Abstract
BackgroundSiglecs-11 and -16 are members of the sialic acid recognizing Ig-like lectin family, and expressed in same cells. Siglec-11 functions as an inhibitory receptor, whereas Siglec-16 exhibits activating properties. In humans, SIGLEC11 and SIGLEC16 gene sequences are extremely similar in the region encoding the extracellular domain due to gene conversions. Human SIGLEC11 was converted by the nonfunctional SIGLEC16P allele, and the converted SIGLEC11 allele became fixed in humans, possibly because it provides novel neuroprotective functions in brain microglia. However, the detailed evolutionary history of SIGLEC11 and SIGLEC16 in other primates remains unclear.ResultsWe analyzed SIGLEC11 and SIGLEC16 gene sequences of multiple primate species, and examined glycan binding profiles of these Siglecs. The phylogenetic tree demonstrated that gene conversions between SIGLEC11 and SIGLEC16 occurred in the region including the exon encoding the sialic acid binding domain in every primate examined. Functional assays showed that glycan binding preference is similar between Siglec-11 and Siglec-16 in all analyzed hominid species. Taken together with the fact that Siglec-11 and Siglec-16 are expressed in the same cells, Siglec-11 and Siglec-16 are regarded as paired receptors that have maintained similar ligand binding preferences via gene conversions. Relaxed functional constraints were detected on the SIGLEC11 and SIGLEC16 exons that underwent gene conversions, possibly contributing to the evolutionary acceptance of repeated gene conversions. The frequency of nonfunctional SIGLEC16P alleles is much higher than that of SIGLEC16 alleles in every human population.ConclusionsOur findings indicate that Siglec-11 and Siglec-16 have been maintained as paired receptors by repeated gene conversions under relaxed functional constraints in the primate lineage. The high prevalence of the nonfunctional SIGLEC16P allele and the fixation of the converted SIGLEC11 imply that the loss of Siglec-16 and the gain of Siglec-11 in microglia might have been favored during the evolution of human lineage.
Highlights
Sialic acid-binding immunoglobulin superfamily lectins (Siglecs)-11 and -16 are members of the sialic acid recognizing Ig-like lectin family, and expressed in same cells
We previously reported that SIGLEC16P converted the SIGLEC11 gene about 1 million years ago (MYA) in the human lineage (SIGLEC16P→SIGLEC11 gene conversion)[10], and the human SIGLEC11 gene came to be expressed in brain microglia [11]
Gene conversions between SIGLEC11 and SIGLEC16 occurred in a ~2-kb part of this region, which contains a region upstream of the gene and the exon encoding the sialic acid binding domain (V-set domain) [10, 11]
Summary
Siglecs-11 and -16 are members of the sialic acid recognizing Ig-like lectin family, and expressed in same cells. Siglec-16 has no signaling motifs, but Hayakawa et al BMC Evolutionary Biology (2017) 17:228 activates cell functions by association with an adaptor molecule that contains immunoreceptor tyrosine-based activating motif (ITAM) [9]. We previously reported that SIGLEC16P converted the SIGLEC11 gene about 1 million years ago (MYA) in the human lineage (SIGLEC16P→SIGLEC11 gene conversion)[10], and the human SIGLEC11 gene came to be expressed in brain microglia [11]. Siglec-16 activates immune and inflammatory responses in the brain microglia and may counteract the neuroprotective effect of Siglec-11 This unfavorable role of Siglec-16 in the brain might have resulted in the elimination of Siglec-16 in the human lineage.
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