环境刺激对成虫脑神经发生的影响。

Journal of neurobiology Pub Date : 2000-11-15
S Scotto Lomassese, C Strambi, A Strambi, P Charpin, R Augier, A Aouane, M Cayre
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引用次数: 0

摘要

蘑菇体是昆虫大脑的主要综合结构。它们接收来自眼睛、触须和触角的感觉信息。在家蟋蟀(Acheta domesticus)中,一群蘑菇体神经母细胞在昆虫的一生中不断产生新的中间神经元。本研究旨在探讨环境刺激对成年期蘑菇体神经发生的影响。蟋蟀要么被饲养在一个丰富的环境中,在那里它们接受复杂的环境和相同的刺激,要么被隔离在小笼子里,剥夺了大多数视觉、听觉和嗅觉刺激。然后给它们注射s期标记物5-溴,2'-脱氧尿苷(BrdU),并在它们生命的不同时期处死。通过计算菌体中brdu标记细胞的数量来估计神经发生和细胞存活。研究发现,与生活在环境贫瘠的笼子里的蟋蟀相比,环境丰富的蟋蟀蘑菇体内的新生细胞数量有所增加。这种外部因素对神经发生的影响似乎仅限于想象生命的开始。此外,在两种环境下,新生神经元中均未检测到细胞损失,这表明细胞存活不受环境质量的影响。考虑到脊椎动物的研究表明,丰富的环境增加了海马细胞的存活率,提高了动物在空间学习测试中的表现,我们认为,暴露于丰富的环境后,综合脑结构中产生的中间神经元数量的增加可能有助于成虫的适应性行为表现。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Influence of environmental stimulation on neurogenesis in the adult insect brain.

Mushroom bodies are the main integrative structures of insect brain. They receive sensory information from the eyes, the palps, and the antennae. In the house cricket, Acheta domesticus, a cluster of mushroom body neuroblasts keeps producing new interneurons during an insect's life span. The aim of the present work is to study the impact of environmental stimuli on mushroom body neurogenesis during adulthood. Crickets were reared either in an enriched environment, where they received complex environmental and congeneric stimulations or isolated in small cages and deprived of most visual, auditory, and olfactory stimuli. They then were injected with a S-phase marker, 5-bromo, 2'-deoxyuridine (BrdU) and sacrificed at different periods of their life. Neurogenesis and cell survival were estimated by counting the number of BrdU-labeled cells in the mushroom bodies. Environmentally enriched crickets were found to have an increased number of newborn cells in their mushroom bodies compared with crickets housed in cages with an impoverished environment. This effect of external factors on neurogenesis seems to be limited to the beginning of imaginal life. Furthermore, no cell loss could be detected among the newborn neurons in either environmental situation, suggesting that cell survival was not affected by the quality of the environment. Considering vertebrate studies which showed that enriched environment increases hippocampal cell survival and improves animal performances in spatial learning tests, we suggest that the increased number of interneurons produced in an integrative brain structure after exposure to enriched environment could contribute to adaptive behavioral performances in adult insects.

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