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非视觉输入的损伤会影响视觉皮层的可塑性、去甲肾上腺素含量和乙酰胆碱含量。

Lesions of nonvisual inputs affect plasticity, norepinephrine content, and acetylcholine content of visual cortex.

作者信息

Gordon B, Mitchell B, Mohtadi K, Roth E, Tseng Y, Turk F

机构信息

Institute of Neuroscience, University of Oregon, Eugene 97403.

出版信息

J Neurophysiol. 1990 Dec;64(6):1851-60. doi: 10.1152/jn.1990.64.6.1851.

DOI:10.1152/jn.1990.64.6.1851
PMID:2074468
Abstract
  1. The depletion of both norepinephrine (NE) and acetylcholine (ACh) in the visual cortex can decrease plasticity. This decrease in plasticity, although dramatic under some circumstances, fails to occur under others. 2. We depleted cortical NE and ACh in 35- to 42-day-old kittens by making a lesion of the white matter behind the cingulate gyrus. One eye was sutured on the day of the lesion. We recorded from the visual cortex 7 days or 2-3 mo later and used the influence of the deprived eye on the cortical cells as a measure of plasticity. 3. We measured NE content by high-pressure liquid chromatography (HPLC) and inferred ACh depletion from depletion of choline acetyltransferase (ChAT) activity. NE depletion averaged 60% in the successfully depleted animals. Depletion of ChAT activity was consistent with NE depletion. 4. When recording occurred 7 days after the lesion and the sutured eye was contralateral to the lesion, plasticity was decreased on the side with the lesion; 70% of the cells were driven by the deprived eye. On the control, uninjured side only 15% of the cells were driven by the deprived eye. 5. In two circumstances the lesion did not cause a decrease in plasticity. In animals with suture ipsilateral to the lesion, the cortex remained plastic. In these animals only 26% of the cells in the hemisphere with the lesion were driven by the deprived eye. The cortex also retained its plasticity if the contralateral eye remained sutured for several months after the lesion, even though there was no recovery from NE and ACh depletion. 6. We conclude that depletion of NE and ACh does decrease plasticity; that is, it protects the deprived eye from losing its ability to drive cortical cells, at least for a short period of time. Depletion protects only the normally dominant contralateral pathway; the ipsilateral visual pathway remains plastic. 7. Perhaps the importance of the side of the deprived eye can be explained by assuming that depletion of NE and ACh removes facilitatory input. This would decrease the ability of cortical cells on the side with lesion to potentiate the input from the nondeprived eye relative to the deprived eye; that is, it would decrease the molecular deprivation (MD) effect. A removal of facilitation would also increase the visual input required to drive cells.(ABSTRACT TRUNCATED AT 400 WORDS)
摘要
  1. 视皮层中去甲肾上腺素(NE)和乙酰胆碱(ACh)的耗竭均可降低可塑性。这种可塑性的降低,尽管在某些情况下很显著,但在其他情况下却不会发生。2. 我们通过损伤扣带回后方的白质,使35至42日龄小猫的皮层NE和ACh耗竭。在损伤当天缝合一只眼睛。7天或2至3个月后,我们从视皮层进行记录,并将剥夺眼对皮层细胞的影响作为可塑性的指标。3. 我们通过高压液相色谱法(HPLC)测量NE含量,并根据胆碱乙酰转移酶(ChAT)活性的耗竭推断ACh的耗竭情况。在成功实现耗竭的动物中,NE耗竭平均达60%。ChAT活性的耗竭与NE耗竭一致。4. 当在损伤后7天进行记录,且缝合眼与损伤部位对侧时,损伤侧的可塑性降低;70%的细胞由剥夺眼驱动。在对照的未损伤侧,只有15%的细胞由剥夺眼驱动。5. 在两种情况下,损伤并未导致可塑性降低。在缝合眼与损伤同侧的动物中,皮层仍具有可塑性。在这些动物中,损伤半球中只有26%的细胞由剥夺眼驱动。如果在损伤后对侧眼持续缝合数月,皮层也能保持其可塑性,尽管NE和ACh耗竭并未恢复。6. 我们得出结论,NE和ACh的耗竭确实会降低可塑性;也就是说,它能保护剥夺眼至少在短时间内不丧失驱动皮层细胞的能力。耗竭仅保护正常占主导的对侧通路;同侧视觉通路仍具有可塑性。7. 或许剥夺眼所在侧的重要性可以通过假设NE和ACh的耗竭消除了易化性输入来解释。这将降低损伤侧皮层细胞增强来自非剥夺眼相对于剥夺眼输入的能力;也就是说,它将降低分子剥夺(MD)效应。易化作用的消除也会增加驱动细胞所需的视觉输入。(摘要截断于400字)

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