快速的轴突发芽和修剪伴随着初级视觉皮层功能重组。
Rapid axonal sprouting and pruning accompany functional reorganization in primary visual cortex.
机构信息
The Rockefeller University, New York, NY 10065, USA.
出版信息
Neuron. 2009 Dec 10;64(5):719-29. doi: 10.1016/j.neuron.2009.11.026.
Abstract
The functional architecture of adult cerebral cortex retains a capacity for experience-dependent change. This is seen following focal binocular lesions, which induce rapid changes in receptive field size and position. To follow the dynamics of the circuitry underlying these changes, we imaged the intrinsic long-range horizontal connections within the lesion projection zone (LPZ) in adult macaque primary visual cortex. To image the same axons over time, we combined viral vector-mediated EGFP transfer and two-photon microscopy. The lesion triggered, within the first week, an approximately 2-fold outgrowth of axons toward the center of the LPZ. Over the subsequent month, axonal density declined due to a parallel process of pruning and sprouting but maintained a net increase relative to prelesion levels. The rate of turnover of axonal boutons also increased. The axonal restructuring recapitulates the pattern of exuberance and pruning seen in early development and correlates well with the functional changes following retinal lesions.
摘要
成人大脑皮层的功能结构保留了经验依赖性变化的能力。这在双眼局灶性病变后可见,这种病变会导致感受野大小和位置的快速变化。为了跟踪这些变化背后的电路动态,我们在成年猕猴初级视觉皮层的病变投射区(LPZ)内成像了固有长程水平连接。为了随时间成像相同的轴突,我们结合了病毒载体介导的 EGFP 转移和双光子显微镜。在第一周内,病变触发了 LPZ 中心处的轴突大约 2 倍的生长。在随后的一个月中,由于修剪和发芽的平行过程,轴突密度下降,但与病变前水平相比仍保持净增加。轴突末梢的更替率也增加了。轴突的重构再现了早期发育中出现的过度生长和修剪模式,与视网膜病变后的功能变化密切相关。
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