Institute of Zoology, Slovak Academy of Sciences, Bratislava, Slovakia; Faculty of Natural Sciences, Comenius University, Bratislava, Slovakia.
Institute of Zoology, Slovak Academy of Sciences, Bratislava, Slovakia.
J Insect Physiol. 2023 Jun;147:104524. doi: 10.1016/j.jinsphys.2023.104524. Epub 2023 May 16.
In Europe, the tick Ixodes ricinus is the most important vector of numerous pathogens that are transmitted during blood feeding on their vertebrate hosts. To elucidate mechanisms controlling blood intake and associated transmission of pathogens we identified and described expression of short neuropeptide F (sNPF) and its receptors which are known to regulate feeding in insects. Using in situ hybridization (ISH) and immunohistochemistry (IHC) we stained numerous neurons producing sNPF in the central nervous system (CNS; synganglion), while a few peripheral neurons were detected anteriorly to the synganglion, and on the surface of the hindgut and leg muscles. Apparent sNPF expression was also found in enteroendocrine cells individually scattered in anterior lobes of the midgut. In silico analyses and BLAST search for sNPF receptors revealed two putative G protein-coupled receptors (sNPFR1 and sNPFR2) in the I. ricinus genome. Aequorin-based functional assay in CHO cells showed that both receptors were specific and sensitive to sNPF in nanomolar concentrations. Increased expression levels of these receptors in the gut during blood intake suggest that sNPF signaling may be involved in regulation of feeding and digestion processes of I. ricinus.
在欧洲,蓖子硬蜱是传播其脊椎动物宿主血液中多种病原体的最重要载体。为了阐明控制吸血和相关病原体传播的机制,我们鉴定并描述了短神经肽 F(sNPF)及其受体的表达,这些受体已知可调节昆虫的摄食行为。我们使用原位杂交 (ISH) 和免疫组织化学 (IHC) 技术,对产生 sNPF 的中枢神经系统 (CNS; 联体神经节) 中的大量神经元进行染色,而在联体神经节的前部和后肠及腿部肌肉表面检测到少数外周神经元。在中肠的前叶中,也发现了明显的 sNPF 表达在分散的肠内分泌细胞中。对 sNPF 受体的计算机分析和 BLAST 搜索揭示了硬蜱基因组中的两个假定 G 蛋白偶联受体 (sNPFR1 和 sNPFR2)。在 CHO 细胞中的基于水母发光蛋白的功能测定表明,这两种受体均对纳摩尔浓度的 sNPF 具有特异性和敏感性。在吸血过程中,这些受体在肠道中的表达水平增加表明,sNPF 信号可能参与调节硬蜱的摄食和消化过程。
