Human pluripotent stem cells (hPSCs) hold promise in the field of regenerative medicine for how they give rise to every other cell type in the body and for their ability to propagate indefinitely. Their potential, however, is hampered by the body’s tendency to reject any “allogeneic” cells or tissue, which means that the cells come from a donor other than the patient. This rejection is due to the body’s immune system labeling the cells as “foreign invaders” and setting in motion a series of strategies intended to ward off what it deems an attack—leaving researchers scrambling for a way around this protective measure.
A paper released today in Stem Cells details a method that might provide the answer. The authors report on how they genetically edited out a key set of proteins found on the surface of the hPSCs that are the targets of immune rejection, basically rendering them invisible to the body’s immune system.
The multi-institutional research team was led by Xiaoqing Zhang, M.D., Ph.D., and Lin Ma, Ph.D., from the Tongji University School of Medicine. “What we have done is taken advantage of the non-classical human leukocyte antigen (HLA) molecules, which encode the main targets of allograft rejection, to construct hypoimmunogenic hPSCs,” Dr. Zhang said. “Our strategy not only ameliorates the body’s main immune-rejection weapons—T cells (especially CD8+ Ts), natural killer (NK) cells and antigen-presenting cells—but also attenuates cell contact-triggered cell killing and immunogenicity of the allograft environment.”
The work grew out of their knowledge that the HLA-G family is one of the most prominently expressed HLA class I molecules in the placenta, with the job of protecting fetal tissue from the mother’s immune system. “It’s a remarkable example of immune accommodation in mammals,” Dr. Zhang explained. “So we engineered hPSCs using CRISPR/Cas9 gene-editing technology for beta-2 microglobulin (β2m) knock out, or for biallelic knock-in of HLA-G1 within the endogenous β2m loci. Elimination of the surface expression of the HLA proteins protected the hPSCs from cytotoxicity mediated by the CD8+ T and NK cells. The lack of surface expression also resulted in missing-self recognition and aberrant NK cell activation.”
Dr. Jan Nolta, Editor-in-Chief of Stem Cells, said, “the development of this method to shelter pluripotent stem cell derivatives from the immune system is a “game-changer” in the field. If this innovative technique can next be carried forward to clinical trials it could mean that recipients of the cells would need no immune suppression. We are very happy to publish this novel and potentially paradigm-shifting research.”
Dr. Ma added, “To the best of our knowledge, this is the first study to report that engineered β2m- HLA-G5 proteins are soluble, secretable and can efficiently protect donor cells from immune responses. This not only provides a novel strategy to generate hypoimmunogenic human cells for allografting, but also sheds light on the role of HLA-G in immune tolerance during pregnancy and organ transplantation.”
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