社会信息的价态编码在蜜蜂大脑中不同的蘑菇体凯尼恩细胞亚群中

Ian M. Traniello, Zhenqing Chen, Vikram A. Bagchi, G. Robinson
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引用次数: 15

摘要

脊椎动物和无脊椎动物之间超过600兆尔的进化差异与这些谱系之间和内部的相当大的神经解剖学变异有关。相比之下,效价编码是一种重要的行为特征,在脊椎动物和无脊椎动物中都是进化保守的,它使个体能够区分积极(潜在有益)和消极(潜在有害)的情况。我们测试了一个假设,即积极和消极的社会互动在蜜蜂的大脑中是模块化编码的(即在不同的细胞亚群中编码),就像在脊椎动物的大脑中一样。在脊椎动物中,神经激活模式分布在大脑的不同部分,这表明离散的回路编码积极或消极的刺激。这一假设的证据表明,昆虫和脊椎动物之间的神经组织在价编码方面有着深刻的同源性,尽管大脑大小大不相同。另外,大脑中有价值的社会信息的重叠定位可能意味着回路在积极和消极的社会背景下的“再利用”,有可能克服微小大脑的能量限制。我们使用即时早期基因表达来绘制西方蜜蜂大脑中积极和消极的社会互动。我们发现社会信号的效价由蘑菇体的不同解剖亚区表示,蘑菇体是一种与社会行为、多模态感觉整合、学习和记忆相关的无脊椎感觉神经。我们的研究结果表明,大脑中有价值的社会信息的模块化是神经解剖组织的基本特性。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Valence of social information is encoded in different subpopulations of mushroom body Kenyon cells in the honeybee brain
Over 600 Myr of evolutionary divergence between vertebrates and invertebrates is associated with considerable neuroanatomical variation both across and within these lineages. By contrast, valence encoding is an important behavioural trait that is evolutionarily conserved across vertebrates and invertebrates, and enables individuals to distinguish between positive (potentially beneficial) and negative (potentially harmful) situations. We tested the hypothesis that social interactions of positive and negative valence are modularly encoded in the honeybee brain (i.e. encoded in different cellular subpopulations) as in vertebrate brains. In vertebrates, neural activation patterns are distributed across distinct parts of the brain, suggesting that discrete circuits encode positive or negative stimuli. Evidence for this hypothesis would suggest a deep homology of neural organization between insects and vertebrates for valence encoding, despite vastly different brain sizes. Alternatively, overlapping localization of valenced social information in the brain would imply a ‘re-use' of circuitry in response to positive and negative social contexts, potentially to overcome the energetic constraints of a tiny brain. We used immediate early gene expression to map positively and negatively valenced social interactions in the brain of the western honeybee Apis mellifera. We found that the valence of a social signal is represented by distinct anatomical subregions of the mushroom bodies, an invertebrate sensory neuropil associated with social behaviour, multimodal sensory integration, learning and memory. Our results suggest that the modularization of valenced social information in the brain is a fundamental property of neuroanatomical organization.
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