Novel Immune-type Receptor Genes and the Origins of Adaptive and Innate Immune Recognition

Abstract

The prototypic forms of teleost novel immune-type receptors (NITRs) consist of a variable (V) region, a unique V-like C2 (V/C2) domain, a transmembrane region and a cytoplasmic tail containing immunoreceptor tyrosine-based inhibition motifs (ITIMs). NITRs encode diversified V regions in large multigene families but do not undergo somatic rearrangement. Studies in four different bony fish model systems have identified a number of different organizational forms of NITRs. Specifically, NITR genes encode N-terminal ectodomains of the V-type but otherwise vary in the: total number of extracellular immunoglobulin domains, number and location of joining (J) region-like motifs, presence of transmembrane regions, presence of charged residues within transmembrane regions, presence of cytoplasmic tails, and/or distribution of ITIM(s) within the cytoplasmic tails. V region-containing NITRs constitute a far more complex family than recognized originally and currently include individual members that potentially function through inhibitory as well as activating mechanisms. The genomic organization of the NITR gene cluster as well as the structural diversity and overall architecture of the NITR proteins is reminiscent of genes encoded at the mammalian leukocyte receptor cluster (LRC); however, there presently is no functional evidence to support an orthologous relationship between NITR and LRC gene products. Comparisons of the predicted structures of the NITRs have identified several short regions of sequence identity and a novel cloning strategy has been devised that selects for secretory and transmembrane proteins that encode these short motifs. Using this approach, related genes termed immune-type receptors (ITRs) have been identified in cartilaginous fish. Taken together, these studies indicate that leukocyte regulatory receptors, including those that mediate natural killer function, might have emerged early in vertebrate evolution and that the NITR/ITR genes represent a new and potentially highly significant link between innate and adaptive immune responses.