Neural network interactions and ingestive behavior control during anorexia
- 作者:Alan G. Watts ; Dawna S. Salter ; Christina M. Neuner
- 关键词:Hypothalamus ; Nucleus accumbens ; Catecholamine ; Noradrenaline ; GABA ; NPY ; Feeding ; Behavioral control
- 刊名:Physiology and Behavior
- 出版年:2007
- 期刊代码:220_00319384
- 类别:med
- 出版时间:24 July 2007
- 卷:91
- 期:4
- 页码:389-396
- 文件大小:624 K
摘要
Many models have been proposed over the years to explain how motivated feeding behavior is controlled. One of the most compelling is based on the original concepts of Eliot Stellar whereby sets of interosensory and exterosensory inputs converge on a hypothalamic control network that can either stimulate or inhibit feeding. These inputs arise from information originating in the blood, the viscera, and the telencephalon. In this manner the relative strengths of the hypothalamic stimulatory and inhibitory networks at a particular time dictates how an animal feeds. Anorexia occurs when the balance within the networks consistently favors the restraint of feeding. This article discusses experimental evidence supporting a model whereby the increases in plasma osmolality that result from drinking hypertonic saline activate pathways projecting to neurons in the paraventricular nucleus of the hypothalamus (PVH) and lateral hypothalamic area (LHA). These neurons constitute the hypothalamic controller for ingestive behavior, and receive a set of afferent inputs from regions of the brain that process sensory information that is critical for different aspects of feeding. Important sets of inputs arise in the arcuate nucleus, the hindbrain, and in the telencephalon. Anorexia is generated in dehydrated animals by way of osmosensitive projections to the behavior control neurons in the PVH and LHA, rather than by actions on their afferent inputs.