Department of General Zoology and Neurobiology, Ruhr-University Bochum, D-44780 Bochum, Germany.
J Neurosci. 2011 Nov 30;31(48):17659-68. doi: 10.1523/JNEUROSCI.4302-11.2011.
The horizontal optokinetic nystagmus (hOKN) in primates is immature at birth. To elucidate the early functional state of the visual pathway for hOKN, retinal slip neurons were recorded in the nucleus of the optic tract and dorsal terminal nucleus (NOT-DTN) of 4 anesthetized infant macaques. These neurons were direction selective for ipsiversive stimulus movement shortly after birth [postnatal day 9 (P9)], although at a lower direction selectivity index (DSI). The DSI in the older infants (P12, P14, P60) was not different from adults. A total of 96% of NOT-DTN neurons in P9, P12, and P14 were binocular, however, significantly more often dominated by the contralateral eye than in adults. Already in the youngest animals, NOT-DTN neurons were well tuned to different stimulus velocities; however, tuning was truncated toward lower stimulus velocities when compared with adults. As early as at P12, electrical stimulation in V1 elicited orthodromic responses in the NOT-DTN. However, the incidence of activated neurons was much lower in infants (40-60% of the tested NOT-DTN neurons) than in adults (97%). Orthodromic latencies from V1 were significantly longer in P12-P14 (x = 12.2 ± 8.9 ms) than in adults (x = 3.51 ± 0.81 ms). At the same age, electrical stimulation in motion-sensitive area MT was more efficient in activating NOT-DTN neurons (80% of the tested cells) and yielded shorter latencies than in V1 (x = 7.8 ± 3.02 ms; adult x = 2.99 ± 0.85 ms). The differences in discharge rate between neurons in the NOT-DTN contra- and ipsilateral to the stimulated eye are equivalent to the gain asymmetry between monocularly elicited OKN in temporonasal and nasotemporal direction at the various ages.
灵长类动物的水平型视动性眼球震颤(hOKN)在出生时尚未发育成熟。为了阐明 hOKN 的视觉通路的早期功能状态,我们在 4 只麻醉的婴儿猕猴的视束核和背终核(NOT-DTN)中记录了视网膜滑动神经元。这些神经元在出生后不久(出生后 9 天[P9])对向刺激运动具有方向选择性,尽管方向选择性指数(DSI)较低。年龄较大的婴儿(P12、P14、P60)的 DSI 与成人无差异。P9、P12 和 P14 中的 NOT-DTN 神经元共有 96%是双眼的,但与成人相比,更多的是由对侧眼主导。即使在最小的动物中,NOT-DTN 神经元也能很好地适应不同的刺激速度;然而,与成人相比,调谐向较低的刺激速度截断。早在 P12 时,V1 的电刺激就能在 NOT-DTN 中引发传入反应。然而,婴儿的激活神经元发生率(40-60%的测试 NOT-DTN 神经元)远低于成人(97%)。P12-P14 时从 V1 发出的传入潜伏期明显长于成人(x = 12.2 ± 8.9 ms 比 x = 3.51 ± 0.81 ms)。在同一年龄,运动敏感区 MT 的电刺激在激活 NOT-DTN 神经元方面更有效(80%的测试细胞),潜伏期比 V1 短(x = 7.8 ± 3.02 ms;成人 x = 2.99 ± 0.85 ms)。刺激眼同侧和对侧 NOT-DTN 神经元之间的放电率差异与各个年龄段单眼诱发的 OKN 在颞侧和鼻侧方向之间的增益不对称相当。