posted on 2015-12-16, 22:41authored byPeter
J. Jervis, Paolo Polzella, Justyna Wojno, John-Paul Jukes, Hemza Ghadbane, Yoel R. Garcia
Diaz, Gurdyal S. Besra, Vincenzo Cerundolo, Liam R. Cox
Invariant
natural killer T cells (iNKT cells)
are restricted by CD1d molecules and activated upon CD1d-mediated
presentation of glycolipids to T cell receptors (TCRs) located on
the surface of the cell. Because the cytokine response profile is
governed by the structure of the glycolipid, we sought a method for
labeling various glycolipids to study their in vivo behavior. The
prototypical CD1d agonist, α-galactosyl ceramide (α-GalCer) 1, instigates a powerful immune response and the generation
of a wide range of cytokines when it is presented to iNKT cell TCRs by CD1d molecules. Analysis of crystal structures of
the TCR−α-GalCer–CD1d ternary complex identified
the α-methylene unit in the fatty acid side chain, and more
specifically the pro-S hydrogen
at this position, as a site for incorporating a label. We postulated
that modifying the glycolipid in this way would exert a minimal impact
on the TCR–glycolipid–CD1d ternary complex, allowing
the labeled molecule to function as a good mimic for the CD1d agonist
under investigation. To test this hypothesis, the synthesis of a biotinylated
version of the CD1d agonist threitol ceramide (ThrCer) was targeted.
Both diastereoisomers, epimeric at the label tethering site, were
prepared, and functional experiments confirmed the importance of substituting
the pro-S, and not the pro-R, hydrogen with the label for optimal activity.
Significantly, functional experiments revealed that biotinylated ThrCer
(S)-10 displayed behavior comparable
to that of ThrCer 5 itself and also confirmed that the
biotin residue is available for streptavidin and antibiotin antibody
recognition. A second CD1d agonist, namely α-GalCer C20:2 4, was modified in a similar way, this time with a fluorescent
label. The labeled α-GalCer C20:2 analogue (11)
again displayed functional behavior comparable to that of its unlabeled
substrate, supporting the notion that the α-methylene unit in
the fatty acid amide chain should be a suitable site for attaching
a label to a range of CD1d agonists. The flexibility of the synthetic
strategy, and late-stage incorporation of the label, opens up the
possibility of using this labeling approach to study the in vivo behavior
of a wide range of CD1d agonists.