Table 2.
Strategies for potential targets and cytokines to enhance NK cells and ADCC.
| Target | Drug/ClinicalExperimental stage | Disease | Main mechanism | Ref. |
|---|---|---|---|---|
| Potential targets | ||||
| NKp30/NKp80 | B7-H6: HER2-scFv and AICL: HER2-scFv | Breast cancer | Enhances ADCC by the therapeutic antibodies trastuzumab and cetuximab synergistically | (58) |
| NKG2D/4-1BB/IL-27 | NKG2D agonist | Prostate cancer | Improves activator receptor expression in NK cells and promotes the secretion of IFN-γ and TNF-α | (61) |
| ULBP2 | ULBP2:HER2-scFv | Breast cancer | Promotes NK cell cytotoxicity against tumors and enhances ADCC in combination with cetuximab | (59) |
| CD137 | Urelumab | Breast cancer | Overcomes TGF-β-mediated inhibition of human NK-cell proliferation and preserves the expressions of NKG2D, Granzyme B, and IFN-γ | (60) |
| NKG2A | Monalizumab/UPSTREAM trial | Recurrent/metastatic SCCHN | Stable disease was observed in 6 patients (23%) with a median duration of 3.8 months (95% confidence interval: 2.7-NE). | (100) |
| NKG2A | Monalizumab/Phase II Study | Unresectable, Stage III NSCLC | Patients in the durvalumab plus monalizumab group had high objective remission rates and long PFS. | (101) |
| NKG2A | Monalizumab/Dose-Ranging and Cohort-Expansion Study | Recurrent gynecological malignancies | Intravenous monalizumab (10 mg/kg) treatment every 2 weeks was well tolerated in pretreated gynecological cancer patients. Short-term disease stabilization was observed. | (102) |
| NKG2A | Monalizumab+cetuximab/Phase II Study | SCCHN | The objective remission rate was 31%. The most common adverse events were fatigue (17%), fever (13%), and headache (10%). | (66) |
| KIR2D | Lirilumab/Phase II Study | Locally recurrent SCCHN | Adjuvant ivolumab and lirilumab were well tolerated, with a 43% pathologic response rate. | (69 ) |
| KIR2D | IPH2101/Phase II Study | Multiple myeloma | The study was terminated due to the lack of patients meeting the defined primary objective (50% decline in M-protein). | (70) |
| Cytokines | ||||
| IL2 | FAP-IL-2v conjugates | High-risk neuroblastoma | Reduced tumor growth and improved survival, with increased numbers of NK and cytotoxic T cells | (99 ) |
| IL2 | Membrane-bound IL-2 | Leukemia | Improved persistence of NK-92 cells and enhanced their anti-tumor activity | (86) |
| STING/IL2/PD-1 | STING agonist | Breast cancer and lung metastasis | Synergized to stimulate sustained granzyme and cytokine expression by lung-infiltrating NK cells | (89) |
| IL-15 | IL-15SA/IL-15RA complex | Breast, prostate, and lung cancers | Blocked the inhibitory effects of TGF-β1 on NK cell activation markers CD226, NKG2D, NKp30 and granzyme B and perforin | (87) |
| IL15 | N-803 | Pediatric recurrent and/or metastatic osteosarcoma, neuroblastoma, and GBM multiforme | Increased the proliferative capacity of NK cells and was associated with increased phosphorylation of STAT3, STAT5, AKT, and p38 MAPK | (103) |
| IL-12/TGF-β | / | Breast cancer | Increased maturation of tumor-associated NK cells | (84) |
| CISH | / | Breast cancer | CISH deletion also favored NCR signaling and antitumor functions. | (90) |
| IL-12, IL-27 and GM-CSF | LNPs encapsulated | Melanoma | Induced potent infiltration of immune effector cells and increased secretion of IFN-γ and TNF-α | (93) |
| IgG4 Fc fragment and IL-15/IL-15Rα | F4RLI (homodimer IL-15 super agonist) | Colorectal cancer | Stimulated the proliferation of human CD3+CD8+ T cells NK cells in vitro, with improved half-life and strong anti-tumor activity | (92) |
| IL6R/STAT-3 | IL6R/STAT-3 inhibitors | Prostate cancer | Decreased STAT-3 phosphorylation level and increased NKP46 expression, thus increasing cytotoxicity of NK-92 cells by increasing FasL, granzyme A, and granzyme B | (97) |
| VIII Factors | VIII-FcFVIII complex | Hemophilia A | Efficient active NK cells in a CD16-dependent manner, leading to IFN-γ secretion and release of cytolytic perforin and granzyme B | (104) |
| TNF | Recombinant Mouse IgG2a Antibody TA99 | Melanoma | Promoted infiltration of NK cells and macrophages into B16 melanoma | (105) |