Reynolds Sheila M, Zahm Daniel S
Department of Pharmacological and Physiological Science, Saint Louis University School of Medicine, St. Louis, Missouri 63104, USA.
J Neurosci. 2005 Dec 14;25(50):11757-67. doi: 10.1523/JNEUROSCI.3432-05.2005.
The basal forebrain functional-anatomical macrosystems, ventral striatopallidum, and extended amygdala are innervated by substantially coextensive distributions of neurons in the prefrontal and insular cortex. This suggests two alternative organizational schemes: convergent, in which a given cortical area projects exclusively to only one of these macrosystems and divergent, in which a given cortical area innervates both forebrain macrosystems. To examine the underlying organization and possibly discriminate between these alternatives, rats were injected with two retrograde tracers in different parts of ventral striatopallidum or extended amygdala (homotypic injection pairs) or with one tracer in each macrosystem (heterotypic). The prefrontal and insular cortex was evaluated microscopically for overlap of retrograde labeling and double labeling of neurons. Homotypic injection pairs in the ventral striatum and extended amygdala produced extensive overlap of retrogradely labeled neurons and significant double labeling, suggesting that cortical projections spread broadly within macrosystems. In contrast, heterotypic injection pairs produced significant overlap of retrograde labeling but negligible double labeling, indicating that ventral striatopallidum and extended amygdala receive inputs from separate sets of prefronto- and insular cortical neurons. The caudomedial shell of the nucleus accumbens, a supposed "transition" zone between striatopallidum and extended amygdala, had extended amygdala-like afferents but produced few double-labeled neurons and these only when paired with ventral striatopallidum. The data suggest that a modular organization of the basal forebrain, with postulated independent information processing by the ventral striatopallidal and extended amygdala macrosystems, is reflected in a corresponding segregation of output neurons in the prefrontal and insular cortices.
基底前脑功能 - 解剖宏观系统、腹侧纹状体苍白球和扩展杏仁核由前额叶皮质和岛叶皮质中神经元的大致共同分布的区域支配。这提示了两种不同的组织模式:汇聚模式,即给定的皮质区域仅专门投射到这些宏观系统中的一个;发散模式,即给定的皮质区域支配两个前脑宏观系统。为了研究潜在的组织方式并可能区分这些模式,给大鼠在腹侧纹状体苍白球或扩展杏仁核的不同部位注射两种逆行示踪剂(同型注射对),或在每个宏观系统中各注射一种示踪剂(异型注射对)。在显微镜下评估前额叶皮质和岛叶皮质中逆行标记的重叠情况以及神经元的双重标记情况。腹侧纹状体和扩展杏仁核中的同型注射对产生了大量逆行标记神经元的重叠以及显著的双重标记,表明皮质投射在宏观系统内广泛分布。相比之下,异型注射对产生了显著的逆行标记重叠,但双重标记可忽略不计,表明腹侧纹状体苍白球和扩展杏仁核接受来自前额叶皮质和岛叶皮质不同神经元组的输入。伏隔核的尾内侧壳,被认为是纹状体苍白球和扩展杏仁核之间的“过渡”区域,具有类似扩展杏仁核的传入纤维,但产生的双重标记神经元很少,并且仅在与腹侧纹状体苍白球配对时才出现。数据表明,基底前脑的模块化组织,即假定腹侧纹状体苍白球和扩展杏仁核宏观系统进行独立信息处理,反映在前额叶皮质和岛叶皮质输出神经元的相应分离上。