A New Neural Pathway from the Ventral Striatum to the Nucleus Basalis of Meynert with Functional Implication to Learning and Memory

Si Yun Shu,Peng Wang,Gang Jiang,Zhaocong Zheng,Changke Li,Changke Li,Shen Tan,Qiyi Zeng,Hong Li,Hong Li,Chunhua Zhu,Bin Wang,Bin Wang,Sheng Wu,Bin Liu,Bin Liu,Wood Yee Chan,Jang-Yen Wu,Lin Ma

doi:10.1007/s12035-019-1588-0

Abstract

The cholinergic neurons in the nucleus basalis of Meynert (NBM) are among the first group of neurons known to become degenerated in Alzheimer’s disease, and thus the NBM is proposed to be involved in learning and memory. The marginal division (MrD) of the striatum is a newly discovered subdivision at the ventromedial border of the mammalian striatum and is considered to be one part of the ventral striatum involved in learning and memory. The present study provided evidence to support the hypothesis that the MrD and the NBM were structurally connected at cellular and subcellular levels with functional implications in learning and memory. First, when wheat germ agglutinin-conjugated horseradish peroxidase (WGA-HRP) was stereotaxically injected into the NBM, fusiform neurons in the MrD were retrogradely labeled with WGA-HRP gray-blue particles and some of them were double stained in brown color by AchE staining method. Thus, cholinergic neurons of the MrD were shown to project to the neurons in the NBM. Second, in anterograde tract-tracing experiments where WGA-HRP was injected to the MrD, the labeled WGA-HRP was found to be anterogradely transported in axons from the MrD to the synaptic terminals with dendrites, axons, and perikaryons of the cholinergic neurons in the NBM when observed under an electronic microscope, indicating reciprocal structural connections between the MrD and the NBM. Third, when bilateral lesions of the MrD were injured with kainic acid in rats, degenerative terminals were observed in synapses of the NBM by an electronic microscope and severe learning and memory deficiency was found in these rats by the Y-maze behavioral test. Our results suggest reciprocal cholinergic connections between the MrD of the ventral striatum and the NBM, and implicate a role of the MrD-NBM pathway in learning and memory. The efferent fibers of cholinergic neurons in the NBM mainly project to the cortex, and severe reduction of the cholinergic innervation in the cortex is the common feature of Alzheimer’s patients. The newly discovered cholinergic neural pathway between the MrD of the ventral striatum and the NBM is supposed involved in the memory circuitries of the brain and probably might play a role in the pathogenesis of the Alzheimer’s disease.

Highlights

The subcortical striatum is a heterogeneous structure including the ventral striatum, the dorsolateral striatum, and the dorsomedial striatum, and is believed to be involved in modulation of complex motional [1] and learningmemory activities [2]
Rats in the non-behavioral test group were randomly divided into four subgroups: (1) control group with no treatment (n = 5); (2) wheat germ agglutinin-conjugated horseradish peroxidase (WGA-HRP)-treated group with 1% WGA-HRP injected into the marginal division (MrD) or nucleus basalis of Meynert (NBM) (n = 15, n = 15); (3) kainic acid (KA)-treated group with 0.1% KA injected directly into the MrD (n = 10); and (4) normal saline (NS)-treated group with NS injected into the MrD (n = 10)
The results demonstrated that the MrD contains cholinergic neurons and some of these cholinergic neurons projected to NBM

Summary

Introduction

The subcortical striatum is a heterogeneous structure including the ventral striatum (nucleus accumbens), the dorsolateral striatum, and the dorsomedial striatum, and is believed to be involved in modulation of complex motional [1] and learningmemory activities [2]. The association of the MrD with learning and memory has been demonstrated with both pathological case reports and functional MRI analyses [25], leading to the suggestion that the MrD of the neostriatum is a subcortical memory center and a new component of the limbic system [37]. Substance P which was expressed in the MrD was found to play a role in learning and memory and mediated through the neurokinin 1 receptor in rats [38]. Previous studies suggested that the MrD and the hippocampus may play different roles in learning and memory through different neurotransmission mechanism [42]. New functional and structural pathways related to learning and memory through the hippocampus, the amygdala, and the MrD in rats have been demonstrated [43]

Methods

Results

Discussion

Conclusion