Margarita Salova, Wolfgang Sipos, Erwin Tschachler, Leopold Eckhart
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引用次数: 3
Abstract
NOD-like receptors (NLRs) are sensors of pathogen-associated molecular patterns with critical roles in the control of immune responses and programmed cell death. Recent studies have revealed inter-species differences in mammalian innate immune genes and a particular degeneration of nucleic acid sensing pathways in pangolins, which are currently investigated as potential hosts for zoonotic pathogens. Here, we used comparative genomics to determine which NLR genes are conserved or lost in pangolins and related mammals. We show that NOD2, which is implicated in sensing bacterial muramyl dipeptide and viral RNA, is a pseudogene in pangolins, but not in any other mammalian species investigated. NLRC4 and NAIP are absent in pangolins and canine carnivorans, suggesting convergent loss of cytoplasmic sensing of bacterial flagellin in these taxa. Among NLR family pyrin domain containing proteins (NLRPs), skin barrier-related NLRP10 has been lost in pangolins after the evolutionary divergence from Carnivora. Strikingly, pangolins lack all NLRPs associated with reproduction (germ cells and embryonic development) in other mammals, i.e., NLRP2, 4, 5, 7, 8, 9, 11, 13, and 14. Taken together, our study shows a massive degeneration of NLR genes in pangolins and suggests that these endangered mammals may have unique adaptations of innate immunity and reproductive cell biology.
nod样受体(NLRs)是病原体相关分子模式的传感器,在控制免疫反应和程序性细胞死亡中起着关键作用。最近的研究揭示了哺乳动物先天免疫基因的种间差异,以及穿山甲核酸感应途径的特殊退化,目前正在研究穿山甲作为人畜共患病原体的潜在宿主。在这里,我们使用比较基因组学来确定哪些NLR基因在穿山甲和相关哺乳动物中被保留或丢失。我们发现NOD2在穿山甲中是假基因,而在其他哺乳动物物种中则不是假基因,该基因与感知细菌muramyl二肽和病毒RNA有关。NLRC4和NAIP在穿山甲和犬科食肉动物中不存在,表明这些类群的细胞质对细菌鞭毛蛋白的感知趋同缺失。在NLR家族pyrin domain containing protein (NLRPs)中,与皮肤屏障相关的NLRP10在穿山甲与食肉目进化分化后丢失。引人注目的是,穿山甲缺乏其他哺乳动物中与生殖(生殖细胞和胚胎发育)相关的所有NLRP2,即NLRP2、4、5、7、8、9、11、13和14。综上所述,我们的研究表明穿山甲NLR基因的大量退化,并表明这些濒危哺乳动物可能具有独特的先天免疫和生殖细胞生物学适应性。
期刊介绍:
Immunogenetics publishes original papers, brief communications, and reviews on research in the following areas: genetics and evolution of the immune system; genetic control of immune response and disease susceptibility; bioinformatics of the immune system; structure of immunologically important molecules; and immunogenetics of reproductive biology, tissue differentiation, and development.