunoreactivity in anorexia and bulimia nervosa | Q48894864 | ||
Central relaxin-3 administration causes hyperphagia in male Wistar rats | Q48920593 | ||
Neurons expressing relaxin 3/INSL 7 in the nucleus incertus respond to stress | Q48921006 | ||
The melanin-concentrating hormone-1 receptor modulates alcohol-induced reward and DARPP-32 phosphorylation. | Q50523240 | ||
Role of relaxin-3/RXFP3 system in stress-induced binge-like eating in female rats. | Q50553211 | ||
Differential effects of central administration of relaxin-3 on food intake and hypothalamic neuropeptides in male and female rats. | Q50999119 | ||
A selective orexin-1 receptor antagonist reduces food consumption in male and female rats. | Q51552390 | ||
Increased body-mass index in patients with narcolepsy. | Q54565465 | ||
Relaxin-3 stimulates the neuro-endocrine stress axis via corticotrophin-releasing hormone | Q62764168 | ||
Chronic and continuous intracerebroventricular infusion of neuropeptide Y in Long-Evans rats mimics the feeding behaviour of obese Zucker rats | Q67849776 | ||
Hypothalamic localization of the feeding effect of agouti-related peptide and alpha-melanocyte-stimulating hormone | Q73929050 | ||
Centrally administered orexin/hypocretin activates HPA axis in rats | Q73963341 | ||
Acute stress increases neuropeptide Y mRNA within the arcuate nucleus and hilus of the dentate gyrus | Q74107821 | ||
Glucocorticoids and neuroendocrine function | Q74345554 | ||
Reciprocal synaptic relationships between orexin- and melanin-concentrating hormone-containing neurons in the rat lateral hypothalamus: a novel circuit implicated in feeding regulation | Q78600107 | ||
Interaction between the corticotropin-releasing factor system and hypocretins (orexins): a novel circuit mediating stress response | Q81152624 | ||
Relaxin-3/INSL7 Regulates the Stress-response System in the Rat Hypothalamus | Q82436629 | ||
Effects of acute and chronic relaxin-3 on food intake and energy expenditure in rats | Q83961042 | ||
Circadian and dark-pulse activation of orexin/hypocretin neurons. | Q37077657 | ||
Adrenal peripheral clock controls the autonomous circadian rhythm of glucocorticoid by causing rhythmic steroid production. | Q37081710 | ||
The melanin-concentrating hormone system modulates cocaine reward | Q37167735 | ||
Chronic social stress, hedonism and vulnerability to obesity: lessons from rodents | Q37202055 | ||
Physical Exercise Counteracts Stress-induced Upregulation of Melanin-concentrating Hormone in the Brain and Stress-induced Persisting Anxiety-like Behaviors | Q37208062 | ||
Leptin-sensitive neurons in the arcuate nucleus integrate activity and temperature circadian rhythms and anticipatory responses to food restriction | Q37234886 | ||
Orexin neurons are necessary for the circadian control of REM sleep. | Q37332460 | ||
Brain clocks: from the suprachiasmatic nuclei to a cerebral network | Q37395558 | ||
Differential actions of orexin receptors in brainstem cholinergic and monoaminergic neurons revealed by receptor knockouts: implications for orexinergic signaling in arousal and narcolepsy. | Q37406178 | ||
A rapidly acting glutamatergic ARC→PVH satiety circuit postsynaptically regulated by α-MSH | Q37538306 | ||
Acute suppressive and long-term phase modulation actions of orexin on the mammalian circadian clock. | Q37617375 | ||
Blood-brain barrier as a regulatory interface | Q37643211 | ||
Obesity and shift work: chronobiological aspects. | Q37685290 | ||
Neuropeptide Y injected in the paraventricular hypothalamus: a powerful stimulant of feeding behavior | Q37690998 | ||
Circadian rhythm of adrenal glucocorticoid: its regulation and clinical implications | Q37841817 | ||
Interaction of central and peripheral clocks in physiological regulation. | Q38033288 | ||
On the adaptive significance of circadian clocks for their owners | Q38085699 | ||
Fasting-induced increases of arcuate NPY mRNA and plasma corticosterone are blunted in the rat experienced neonatal maternal separation | Q38512430 | ||
Distribution, physiology and pharmacology of relaxin-3/RXFP3 systems in brain | Q38806835 | ||
The link between hypothalamic epigenetic modifications and long-term feeding control | Q38938097 | ||
Inhibition of oxytocin and vasopressin neuron activity in rat hypothalamic paraventricular nucleus by relaxin-3-RXFP3 signalling. | Q39015284 | ||
Melanin-Concentrating Hormone and Its MCH-1 Receptor: Relationship Between Effects on Alcohol and Caloric Intake | Q39436458 | ||
Hypocretin Neurotransmission Within the Central Amygdala Mediates Escalated Cocaine Self-administration and Stress-Induced Reinstatement in Rats | Q39447778 | ||
Nucleus incertus corticotrophin-releasing factor 1 receptor signalling regulates alcohol seeking in rats. | Q39578767 | ||
Nucleus incertus Orexin2 receptors mediate alcohol seeking in rats | Q39617451 | ||
The neural network that regulates energy balance is responsive to glucocorticoids and insulin and also regulates HPA axis responsivity at a site proximal to CRF neurons | Q40967884 | ||
A diurnal rhythm of stimulatory input to the hypothalamo-pituitary-adrenal system as revealed by timed intrahypothalamic administration of the vasopressin V1 antagonist. | Q41075420 | ||
Inhibitory Interplay between Orexin Neurons and Eating | Q41309219 | ||
Elevated Hypothalamic Glucocorticoid Levels Are Associated With Obesity and Hyperphagia in Male Mice. | Q41619943 | ||
Rat melanin-concentrating hormone stimulates adrenocorticotropin secretion: evidence for a site of action in brain regions protected by the blood-brain barrier | Q41862195 | ||
Optogenetic stimulation of MCH neurons increases sleep | Q42164279 | ||
Concurrent and robust regulation of feeding behaviors and metabolism by orexin neurons. | Q42210906 | ||
Swim stress excitation of nucleus incertus and rapid induction of relaxin-3 expression via CRF1 activation. | Q42456119 | ||
Vasopressin-containing neurons of the suprachiasmatic nuclei inhibit corticosterone release | Q42458458 | ||
Anatomical and functional demonstration of a multisynaptic suprachiasmatic nucleus adrenal (cortex) pathway | Q42471095 | ||
Control of rat hypothalamic pro-opiomelanocortin neurons by a circadian clock that is entrained by the daily light-off signal | Q42477091 | ||
Neuropeptide-E-I antagonizes the action of melanin-concentrating hormone on stress-induced release of adrenocorticotropin in the rat. | Q42481810 | ||
Central relaxin-3 receptor (RXFP3) activation decreases anxiety- and depressive-like behaviours in the rat. | Q42685985 | ||
Stress responsiveness varies over the ultradian glucocorticoid cycle in a brain-region-specific manner. | Q42879392 | ||
Rapid versus delayed stimulation of feeding by the endogenously released AgRP neuron mediators GABA, NPY, and AgRP. | Q42914524 | ||
Repeated restraint-induced modulation of long-term potentiation in the dentate gyrus of the mouse | Q43189815 | ||
P921 | main subject | circadian rhythm | Q208353 |
P304 | page(s) | 127 | |
P577 | publication date | 2017-03-20 | |
P1433 | published in | Frontiers in Neuroscience | Q2177807 |
P1476 | title | Interactions of Circadian Rhythmicity, Stress and Orexigenic Neuropeptide Systems: Implications for Food Intake Control | |
P478 | volume | 11 |