citations

The NK cell checkpoint NKG2A maintains expansion capacity of human NK cells

Authors:

Kaulfuss M, Mietz J, Fabri A, Vom Berg J, Münz C, Chijioke O

In:

Source: Biosci Rep
Publication Date: (2023)
Issue: 13(1): 10555

Research Area:

Cancer Research/Cell Biology

Immunotherapy / Hematology

Basic Research

Molecular Biology

Cells used in publication:

Natural killer Cells (NK), human: Species: human; Tissue Origin: blood

Platform:

4D-Nucleofector® X-Unit

Experiment

Editing of NK cells.

The NKG2A knockout (KO) from bulk NKG2A+ NK cells and NKG2A+KIR- NK cells was performed 7 days afer start of the expansion using CRISPR gene editing. Te KLRC1 targeting crRNA (ACT GCAGAGATGGATAACCA) was designed in-house with CRISPOR24 and purchased from Integrated DNA Technologies (IDT) as was the non-targeting control crRNA, the tracrRNA (IDT, 1072533) and Cas9 (Streptococcus pyogenes) protein (IDT, 1081058). Te formation of Cas9 ribonucleoproteins (RNPs) was performed as described by Roth et al. 0.5× 10^6 NK cells were electroporated per well of a Nucleostrip™ with RNPs using the P3 Primary Cell 4D-Nucleofector™ X kit S (Lonza, V4XP-3032) according to the manufacturer’s instructions and pulsed with the code DK-100 using the 4D-Nucleofector™ (Lonza). NKG2A KO efciency was determined 72 h afer electroporation by fow cytometry.

Abstract

Human natural killer (NK) cells are cytotoxic effector cells that are increasingly harnessed in cancer immunotherapy. NKG2A/CD94 is an inhibitory receptor on NK cells that has established regulatory functions in the direct interaction with target cells when engaged with its ligand, the non-classical HLA class I molecule HLA-E. Here, we confirmed NKG2A as a checkpoint molecule in primary human NK cells and identified a novel role for NKG2A in maintaining NK cell expansion capacity by dampening both proliferative activity and excessive activation-induced cell death. Maintenance of NK cell expansion capacity might contribute to the preferential accumulation of human NKG2A+ NK cells after hematopoietic cell transplantation and enrichment of functionally impaired NK cells in human cancers. Functional silencing of NKG2A for cancer immunotherapy is highly attractive but will need to consider that this might also lead to a reduced survival by driving activation-induced cell death in targeted NK cells.

Open in PubMed