Plasil Martin, Futas Jan, Jelinek April, Burger Pamela A, Horin Petr
Research Group Animal Immunogenomics, Ceitec Vetuni, University of Veterinary Sciences Brno, Brno, Czech Republic.
Department of Animal Genetics, Faculty of Veterinary Medicine, University of Veterinary Sciences Brno, Brno, Czech Republic.
Front Genet. 2022 Mar 2;13:829891. doi: 10.3389/fgene.2022.829891. eCollection 2022.
This review summarizes the current knowledge on the major histocompatibility complex (MHC) of the family Felidae. This family comprises an important domestic species, the cat, as well as a variety of free-living felids, including several endangered species. As such, the Felidae have the potential to be an informative model for studying different aspects of the biological functions of MHC genes, such as their role in disease mechanisms and adaptation to different environments, as well as the importance of genetic diversity for conservation issues in free-ranging or captive populations. Despite this potential, the current knowledge on the MHC in the family as a whole is fragmentary and based mostly on studies of the domestic cat and selected species of big cats. The overall structure of the domestic cat MHC is similar to other mammalian MHCs following the general scheme "centromere-MHC class I-MHC class III-MHC class II" with some differences in the gene contents. An unambiguously defined orthologue of the non-classical class I gene has not been identified so far and the class II DQ and DP genes are missing or pseudogenized, respectively. A comparison with available genomes of other felids showed a generally high level of structural and sequence conservation of the MHC region. Very little and fragmentary information on and/or biological functions of felid MHC genes is available. So far, no association studies have indicated effects of MHC genetic diversity on a particular disease. No information is available on the role of MHC class I molecules in interactions with Natural Killer (NK) cell receptors or on the putative evolutionary interactions (co-evolution) of the underlying genes. A comparison of complex genomic regions encoding NK cell receptors (the Leukocyte Receptor Complex, LRC and the Natural Killer Cell Complex, NKC) in the available felid genomes showed a higher variability in the NKC compared to the LRC and the MHC regions. Studies of the genetic diversity of domestic cat populations and/or specific breeds have focused mainly on genes. Not surprisingly, higher levels of MHC diversity were observed in stray cats compared to pure breeds, as evaluated by sequencing as well as by MHC-linked microsatellite typing. Immunogenetic analysis in wild felids has only been performed on MHC class I and II loci in tigers, Namibian leopards and cheetahs. This information is important as part of current conservation tasks to assess the adaptive potential of endangered wild species at the human-wildlife interface, which will be essential for preserving biodiversity in a functional ecosystem.
本综述总结了目前关于猫科动物主要组织相容性复合体(MHC)的知识。猫科动物包括重要的家养物种猫,以及多种自由生活的猫科动物,其中包括几种濒危物种。因此,猫科动物有可能成为一个有价值的模型,用于研究MHC基因生物学功能的不同方面,例如它们在疾病机制和适应不同环境中的作用,以及遗传多样性对于野生或圈养种群保护问题的重要性。尽管有这种潜力,但目前关于整个猫科动物家族MHC的知识是零散的,主要基于对家猫和选定大型猫科动物物种的研究。家猫MHC的总体结构与其他哺乳动物的MHC相似,遵循“着丝粒 - MHC I类 - MHC III类 - MHC II类”的一般模式,但基因内容存在一些差异。到目前为止,尚未明确鉴定出非经典I类基因的直系同源物,并且II类DQ和DP基因分别缺失或假基因化。与其他猫科动物的可用基因组进行比较表明,MHC区域的结构和序列保守程度总体较高。关于猫科动物MHC基因的生物学功能,目前只有极少且零散的信息。到目前为止,没有关联研究表明MHC遗传多样性对特定疾病有影响。关于MHC I类分子在与自然杀伤(NK)细胞受体相互作用中的作用,或其潜在基因的假定进化相互作用(共同进化),目前尚无相关信息。对可用猫科动物基因组中编码NK细胞受体的复杂基因组区域(白细胞受体复合体,LRC和自然杀伤细胞复合体,NKC)进行比较,结果显示NKC的变异性高于LRC和MHC区域。对家猫种群和/或特定品种的遗传多样性研究主要集中在某些基因上。不出所料,通过某些基因测序以及与MHC相关的微卫星分型评估发现,与纯种猫相比,流浪猫的MHC多样性水平更高。对野生猫科动物的免疫遗传学分析仅在老虎、纳米比亚豹和猎豹的MHC I类和II类基因座上进行。这些信息作为当前保护任务的一部分,对于评估濒危野生物种在人类 - 野生动物界面的适应潜力非常重要,这对于在功能生态系统中保护生物多样性至关重要。
