Adaptive NK cell
Adaptive natural killer cell | |
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Details | |
System | Immune system |
Function | Cytotoxic lymphocyte |
Anatomical terms of microanatomy |
An adaptive natural killer (NK) cell or memory-like NK cell is a specialized natural killer cell that has the potential to form immunological memory.[1][2] They can be distinguished from cytotoxic NK (cNK) cells by their receptor expression profile and epigenome.[3] Adaptive NK cells are so named for properties which they share with the adaptive immune system. Though adaptive NK cells do not possess antigen specificity, they exhibit dynamic expansions of defined cell subsets, increased proliferation and long-term persistence for up to 3 months in vivo, high IFN-γ production, potent cytotoxic activity upon ex vivo restimulation, and protective memory responses.[4][5][6]
Adaptive NK cells have been identified in both humans and mice.
Origin
Human adaptive NK cells in peripheral blood are likely derived from cNK cells expressing low levels of
Some evidence exists for tissue-resident adaptive NK cells in the liver, where a small population of
Signals transmitted through the IL-12 receptor combined with CD2 and MHC class I-binding receptor provide a three-prong stimulation responsible for promoting the epigenetic and phenotypic modifications that occur in association with adaptive NK cell differentiation.[8]
Epigenetic regulation
NK cells essentially "remember" the previous effects of cytokines.[6] NK cells pre-activated by IL-12/15/18 transfer their enhanced IFN-γ producing capacity to daughter cells.[6] HCMV-associated NKG2C+ adaptive NK cells and IL-12/15/18 pre-activated NK cells have been detected to have an epigenetic imprint, for instance, the demethylated CNS1 region of the IFNG gene, which in turn can lead to a remarkable stability of the IFN-γ-producing phenotype even after adoptive transfer.[6] Both IL-12 and IL-18 are required for the pronounced demethylation of the CNS1 region, whereas IL-15 might serve as a survival factor.[6]
In addition to the IFNG gene, NKG2C+ adaptive NK cells also showed CpG demethylation of the PRDM1/BLIMP1 and ZBTB32/TZFP genes or hypermethylation of FCER1G (Fc fragment of IgE receptor Ig).[6] Pre-activation of NK cells by the cytokines IL-12/18 plus IL-15 or by engagement of FcγRIII/CD16 via therapeutic antibodies can induce similar memory-like functions: an enhanced proliferative capacity toward IL-2 due to CD25 up-regulation as well as a strengthened responsiveness to restimulation by tumor cells.[6] Importantly, both memory-like functionalities are antigen-unspecific and mean “remembering” a previous state of increased activation caused by cytokine exposure or stimulation via activating NK cell receptors.[6]
In humans
Unique and expanded adaptive NK cell populations were observed in
In comparison to
The discovery of memory in the human NK compartment makes us wonder whether it could be harnessed by vaccination. This could be particularly effective in HIV infections where CD4+T cells get rapidly depleted as it provides an alternative where B and T cells cannot be harnessed.[10]
Therapeutic potential
The clinical application of NK cells with memory-like properties can significantly increase the efficiency of these cells and pave the way for the new NK cell-based clinical approaches for the
Clinical use of allogeneic NK cells is promising for the treatment of leukemia.[11] KIR-ligand mismatch has a beneficial effect on the alloreactivity of donor NK cells against recipient leukemia.[11] Besides, it has been shown that the adoptive transfer of alloreactive NK cells does not cause graft-versus-host disease (GVHD), but instead suppresses GVHD.[11]
See also
- Natural killer cell § Adaptive features
- Killer-cell immunoglobulin-like receptor
- KLRC2
- Adoptive cell transfer
- CD56
- Human Cytomegalovirus
- IFN-γ