TE-domestication and horizontal transfer in a putative Nef-AP1mu mimic of HLA-A cytoplasmic domain re-trafficking

Genes of the major histocompatibility complex (MHC; also called HLA in human) are polymorphic elements in the genomes of sharks to humans. Class-I and class-II MHC loci appear responsible for much of the genetic linkage to myriad disease states via the capacity to bind short (~8-15 a.a.) peptides of a given pathogen's proteome, or in some cases, the altered proteomes of cancerous cells, and even (in autoimmunity) certain nominal 'self' peptides (Janeway, 2004). 1 Unfortunately, little is known about how the canonical structure of the MHC-I/-II peptide-presenting gene evolved, particularly since beyond ~500 Mya (sharks) no paralogs exist. 2,3 We previously reported that HLA-A isotype alleles with the α1-helix, R65 motif, are wide-spread in phylogeny, but that the α 2-helix, H151R motif, has apparently segregated out of most species. Surprisingly, an uncharacterized orf in T. syrichta (Loc-103275158) encoded R151, but within a truncated A-23 like gene containing 5′- and 3′- footprints of the transposon (TE), tigger-1; the extant tarsier A-23 allele is totally missing exon-3 and part-of exon-4; together, suggesting TE-mediated inactivation of an intact/ancestral A-23 allele (Murray, 2015a). 4 The unique Loc-103275158 orf encodes a putative 15-exon transcript with no apparent paralogs throughout phylogeny. However, an HLA-A11 like gene in M. leucophaeus with a shortened C-terminal domain, and an HLA-A like orf in C. atys with two linked α1/α2/α3 domains, both contain a second transmembrane segment, which is conserved in Loc-103275158. Thus, we could model the putative protein with its Nef-like tail domain docked to its MHC-I like α3 domain (i.e., on the same side of a membrane). This modeled tertiary structure is strikingly similar to the solved structure of the Nef:MHC-I CD:AP1mu transporter (Jia, 2012). 5 Nef:AP1mu binds the CD of MHC-I in trafficking MHC-I away from the trans-golgi and into the endocytic pathway in HIV-1 infected cells. The CD loop of the Loc-103275158 provisional protein conserved the nominal MHC-I CD tyrosine phosphorylation site, and it has an N-terminal SH3 domain that we docked in one conformation to its internal Nef-like domain. Here, we suggest that phosphorylation of the protein's CD-loop signals an exchange between the internal Nef-like domain and a lentiviral-Nef for binding the N-terminal SH3 domain - freeing the Nef-like domain to bind MHC-I CD. Since the 5′-tigger sequence encodes part of the pseudo α1/α2 MHC-I domain, and the