Human Neuroblastoma Cells Trigger an Immunosuppressive Program in Monocytes by Stimulating Soluble HLA-G Release
Overview
Authors
Affiliations
HLA-G is overexpressed in different tumors and plays a role in immune escape. Because no information is available on HLA-G in relation to human neuroblastoma, we have investigated the expression of membrane-bound and secretion of soluble isoforms of HLA-G in neuroblastoma and functionally characterized their immunosuppressive activities. At diagnosis, serum soluble HLA-G (sHLA-G) levels were significantly higher in patients than in age-matched healthy subjects. In addition, patients who subsequently relapsed exhibited higher sHLA-G levels than those who remained in remission. Neuroblastoma patient sera selected according to high sHLA-G concentrations inhibited natural killer (NK) cell and CTL-mediated neuroblastoma cell lysis. Such lysis was partially restored by serum depletion of sHLA-G. In 6 of 12 human neuroblastoma cell lines, low HLA-G surface expression was not up-regulated by IFN-gamma. Only the ACN cell line secreted constitutively sHLA-G. IFN-gamma induced de novo sHLA-G secretion by LAN-5 and SHSY5Y cells and enhanced that by ACN cells. Primary tumor lesions from neuroblastoma patients tested negative for HLA-G. Neuroblastoma patients displayed a higher number of sHLA-G-secreting monocytes than healthy controls. Incubation of monocytes from normal donors with IFN-gamma or pooled neuroblastoma cell line supernatants significantly increased the proportion of sHLA-G-secreting cells. In addition, tumor cell supernatants up-regulated monocyte expression of CD68, HLA-DR, CD69, and CD71 and down-regulated IL-12 production. Our conclusions are the following: (a) sHLA-G serum levels are increased in neuroblastoma patients and correlate with relapse, (b) sHLA-G is secreted by monocytes activated by tumor cells rather than by tumor cells themselves, and (c) sHLA-G dampens anti-neuroblastoma immune responses.
Marimpietri D, Corrias M, Tripodi G, Gramignoli R, Airoldi I, Morandi F Front Immunol. 2024; 15:1469771.
PMID: 39512342 PMC: 11540764. DOI: 10.3389/fimmu.2024.1469771.
Barzegari A, Salemi F, Kamyab A, Aratikatla A, Nejati N, Valizade M J Bone Oncol. 2024; 48:100635.
PMID: 39381633 PMC: 11460493. DOI: 10.1016/j.jbo.2024.100635.
Natural killer cells in neuroblastoma: immunological insights and therapeutic perspectives.
Rados M, Landegger A, Schmutzler L, Rabidou K, Taschner-Mandl S, Fetahu I Cancer Metastasis Rev. 2024; 43(4):1401-1417.
PMID: 39294470 PMC: 11554946. DOI: 10.1007/s10555-024-10212-8.
HLA-G and Other Immune Checkpoint Molecules as Targets for Novel Combined Immunotherapies.
Morandi F, Airoldi I Int J Mol Sci. 2022; 23(6).
PMID: 35328349 PMC: 8948858. DOI: 10.3390/ijms23062925.
Altvater B, Kailayangiri S, Perez Lanuza L, Urban K, Greune L, Flugge M Cancers (Basel). 2021; 13(12).
PMID: 34201079 PMC: 8227123. DOI: 10.3390/cancers13122857.