T cells recognize ligands of different chemical structures. Recently, it has become clear that also self glycosphingolipids and bacterial lipoglycans may act as T cell stimulatory ligands. This type of antigen recognition is restricted by the non-polymorphic CD1 molecules, which have a structure resembling that of classical MHC molecules. Glycolipids insert their hydrophobic lipid tails in two pockets below the antigen-binding groove and position their hydrophilic heads on the external part of CD1 molecules. TCR interacts with these carbohydrates and discriminates their structural variations. Glycolipid-specific T cells may provide protection during bacterial and parasite infection probably with different mechanisms: by secreting pro-inflammatory lymphokines, by the direct killing of infected target cells, and by helping specific B cells in Ig production. Lipoglycans represent excellent candidates for new anti-microbial vaccines due to their wide distribution in the microbial world and their structural composition which does not change and thus cannot give rise to escape mutants. Moreover, these vaccines might induce anti-microbial protective T cell responses in the whole population due to the non-polymorphic nature of CD1 presenting molecules.