RT1.L: a family of MHC class Ib genes of the rat major histocompatibility complex with a distinct promoter structure

RT1.L class I antigens have originally been identified in LEW rats by LEW.1LV3-anti-LEW.1LM1 antisera and have been classified as nonclassical. We report now that LEW.1LV3-anti-LEW.1LM1 antisera react with three different antigens, termed RT1.L1, RT1.L2, and RT1.L3. This was found by serological ana...

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Bibliographic Details
Published in:Immunogenetics (New York) 2004-04, Vol.56 (1), p.28-37
Main Authors: Lambracht-Washington, Doris, Düvel, Heike, Hänisch, Lisa, Dinkel, Astrid, Wonigeit, Kurt
Format: Article
Language:English
Subjects:
Amino Acid Sequence
Animals
Antibodies, Monoclonal
Base Sequence
Chromosome Mapping
DNA - genetics
Genes, MHC Class I
Haplotypes
Histocompatibility Antigens - genetics
Molecular Sequence Data
Multigene Family
Phylogeny
Promoter Regions, Genetic
Rats
Rats, Inbred Lew
Rats, Inbred Strains
Rats, Mutant Strains
Sequence Homology, Amino Acid
Sequence Homology, Nucleic Acid
Transfection
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Summary:RT1.L class I antigens have originally been identified in LEW rats by LEW.1LV3-anti-LEW.1LM1 antisera and have been classified as nonclassical. We report now that LEW.1LV3-anti-LEW.1LM1 antisera react with three different antigens, termed RT1.L1, RT1.L2, and RT1.L3. This was found by serological analysis of a panel of transfectants expressing different class I genes of strain LEW with a LEW.1LV3-anti-LEW.1LM1 antiserum and two monoclonal antibodies (mAbs HT20 and HT21) generated in the same strain combination. The antiserum reacted with all three antigens: the two mAbs with RT1.L1 and RT1.L2, respectively. Sequence analysis showed that the genes encoding RT1.L1, RT1.L2, and RT1.L3 cluster together in a phylogenetic analysis of rat and mouse alpha(1)-alpha(2) sequences and that they share an unusual MHC class I promoter in which Enhancer A and B, as well as the interferon response element (IRE), are missing. Exchange of the promoter in RT1.L2 against the classical RT1.A promoter resulted in high surface expression in appropriate transfectants, indicating that the deviant promoter is responsible for the weak surface expression of the RT1.L2 gene. The very similar promoter structures of RT1.L1 and RT1.L3 are likely to contribute also to the weak expression of these genes. As RT1.L3 maps closely to the deletion in the mutant haplotype lm1, the RT1.L family can be located in the class I region extending from Bat1 to Pou5f1. Different from other allogeneic mAbs detecting known class I molecules encoded by genes of the RT1.C/E region, HT20 and HT21 react with a wide panel of strains carrying different RT1 haplotypes. This suggests that nonclassical class I genes of the RT1.L family are present in most RT1 haplotypes.
ISSN:0093-7711
1432-1211
DOI:10.1007/s00251-004-0650-9