Background: Human leukocyte antigen (HLA)-G, a nonclassical HLA class I molecule, induces a wide range of tolerogenic immunological effects by means of interaction with its inhibitory receptors. However, recent studies show that HLA-G dimer formation is essential to bind to its receptors and exhibit its effects.
Methods: In this study, a soluble divalent HLA-G/IgG molecule (sHLA-G dimer) was constructed. Its inhibitory effect on T-cell alloresponse was studied with mixed lymphocyte reaction in vitro, which was set up by mixing inactivated T1 cells with HLA-mismatched peripheral blood lymphocytes in the presence or absence of the sHLA-G dimer.
Results: The results show that sHLA-G dimer inhibits T-cell alloresponse by reducing proliferation of both CD4+ and CD8+ T cells and suppressing generation of alloreactive cytotoxic T lymphocytes at nanomole concentration. The inhibition of the sHLA-G dimer is observed to be more effective than that of sHLA-G monomer. Our results also indicate that sHLA-G dimer up-regulates inhibitory receptor ILT2 on alloreactive CD8+ T cells, which contributes to the significant inhibition on T-cell alloresponse.
Conclusion: The sHLA-G dimer formed by IgG-Fc fragment shows more inhibitory effects on alloreactive T cells, which may have implications for allotransplantation.