Innexin expression and localization in the Drosophila antenna indicate gap junction or hemichannel involvement in antennal chemosensory sensilla.

IF 3.2 3区 生物学 Q3 CELL BIOLOGY Cell and Tissue Research Pub Date : 2024-10-01 Epub Date: 2024-08-23 DOI:10.1007/s00441-024-03909-3
Sinisa Prelic, Ian W Keesey, Sofia Lavista-Llanos, Bill S Hansson, Dieter Wicher
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Abstract

Odor detection in insects is largely mediated by structures on antennae called sensilla, which feature a strongly conserved architecture and repertoire of olfactory sensory neurons (OSNs) and various support cell types. In Drosophila, OSNs are tightly apposed to supporting cells, whose connection with neurons and functional roles in odor detection remain unclear. Coupling mechanisms between these neuronal and non-neuronal cell types have been suggested based on morphological observations, concomitant physiological activity during odor stimulation, and known interactions that occur in other chemosensory systems. For instance, it is not known whether cell-cell coupling via gap junctions between OSNs and neighboring cells exists, or whether hemichannels interconnect cellular and extracellular sensillum compartments. Here, we show that innexins, which form hemichannels and gap junctions in invertebrates, are abundantly expressed in adult drosophilid antennae. By surveying antennal transcriptomes and performing various immunohistochemical stainings in antennal tissues, we discover innexin-specific patterns of expression and localization, with a majority of innexins strongly localizing to glial and non-neuronal cells, likely support and epithelial cells. Finally, by injecting gap junction-permeable dye into a pre-identified sensillum, we observe no dye coupling between neuronal and non-neuronal cells. Together with evidence of non-neuronal innexin localization, we conclude that innexins likely do not conjoin neurons to support cells, but that junctions and hemichannels may instead couple support cells among each other or to their shared sensillum lymph to achieve synchronous activity. We discuss how coupling of sensillum microenvironments or compartments may potentially contribute to facilitate chemosensory functions of odor sensing and sensillum homeostasis.

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果蝇触角中 Innexin 的表达和定位表明缝隙连接或半通道参与了触角化学感觉小体的活动。
昆虫的气味检测主要是由触角上称为 "感觉器 "的结构介导的,其特征是具有高度保守的结构和嗅觉感觉神经元(OSNs)及各种支持细胞类型。在果蝇中,嗅觉神经元与支持细胞紧密相连,而支持细胞与神经元之间的联系以及在气味检测中的功能作用仍不清楚。根据形态学观察、气味刺激时的伴随生理活动以及其他化学感觉系统中发生的已知相互作用,人们提出了这些神经元和非神经元细胞类型之间的耦合机制。例如,目前还不清楚 OSN 与邻近细胞之间是否存在通过间隙连接的细胞-细胞耦合,也不清楚半通道是否将细胞和细胞外的感觉器分区相互连接起来。在这里,我们发现在无脊椎动物中形成半连接通道和间隙连接的内联蛋白在成虫触角中大量表达。通过调查触角转录组和对触角组织进行各种免疫组化染色,我们发现了附件蛋白特异性的表达和定位模式,大多数附件蛋白强烈定位在神经胶质细胞和非神经元细胞上,很可能是支持细胞和上皮细胞。最后,通过向预先确定的感觉丘注入间隙连接渗透性染料,我们观察到神经元细胞和非神经元细胞之间没有染料耦合。结合非神经元内联素定位的证据,我们得出结论:内联素可能不会将神经元与支持细胞连接在一起,相反,连接点和半通道可能会将支持细胞相互之间或与其共享的感觉淋巴连接在一起,从而实现同步活动。我们讨论了感觉器微环境或区块的耦合如何可能有助于促进气味感知和感觉器平衡的化学感觉功能。
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来源期刊
Cell and Tissue Research
Cell and Tissue Research 生物-细胞生物学
CiteScore
7.00
自引率
2.80%
发文量
142
审稿时长
1 months
期刊介绍: The journal publishes regular articles and reviews in the areas of molecular, cell, and supracellular biology. In particular, the journal intends to provide a forum for publishing data that analyze the supracellular, integrative actions of gene products and their impact on the formation of tissue structure and function. Submission of papers with an emphasis on structure-function relationships as revealed by recombinant molecular technologies is especially encouraged. Areas of research with a long-standing tradition of publishing in Cell & Tissue Research include: - neurobiology - neuroendocrinology - endocrinology - reproductive biology - skeletal and immune systems - development - stem cells - muscle biology.
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