Invariant natural killer T (iNKT) cells are known to have marked immunomodulatory capacity due to their ability to produce copious amounts of effector cytokines. Here, we report the structure and function of a novel class of aromatic alpha-galactosylceramide structurally related glycolipids with marked Th1 bias in both mice and men, leading to superior tumour protection in vivo. The strength of the Thl response correlates well with enhanced lipid binding to CD1d as a result of an induced fit mechanism that binds the aromatic substitution as a third anchor, in addition to the two lipid chains. This induced fit is in contrast to another Th1-biasing glycolipid, alpha-C-GalCer, whose CD1d binding follows a conventional key-lock principle. These findings highlight the previously unexploited flexibility of CD1d in accommodating galactose-modified glycolipids and broaden the range of glycolipids that can stimulate iNKT cells. We speculate that glycolipids can be designed that induce a similar fit, thereby leading to superior and more sustained iNKT cell responses in vivo
NKT cells, a unique type of regulatory T cells, respond to structurally diverse glycolipids presented by CD1d. While it was previously thought that recognition of glycolipids such as α-GalCer by NKTCR obeys a key-lock principle, it is now clear this interaction is much more flexible. Here, we report the structure-function analysis of a series of novel 6″-OH analogues of α-GalCer with more potent anti-tumor characteristics. Surprisingly, one the novel carbamate analogues, PyrC- α-GalCer, formed novel interactions with the NKTCR. This was associated with an extremely high level of Th1 polarization and superior anti-tumor responses. These data highlight the in vivo relevance of adding aromatic moieties to the 6″-OH position of the sugar and additionally show that judiciously chosen linkers are a promising strategy to generate strong Th1 polarizing glycolipids through increased binding either to CD1d or NKTCR.
A synthetic approach is presented for the synthesis of galacturonic acid and d-fucosyl modified KRN7000. The approach allows for late-stage functionalisation of both the sugar 6”-OH and the sphingosine amino groups, which enables convenient synthesis of promising 6”-modified KRN7000 analogues.
NKT cells play important roles in immune surveillance. They rapidly respond to pathogens by detecting microbial glycolipids when presented by the non-classical MHC I homolog CD1d. Previously, ruminants were considered to lack NKT cells due to the lack of a functional CD1D gene. However, recent data suggest that cattle express CD1d with unknown function. In an attempt to characterize the function of bovine CD1d, we assessed the lipid binding properties of recombinant Bos taurus CD1d (boCD1d) in vitro. BoCD1d is able to bind glycosphingolipids (GSLs) with fatty acid chain lengths of C18, while GSLs with fatty acids of C24 do not bind. Crystal structures of boCD1d bound to a short-chain C12-di-sulfatide antigen, as well as short-chain C16-αGalCer revealed that the Á pocket of boCD1d is restricted in size compared to that of both mouse and human CD1d, explaining the inability of long chain GSL’s to bind to boCD1d. Moreover, while di-sulfatide is presented similarly compared to the presentation of sulfatide by mouse CD1d, αGalCer is presented differently at the cell surface, due to an amino acid Asp151Asn substitution that results in loss of intimate contacts between the αGalCer headgroup and CD1d. The altered αGalCer presentation by boCD1d also explains its lack of cross-activation of mouse iNKT cells and raises the interesting question of the nature and function of bovine lipid-reactive T cells.
We report the synthesis of a small series of 6"-triazol-1-yl-substituted α-GalCer analogues by late-stage conversion of the 6"-OH to an azide group, copper-catalyzed azide-alkyne cycloaddition and final deprotection. When evaluated for their capacity to induce IL-2 secretion in vitro, all compounds proved equally potent or superior to α-GalCer. The S.A.R suggests that the improved antigenic activity is mainly triggered by the triazole functionalization in se. While the introduction of selected substitutuents at C-4 of this heterocyclic ring is tolerated, this generally fails to further improve antigenicity.
scite is a Brooklyn-based organization that helps researchers better discover and understand research articles through Smart Citations–citations that display the context of the citation and describe whether the article provides supporting or contrasting evidence. scite is used by students and researchers from around the world and is funded in part by the National Science Foundation and the National Institute on Drug Abuse of the National Institutes of Health.