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推断“原始免疫复合物”:比较基因组学揭示 MHC Ⅰ类和抗原受体的起源

Inferring the "Primordial Immune Complex": Origins of MHC Class I and Antigen Receptors Revealed by Comparative Genomics.

机构信息

Department of Microbiology and Immunology, University of Maryland School of Medicine, Baltimore, MD 21201.

Department of Pathology, Faculty of Medicine and Graduate School of Medicine, Hokkaido University, Sapporo 060-8638, Japan.

出版信息

J Immunol. 2019 Oct 1;203(7):1882-1896. doi: 10.4049/jimmunol.1900597. Epub 2019 Sep 6.

DOI:10.4049/jimmunol.1900597
PMID:31492741
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC6761025/
Abstract

Comparative analyses suggest that the MHC was derived from a prevertebrate "primordial immune complex" (PIC). PIC duplicated twice in the well-studied two rounds of genome-wide duplications (2R) early in vertebrate evolution, generating four MHC paralogous regions (predominantly on human chromosomes [chr] 1, 6, 9, 19). Examining chiefly the amphibian , but also other vertebrates, we identified their MHC paralogues and mapped MHC class I, AgR, and "framework" genes. Most class I genes mapped to MHC paralogues, but a cluster of MHC class Ib genes (xnc), which previously was mapped outside of the MHC paralogues, was surrounded by genes syntenic to mammalian genes, a region previously proposed as an MHC paralogue on human chr 1. Thus, this gene block is instead the result of a translocation that we call the translocated part of the MHC paralogous region (MHC Analyses of class I genes, as well as MHC, suggest that class I arose at 1R on the chr 6/19 ancestor. Of great interest are nonrearranging AgR-like genes mapping to three MHC paralogues; thus, PIC clearly contained several AgR precursor loci, predating MHC class I/II. However, all rearranging AgR genes were found on paralogues derived from the chr 19 precursor, suggesting that invasion of a variable (V) exon by the RAG transposon occurred after 2R. We propose models for the evolutionary history of MHC/TCR/Ig and speculate on the dichotomy between the jawless (lamprey and hagfish) and jawed vertebrate adaptive immune systems, as we found genes related to variable lymphocyte receptors also map to MHC paralogues.

摘要

比较分析表明,MHC 起源于脊椎动物进化早期两轮全基因组加倍(2R)中“原始免疫复合物”(PIC)的两次重复,产生了四个 MHC 直系同源区(主要位于人类染色体 [chr]1、6、9、19)。通过研究主要的两栖类,也包括其他脊椎动物,我们鉴定了它们的 MHC 直系同源基因,并绘制了 MHC 类 I、AgR 和“框架”基因。大多数类 I 基因映射到 MHC 直系同源基因,但先前映射到 MHC 直系同源基因之外的 MHC 类 Ib 基因(xnc)簇,被与哺乳动物基因同线的基因包围,这一区域先前被提议为人类 chr1 上的 MHC 直系同源基因。因此,这个基因块是易位的结果,我们称之为 MHC 直系同源区的易位部分。MHC 类 I 基因和 MHC 的分析表明,类 I 基因起源于 chr6/19 祖先的 1R。非常有趣的是,三个 MHC 直系同源基因映射到非重排的 AgR 样基因;因此,PIC 显然包含了几个 AgR 前体基因,早于 MHC 类 I/II。然而,所有重排的 AgR 基因都位于源自 chr19 祖先的直系同源基因上,这表明 RAG 转座子的可变(V)外显子的入侵发生在 2R 之后。我们提出了 MHC/TCR/Ig 的进化历史模型,并推测无颚(七鳃鳗和盲鳗)和有颚脊椎动物适应性免疫系统之间的二分法,因为我们发现与可变淋巴细胞受体相关的基因也映射到 MHC 直系同源基因上。