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Challenges in the Development of NK-92 Cells as an Effective Universal Off-the-Shelf Cellular Therapeutic.

Zhiyuan NiuMengjun WangYangchun YanXinru JinLinwei NingBingqian XuYanfeng WangYuekai HaoZhixia LuoChangjiang GuoLingtong ZhiWuling Zhu
Published in: Journal of immunology (Baltimore, Md. : 1950) (2024)
The human-derived NK-92 cell-based CAR-NK therapy exhibits inconsistency with overall suboptimal efficacy and rapid in vivo clearance of CAR-NK92 cells in cancer patients. Analysis indicates that although pre-existing IgM in healthy individuals (n = 10) strongly recognizes both NK-92 and CAR-NK92 cells, IgG and IgE do not. However, only a subset of cancer patients (3/8) exhibit strong IgM recognition of these cells, with some (2/8) showing pre-existing IgG recognition. These results suggest a natural immunoreactivity between NK-92 and CAR-NK92 cells and pre-existing human Abs. Furthermore, the therapy's immunogenicity is evidenced by enhanced IgG and IgM recognition postinfusion of CAR-NK92 cells. We also confirmed that healthy plasma's cytotoxicity toward these cells is reduced by complement inhibitors, suggesting that Abs may facilitate the rapid clearance of CAR-NK92 cells through complement-dependent cytotoxicity. Given that NK-92 cells lack known receptors for IgG and IgM, identifying and modifying the recognition targets for these Abs on NK-92 and CAR-NK92 cells may improve clinical outcomes. Moreover, we discovered that the 72nd amino acid of the NKG2D receptor on NK-92 cells is alanine. Previous studies have demonstrated polymorphism at the 72nd amino acid of the NKG2D on human NK cells, with NKG2D72Thr exhibiting a superior activation effect on NK cells compared with NKG2D72Ala. We confirmed this conclusion also applies to NK-92 cells by in vitro cytotoxicity experiments. Therefore, reducing the immunoreactivity and immunogenicity of CAR-NK92 and directly switching NK-92 bearing NKG2D72Ala to NKG2D72Thr represent pressing challenges in realizing NK-92 cells as qualified universal off-the-shelf cellular therapeutics.
Keyphrases
  • nk cells
  • endothelial cells
  • amino acid
  • induced apoptosis
  • small molecule
  • stem cells
  • cell proliferation
  • signaling pathway
  • pluripotent stem cells
  • sensitive detection