Koob G F, Riley S J, Smith S C, Robbins T W
J Comp Physiol Psychol. 1978 Oct;92(5):917-27. doi: 10.1037/h0077542.
Bilateral 6-hydroxydopamine lesions of the nucleus accumbens septi (NAS) and olfactory tubercle (OT) caused enhanced intake of wet mash in 23-hr-food-deprived rats tested in photocell activity cages during restricted 30-min sessions. This mild hyperphagia was accompanied by a significant hypoactivity in the group with NAS/OT lesions. No hyperphagia was observed during a prolonged 120-min test session or in free-feeding tests conducted in the home cage. Anorexia induced by d-amphetamine (.5 and 1.5 mg/kg) was unaltered by the lesion, although the locomotor stimulant action of the drug was attenuated. A second experiment showed that the NAS/OT lesion also enhanced food intake in the photocell cages during 30-min sessions with dry food pellets but that food-associated drinking was concomitantly reduced. The results are consistent with the hypothesis that the behavioral changes caused by mesolimbic neuron destruction result in part from an inability to switch from one behavioral activity to another.
伏隔核(NAS)和嗅结节(OT)的双侧6-羟基多巴胺损伤,导致在光电池活动笼中对23小时食物剥夺的大鼠进行30分钟限时测试时,湿饲料摄入量增加。在NAS/OT损伤组中,这种轻度多食伴随着明显的活动减少。在延长的120分钟测试期间或在饲养笼中进行的自由进食测试中,未观察到多食现象。d-苯丙胺(0.5和1.5mg/kg)诱导的厌食症不受损伤影响,尽管该药物的运动兴奋作用减弱。第二项实验表明,在使用干食颗粒进行30分钟测试期间,NAS/OT损伤也会增加光电池笼中的食物摄入量,但与食物相关的饮水会相应减少。这些结果与以下假设一致:中脑边缘神经元破坏引起的行为变化部分是由于无法从一种行为活动转换到另一种行为活动所致。
