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  • Title: Equine PSGL-1 modifications required for P-selectin binding.
    Author: Xu J, Cai J, Suresh M, Peek SF, Darien BJ.
    Journal: Vet Immunol Immunopathol; 2009 Sep 15; 131(1-2):33-43. PubMed ID: 19403178.
    Abstract:
    Equine PSGL-1 (ePSGL-1) is widely expressed on equine PBMC as a homodimer with sialylation (sLeX) modifications that contribute to P-selectin binding affinity. To investigate the role of other potential post-translational modifications required for high-affinity P-selectin binding, ePSGL-1 was transfected into CHO cells expressing equine FucT-VII and/or C2GnT. P-selectin-IgG chimera binding by ePSGL-1 transfected into CHO cells only occurred when both FucT-VII and C2GnT were expressed, establishing that fucosylation and core-2 branching are required as post-translational modifications for high-affinity P-selectin binding. However, enzymatic removal of N-glycans or site and/or point-mutation preventing N-glycan addition did not inhibit P-selectin binding, indicating that N-glycosylation is not required. Taken together, we hypothesized that sialylation, fucosylation, or core-2 branching must occur on O-glycans. The presence of numerous serine/threonine residues in the ePSGL-1 extracellular domain suggests several potential O-glycans attachment sites. P-selectin binding was also susceptible to OSGP cleavage, providing evidence for the existence of clustered, sialyated O-glycans on ePSGL-1. Because OSGP eliminated ePSGL-1 precipitation the P-selectin binding domain of ePSGL-1 must contain clustered, sialyated, fucosylated, and core-2 branched O-glycans. Using point-mutation deletion techniques, the binding domain was determined to reside between residues 48 and 100 of ePSGL-1. Sulfation, a critical modification for human PSGL-1 binding to P-selectin, was not necessary for equine P-selectin binding, while dimerization of ePSGL-1 was critical. These species-specific features of equine PSGL-1 provide new information that advances our understanding of high-affinity P-selectin binding mediated mononuclear cell trafficking.
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