Pages that link to "Q33859721"

The following pages link to Identification of neuronal subpopulations that project from hypothalamus to both liver and adipose tissue polysynaptically (Q33859721):

Displaying 50 items.

• Physiology of the orexinergic/hypocretinergic system: a revisit in 2012 (Q26822470) (← links)
• Environment, leptin sensitivity, and hypothalamic plasticity (Q26849318) (← links)
• Energy metabolism in the liver (Q26996783) (← links)
• Orexin-A controls sympathetic activity and eating behavior (Q28248569) (← links)
• Central circuits regulating the sympathetic outflow to lumbar muscles in spinally transected mice by retrograde transsynaptic transport (Q28390172) (← links)
• Neurochemical characterization and sexual dimorphism of projections from the brain to abdominal and subcutaneous white adipose tissue in the rat. (Q34034301) (← links)
• Development of posterior hypothalamic neurons enlightens a switch in the prosencephalic basic plan (Q34110139) (← links)
• A sensitive period for environmental regulation of eating behavior and leptin sensitivity (Q34151784) (← links)
• 5-HT obesity medication efficacy via POMC activation is maintained during aging (Q34185683) (← links)
• Role of oxytocin signaling in the regulation of body weight (Q34425122) (← links)
• Dnmt3a in Sim1 neurons is necessary for normal energy homeostasis (Q34491670) (← links)
• Pmch-deficiency in rats is associated with normal adipocyte differentiation and lower sympathetic adipose drive. (Q34653554) (← links)
• To ingest or rest? Specialized roles of lateral hypothalamic area neurons in coordinating energy balance (Q34668388) (← links)
• Central Endocannabinoid Signaling Regulates Hepatic Glucose Production and Systemic Lipolysis (Q34718604) (← links)
• Leptin and beyond: an odyssey to the central control of body weight (Q34719911) (← links)
• Protective effects of hypothalamic beta-endorphin neurons against alcohol-induced liver injuries and liver cancers in rat animal models (Q34941380) (← links)
• Leptin receptor signaling in the hypothalamus regulates hepatic autonomic nerve activity via phosphatidylinositol 3-kinase and AMP-activated protein kinase (Q34946123) (← links)
• Glucokinase inhibitor glucosamine stimulates feeding and activates hypothalamic neuropeptide Y and orexin neurons (Q35097342) (← links)
• Homeostastic and non-homeostatic functions of melanocortin-3 receptors in the control of energy balance and metabolism (Q35115954) (← links)
• Optogenetic evidence for inhibitory signaling from orexin to MCH neurons via local microcircuits (Q35307482) (← links)
• Yin and Yang of hypothalamic insulin and leptin signaling in regulating white adipose tissue metabolism (Q35659559) (← links)
• Glucocorticoid signaling in the arcuate nucleus modulates hepatic insulin sensitivity (Q35696540) (← links)
• Ablation of neurons expressing agouti-related protein, but not melanin concentrating hormone, in leptin-deficient mice restores metabolic functions and fertility (Q35779008) (← links)
• Loss of autophagy in hypothalamic POMC neurons impairs lipolysis (Q35880397) (← links)
• Neuropeptide Y cells represent a distinct glucose-sensing population in the lateral hypothalamus (Q35893486) (← links)
• Transient receptor potential vanilloid type 1-dependent regulation of liver-related neurons in the paraventricular nucleus of the hypothalamus diminished in the type 1 diabetic mouse (Q35976725) (← links)
• Melanocortin-3 receptor regulates the normal fasting response (Q36061409) (← links)
• Refeeding-activated glutamatergic neurons in the hypothalamic paraventricular nucleus (PVN) mediate effects of melanocortin signaling in the nucleus tractus solitarius (NTS) (Q36113979) (← links)
• A novel missense mutation in the signal peptide of the human POMC gene: a possible additional link between early-onset type 2 diabetes and obesity (Q36403920) (← links)
• PVN pathways controlling energy homeostasis (Q36700916) (← links)
• Brain stem as a target site for the metabolic side effects of olanzapine (Q36729872) (← links)
• Vanilloid receptors--do they have a role in whole body metabolism? Evidence from TRPV1. (Q36788065) (← links)
• Brain-liver connections: role of the preautonomic PVN neurons (Q36817339) (← links)
• Central melanin-concentrating hormone influences liver and adipose metabolism via specific hypothalamic nuclei and efferent autonomic/JNK1 pathways (Q36872285) (← links)
• Chronic CNS oxytocin signaling preferentially induces fat loss in high-fat diet-fed rats by enhancing satiety responses and increasing lipid utilization (Q36902536) (← links)
• A Functional Link between AMPK and Orexin Mediates the Effect of BMP8B on Energy Balance. (Q37208047) (← links)
• Control of ventricular ciliary beating by the melanin concentrating hormone-expressing neurons of the lateral hypothalamus: a functional imaging survey (Q37339653) (← links)
• How do we know if the brain is wired for type 2 diabetes? (Q37682701) (← links)
• Lipid Processing in the Brain: A Key Regulator of Systemic Metabolism (Q37736008) (← links)
• Endocrine mechanisms of seasonal adaptation in small mammals: from early results to present understanding (Q37773816) (← links)
• Multiple hypothalamic circuits sense and regulate glucose levels (Q37806878) (← links)
• Hypothalamic control of energy metabolism via the autonomic nervous system. (Q37808731) (← links)
• Endocrine factors in the hypothalamic regulation of food intake in females: a review of the physiological roles and interactions of ghrelin, leptin, thyroid hormones, oestrogen and insulin. (Q37854918) (← links)
• Circadian nature of immune function (Q37904352) (← links)
• Function and pharmacology of spinally-projecting sympathetic pre-autonomic neurones in the paraventricular nucleus of the hypothalamus. (Q37963368) (← links)
• The role of hypothalamic H1 receptor antagonism in antipsychotic-induced weight gain (Q38103807) (← links)
• Role of hypothalamic autophagy in the control of whole body energy balance (Q38132721) (← links)
• Autonomic regulation of hepatic glucose production. (Q38318620) (← links)
• Translational and therapeutic potential of oxytocin as an anti-obesity strategy: Insights from rodents, nonhuman primates and humans. (Q38503454) (← links)
• Deletion of p22phox-dependent oxidative stress in the hypothalamus protects against obesity by modulating β3-adrenergic mechanisms. (Q38990747) (← links)