Baboon placentas express soluble and membrane-bound Paan-AG proteins encoded by alternatively spliced transcripts of the class Ib major histocompatibility complex gene, Paan-AG.

Abstract

The human class Ib major histocompatibility complex (MHC) molecule, HLA-G, is unique in its limited polymorphism, high expression in the placenta and generation of multiple transcripts by alternative splicing. The proteins encoded by these transcripts are believed to modulate maternal-fetal immunological relationships during pregnancy. The baboon placenta contains messages encoded by a novel MHC gene, Paan-AG, which is evolutionarily related to the HLA-A locus, but shares unique characteristics with HLA-G. In this study, we show that the Paan-AG message is alternatively spliced to generate at least seven transcripts. One of these transcripts retains intron 4 and encodes a soluble glycoprotein with three external domains and a unique 21-amino-acid sequence at the carboxyl terminus, similar to soluble HLA-G1. This glycoprotein was detected in first trimester placental villous cytotrophoblast and syncytiotrophoblast, and in extravillous cytotrophoblast cells in the basal plate in term placenta. Four of the transcripts ( Paan-AG1, Paan-AG2, Paan-AG3, Paan-AG4) encode membrane-bound class Ib MHC glycoprotein isoforms. Paan-AG1 protein expression was similar to that of sPaan-AG, while Paan-AG2 protein was not detected in these tissues. The other two transcripts ( Paan-AGx and Paan-AGxi) contain a truncated exon 3 and multiple stop codons. Paan-AG1 and Paan-AGx transcripts were detected in a number of non-placental tissues, but these transcripts contained multiple stop codons. Because of the structural similarities and common features of organ-specific expression and splicing of the message, studies on Paan-AG may be of value in dissecting the functions of the class Ib proteins in human pregnancy.