Department of Physiology, Pharmacology and Neuroscience, City College of the City University of New York, 160 Convent Avenue, New York, NY 10031, USA.
Eur J Neurosci. 2011 May;33(9):1656-66. doi: 10.1111/j.1460-9568.2011.07662.x. Epub 2011 Apr 19.
Proprioceptive afferent (PA) information is integrated with signals from descending pathways, including the corticospinal tract (CST), by spinal interneurons in the dorsal horn and intermediate zone for controlling movements. PA spinal projections, and the reflexes that they evoke, develop prenatally. The CST projects to the spinal cord postnatally, and its connections are subsequently refined. Consequently, the tract becomes effective in transmitting control signals from motor cortex to muscle. This suggests sequential development of PAs and the CST rather than co-development. In this study we determined if there was also late postnatal refinement of PA spinal connections, which would support PA-CST co-development. We examined changes in PA spinal connections at 4 weeks of age, when CST terminations are immature, at 8 weeks, after CST refinement, and at 11 weeks, when CST terminations are mature. We electrically stimulated PA afferents in the deep radial nerve. Evoked PA responses were small and not localized at 4 weeks. By 8 and 11 weeks, responses were substantially larger and maximal in laminae VI and dorsal VII. We used intramuscular injection of cholera toxin β subunit to determine the distribution of PAs from the extensor carpii radialis muscle in the cervical enlargement at the same ages as in the electrophysiological studies. We found a reduction of the distribution of PAs with age that paralleled the physiological changes. This age-related sharpening of PA spinal connections also paralleled CST development, suggesting coordinated PA-CST co-development rather than sequential development. This is likely to be important for the development of adaptive motor control.
本体感觉传入 (PA) 信息与来自下行通路的信号(包括皮质脊髓束 (CST))由背角和中间区域的脊髓中间神经元整合,用于控制运动。PA 脊髓投射及其引起的反射在产前发育。CST 在出生后投射到脊髓,其连接随后得到细化。因此,该束在将控制信号从运动皮层传输到肌肉方面变得有效。这表明 PA 和 CST 的顺序发育而不是共同发育。在这项研究中,我们确定 PA 脊髓连接是否也存在后期出生后的细化,这将支持 PA-CST 的共同发育。我们检查了 4 周龄时 CST 末端不成熟、8 周龄时 CST 细化后和 11 周龄时 CST 末端成熟时 PA 脊髓连接的变化。我们在深部桡神经中电刺激 PA 传入。在 4 周时,诱发的 PA 反应很小且未定位。到 8 周和 11 周时,反应明显增大,最大反应位于 VI 层和 VII 背侧。我们使用肌肉内注射霍乱毒素 β 亚单位来确定在与电生理研究相同的年龄,来自伸腕肌的 PA 在颈膨大中的分布。我们发现 PA 的分布随着年龄的增长而减少,与生理变化平行。PA 脊髓连接的这种与年龄相关的变锐也与 CST 发育平行,表明协调的 PA-CST 共同发育而不是顺序发育。这对于适应性运动控制的发展可能很重要。