TY - BOOK ID - 139094308 TI - Neuroendocrine Control of Energy Metabolism AU - Panzica, Giancarlo AU - Gotti, Stefano AU - Collado Guirao, Paloma PY - 2022 PB - Basel MDPI - Multidisciplinary Digital Publishing Institute DB - UniCat KW - IGF1 KW - IGF2 KW - IGFBP2 KW - high-fat diet KW - obesity KW - sex differences KW - neuropeptides KW - beige adipocyte KW - white adipocyte KW - brown adipocyte KW - diabetes mellitus KW - differentiation KW - kisspeptin KW - AgRP KW - sheep KW - reproduction KW - LH KW - genistein KW - proopiomelanocortin KW - arcuate nucleus KW - rats KW - endocrine disrupting chemicals KW - bisphenol A KW - diethylstilbestrol KW - tributyltin KW - neuropeptide Y KW - pro-opiomelanocortin KW - phytoestrogens KW - endocrine disruptor KW - dimorphism KW - POMC KW - orexin KW - subfornical organ KW - organum vasculosum of the lamina terminalis KW - area postrema KW - hypothalamus KW - metabolism KW - diabetes KW - estrogens KW - gut permeability/integrity KW - insulin sensitivity KW - Akkermansia KW - gut microbiome KW - lactate KW - glycogen KW - behavior KW - learning KW - astrocytes KW - calcium signaling KW - energy balance KW - gliotransmission KW - systemic metabolism KW - amygdala KW - kisspeptins KW - food intake KW - body weight KW - intrauterine growth restriction KW - macrosomia KW - glucose tolerance KW - abdominal adipocyte gene expression KW - thrifty phenotype hypothesis UR - https://www.unicat.be/uniCat?func=search&query=sysid:139094308 AB - The control of energy metabolism is a central event for cell, organ, and organism survival. There are many control levels in energy metabolism, although in this Special Issue, we concentrated on the neuroendocrine control which is operated through specialized neural circuits controlling both food intake and energy expenditure. Due to the explosion of obesity and associated diseases, the subject of this Special Issue is of particular interest today. ER -