Regulation and function of immunosuppressive molecule human leukocyte antigen G5 in human bone tissue.

Bone-marrow mesenchymal stem cells (MSCs) are the origin of bone-forming cells with immunomodulation potential. HLA-G5 is among the generated immunosuppressive molecules. HLA-G proteins play a crucial role in promoting the acceptance of allografts. However, the mechanisms regulating the expression of HLA-G5 in human MSCs are unknown. We induced differentiation of MSCs and found that HLA-G5 was greatly up-regulated only in osteoblastic cells (+63% for mRNA). Growth plates and bone callus postfracture in adults showed that only bone-lining cells and mesenchymal progenitors were positive for HLA-G5. Use of gene silencing and dominant-negative factors revealed that HLA-G5 depends on the expression and function of the skeletogenesis master genes RUNX2 and DLX5. In addition, HLA-G5 could directly inhibit osteoclastogenesis by acting on monocytes through SHP1. However, in mature osteoblasts, the expression of HLA-G5 protein was greatly suppressed whereas the proosteoclastogenic factor, RANKL, was concomitantly increased. Down-regulation of HLA-G5 expression during the maturation of osteoblasts was due to binding of the repressor GLI3, a signal transducer of the Hedgehog pathway, to the GLI binding element within the HLA-G promoter. Our findings show that mesenchymal progenitors and osteoblastic cells specifically express HLA-G5 during osteogenesis, with a key role in bone homeostasis.