Suárez B, Morales P, Castro M J, Fernández-Soria V, Recio M J, Pérez-Blas M, Alvarez M, Díaz-Campos N, Arnaiz-Villena A
Department of Immunology, Hospital 12 de Octubre, Universidad Complutense, Madrid, Spain.
Tissue Antigens. 1997 Dec;50(6):695-8. doi: 10.1111/j.1399-0039.1997.tb02938.x.
Mhc-E intron 1, exon 2, intron 2, and exon 3 from pygmy chimpanzee (Pan paniscus), chimpanzee (Pan troglodytes), gorilla (Gorilla gorilla) and orangutan (Pongo pygmaeus) have been sequenced; six new Mhc-E alleles have been obtained but sequence changes are only placed either in introns or in synonymous exonic bases. One pygmy chimpanzee Mhc-E DNA sequence is identical to another sequence from chimpanzee; the fact that no variation is found also at the intronic level suggests that these two species of chimpanzee may have recently separated and/or that both of them might only represent subspecies. Mhc-E phylogenetic trees separate two evolutionary groups: Pongidae, including humans, and Cercopithecinae; this is also found by studying another non-classical class I gene, Mhc-G. The Mhc-E alleles' invariance at the protein level supports that strong selective forces are operating at the Mhc-E locus, as has also been found in both Cercopithecinae and humans. These allelic and evolutionary data suggest an altogether different functionality for HLA-E (and also HLA-G) compared with classical class I proteins: i.e., sending negative (tolerogenic) signals to NK and T cells.
已对倭黑猩猩(Pan paniscus)、黑猩猩(Pan troglodytes)、大猩猩(Gorilla gorilla)和猩猩(Pongo pygmaeus)的Mhc-E内含子1、外显子2、内含子2和外显子3进行了测序;已获得六个新的Mhc-E等位基因,但序列变化仅位于内含子或同义外显子碱基中。一个倭黑猩猩的Mhc-E DNA序列与另一个黑猩猩的序列相同;在内含子水平上也未发现变异这一事实表明,这两种黑猩猩可能最近才分离,和/或它们可能都仅代表亚种。Mhc-E系统发育树将两个进化群体分开:包括人类在内的猩猩科和猕猴亚科;通过研究另一个非经典的I类基因Mhc-G也发现了这一点。Mhc-E等位基因在蛋白质水平上的不变性支持了在Mhc-E位点存在强大的选择力,这在猕猴亚科和人类中也已被发现。这些等位基因和进化数据表明,与经典的I类蛋白质相比,HLA-E(以及HLA-G)具有完全不同的功能:即向自然杀伤细胞和T细胞发送负性(耐受性)信号。
