A whole genome mouse siRNA screen to identify novel genes involved in lipid antigen presentation

Abstract

Abstract Although most T lymphocytes recognize peptides presented by major histocompatibility complex (MHC)-encoded class I and class II molecules, there also are significant populations of T cells that recognize nonpeptide antigens. Prominent among these T lymphocytes are the type I or invariant natural killer T cells (iNKT cells). These T lymphocytes recognize lipids presented by CD1d, a nonpolymorphic, class I-like, antigen-presenting molecule. We have carried out a whole genome siRNA screen in a macrophage cell line for genes that affect the presentation of a potent glycosphingolipid antigen, GalGal Cer, to iNKT cells. In order to stimulate iNKT cells, this antigen requires internalization and lysosomal carbohydrate antigen processing to remove the terminal galactose. After several rounds of validation, functional classification and gene expression analysis, we have identified genes that lead to altered antigen presentation in macrophages. A majority of the identified genes do not perturb surface CD1d expression, but we can demonstrate they effect the formation of surface CD1d complexes with the stimulating glycolipid. Members of the HOPS and ESCRT complexes have been identified to play an important role in Cd1d dependent antigen presentation. Interestingly, our data show that ABCC1 and several other ABC family transporters are involved in lipid antigen presentation by CD1d. CD1d and MHC-II antigen presentation pathways both depends on antigen loading in the lysosome, therefore we also analyzed the role of these genes in MHC-II antigen presentation. Although the majority of genes identified doesn’t affect MHC-II antigen presentation, there are a few molecules that affect both antigen presentation pathways.