成体神经发生导致端脑神经回路的功能重建。
Adult Neurogenesis Leads to the Functional Reconstruction of a Telencephalic Neural Circuit.
作者信息
Cohen Rachel E, Macedo-Lima Matheus, Miller Kimberly E, Brenowitz Eliot A
机构信息
Department of Biological Sciences, Minnesota State University, Mankato, Minnesota 56001,
Graduate Program in Neuroscience and Behavior, University of Massachusetts, Amherst, Massachusetts 01003, CAPES Foundation, Ministry of Education of Brazil, Brasilia DF 70040-020, Brazil, and.
出版信息
J Neurosci. 2016 Aug 24;36(34):8947-56. doi: 10.1523/JNEUROSCI.0553-16.2016.
UNLABELLED
Seasonally breeding songbirds exhibit pronounced annual changes in song behavior, and in the morphology and physiology of the telencephalic neural circuit underlying production of learned song. Each breeding season, new adult-born neurons are added to the pallial nucleus HVC in response to seasonal changes in steroid hormone levels, and send long axonal projections to their target nucleus, the robust nucleus of the arcopallium (RA). We investigated the role that adult neurogenesis plays in the seasonal reconstruction of this circuit. We labeled newborn HVC neurons with BrdU, and RA-projecting HVC neurons (HVCRA) with retrograde tracer injected in RA of adult male white-crowned sparrows (Zonotrichia leucophrys gambelii) in breeding or nonbreeding conditions. We found that there were many more HVCRA neurons in breeding than nonbreeding birds. Furthermore, we observed that more newborn HVC neurons were back-filled by the tracer in breeding animals. Behaviorally, song structure degraded as the HVC-RA circuit degenerated, and recovered as the circuit regenerated, in close correlation with the number of new HVCRA neurons. These results support the hypothesis that the HVC-RA circuit degenerates in nonbreeding birds, and that newborn neurons reconstruct the circuit in breeding birds, leading to functional recovery of song behavior.
SIGNIFICANCE STATEMENT
We investigated the role that adult neurogenesis plays in the seasonal reconstruction of a telencephalic neural circuit that controls song behavior in white-crowned sparrows. We showed that nonbreeding birds had a 36%-49% reduction in the number of projection neurons compared with breeding birds, and the regeneration of the circuit in the breeding season is due to the integration of adult-born projection neurons. Additionally, song structure degraded as the circuit degenerated and recovered as the circuit regenerated, in close correlation with new projection neuron number. This study demonstrates that steroid hormones can help reestablish functional neuronal circuits following degeneration in the adult brain and shows non-injury-induced degeneration and reconstruction of a neural circuit critical for producing a learned behavior.
未标记
季节性繁殖的鸣禽在鸣叫行为以及学习鸣叫产生所依赖的端脑神经回路的形态和生理方面表现出明显的年度变化。每个繁殖季节,随着类固醇激素水平的季节性变化,新的成年新生神经元会添加到脑皮层核团HVC中,并向其靶核——弓状皮质粗壮核(RA)发出长轴突投射。我们研究了成年神经发生在该神经回路季节性重建中所起的作用。我们用BrdU标记新生的HVC神经元,并在繁殖或非繁殖条件下,向成年雄性白冠雀(Zonotrichia leucophrys gambelii)的RA中注射逆行示踪剂,标记投射到RA的HVC神经元(HVCRA)。我们发现,繁殖期鸟类的HVCRA神经元比非繁殖期鸟类多得多。此外,我们观察到,在繁殖动物中,更多新生的HVC神经元被示踪剂逆向标记。在行为上,随着HVC-RA神经回路的退化,鸣叫结构退化,而随着神经回路的再生,鸣叫结构恢复,这与新的HVCRA神经元数量密切相关。这些结果支持了这样的假设:在非繁殖期鸟类中,HVC-RA神经回路退化,而新生神经元在繁殖期鸟类中重建该神经回路,导致鸣叫行为的功能恢复。
意义声明
我们研究了成年神经发生在控制白冠雀鸣叫行为的端脑神经回路季节性重建中所起的作用。我们发现,与繁殖期鸟类相比,非繁殖期鸟类的投射神经元数量减少了36%-49%,繁殖季节神经回路的再生是由于成年新生投射神经元的整合。此外,随着神经回路的退化,鸣叫结构退化,随着神经回路的再生,鸣叫结构恢复,这与新投射神经元数量密切相关。这项研究表明,类固醇激素可以帮助在成年大脑退化后重新建立功能性神经回路,并显示了非损伤诱导的神经回路退化和重建,该神经回路对于产生一种习得行为至关重要。
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