Cellular co-localization of intron-4 containing mRNA and HLA-G soluble protein in melanoma analyzed by fluorescence in situ hybridization.

HLA-G5, -G6, and -G7 soluble isoforms of the immunosuppressive HLA-G molecule are produced from the splice variants of the primary HLA-G mRNA transcript containing intron-4 that encodes a specific 21 amino acids tail. In particular, HLA-G5 interacts with the inhibitory ILT2/4 and KIR2DL4 receptors that are expressed on immune cells. Acquisition of soluble HLA-G in the microenvironment may turn a HLA-G non-expressing cell into a HLA-G-bearing one.

Role of HLA-G in innate immunity through direct activation of NF-kappaB in natural killer cells.

HLA-G is a non-classical HLA class I molecule involved in immunotolerance. HLA-G protects the fetus from maternal immune recognition and promotes allograft acceptance and tumor escape. Its low polymorphism and primary function, which is not peptide presentation to T lymphocytes, led us to compare the signal transduced after interaction between HLA-G and its receptor to those of innate immunity receptors with their ligands.

Hypoxia modulates HLA-G gene expression in tumor cells.

Human leukocyte antigen G (HLA-G) molecules are expressed in cytotrophoblasts and play a key role in maintaining immune tolerance at the maternal-fetal interface. HLA-G expression was also reported in inflammatory diseases, organ transplantation, and malignant tumors. The regulatory mechanisms of HLA-G gene expression differ from those of classical HLA class I genes and are still only partially elucidated.

Switch of HLA-G alternative splicing in a melanoma cell line causes loss of HLA-G1 expression and sensitivity to NK lysis.

Considerable information has been accumulated on HLA-G expression in tumor lesions in which HLA-G is viewed as a way to turn off anti-tumoral immunity. Nevertheless, there is little data concerning the mechanisms by which expression and function of HLA-G are regulated in malignant cells. Here, we have addressed these points by studying a melanoma cell line derived from a surgically-removed HLA-G-positive melanoma lesion.

The 14 bp deletion-insertion polymorphism in the 3' UT region of the HLA-G gene influences HLA-G mRNA stability.

Human leukocyte antigen (HLA)-G molecules are generated by an alternative splicing of the primary transcript of the gene and display specialized function in regulating the immune response. Although HLA-G gene polymorphism is low, it may influence levels of protein expression and, in some cases, has been associated with pregnancy diseases. The HLA-G gene exhibits 14 alleles generating six proteins with minor variations and a null allele.

HLA-G gene repression is reversed by demethylation.

The HLA-G molecule plays an important role in immune tolerance, protecting the fetus from maternal immune attack, and probably contributes to graft tolerance and tumor escape from the host immune system. HLA-G expression is tightly regulated and involves mechanisms acting in part at the transcriptional level. Nevertheless, almost all regulatory sequences that govern constitutive and inducible HLA class I gene transcription are disrupted in the HLA-G gene promoter, suggesting an unusual regulatory process.