ZGGS15, a Novel IgG4 Bispecific Monoclonal Antibody Targeting Both LAG-3 and Tigit, Demonstrates Outstanding Anti-Tumor Activity and Can be Used As Monotherapy or in Combination with Anti-PD-1 Antibodies for Cancer Immunotherapy

Abstract

Background This study aims to evaluate the anti-tumor efficacy of ZGGS15, a novel IgG4 bispecific monoclonal antibody (BsAb) targeting TIGIT and LAG-3, for cancer immunotherapy. Methods: ZGGS15 was generated in-house with the standard recombinant BsAb technology. ZGGS15 proteins were purified with protein A affinity column chromatography and evaluated for purity by size-exclusion high-performance liquid chromatography. The ZGGS15 affinity was assessed using a biolayer interferometry (BLI) assay. The EC50s of ZGGS15 binding to TIGIT and LAG-3 were determined using the ELISA technique. The EC50s of ZGGS15 binding to REH, Hela, MCF-7, and HCC1954 cells were measured by flow cytometry. Antibody-dependent cell-mediated cytotoxicity (ADCC) and complement-dependent cytotoxicity (CDC) activities were also evaluated by flow cytometry. BALB/c-hPD-1/hLAG-3 and BALB/c-hPD-1/hTIGIT subcutaneously transplanted with CT26.WT tumor mouse models, and peripheral blood mononuclear cells (PBMC) -humanized NOG bearing A375 tumor mouse model were used for in vivo anti-tumor efficacy evaluation. Results ZGGS15 binds specifically to activated CD4 + and CD8 + T cells and human LAG-3 and TIGIT proteins expressed by CHO-K1 cells identically with a dose-dependent nanomolar affinity of 0.69 nM and 1.87 nM for human LAG-3 and TIGIT, respectively. In vitro kinetic analysis BLI results revealed ZGGS15 has high affinity for human LAG-3 and human TIGIT proteins, with KDs of 3.05 nM and 2.65 nM, respectively. ZGGS15 binds to human LAG-3 and human TIGIT simultaneously with similar affinity. Furthermore, ZGGS15 competitively inhibited the binding of LAG-3 to MHC-II (IC50 = 0.77 nM) and the binding of TIGIT to CD155 (IC50=0.24 nM). ZGGS15 induced better T cell activation than single anti-LAG3 or anti-TIGIT mAb agent or combined with different stimuli with or without cancer cells. When combined with nivolumab, ZGGS15 can further enhance the T cell activation in a dose-dependent manner. ADCC/CDC assay results showed that ZGGS15 binding to target cells does not induce ADCC or CDC. ZGGS15 interacts with the human neonatal Fc receptor in a pH-dependent manner, which can promote recirculation of ZGGS15 with a prolonged half-life in plasma. Besides, ZGGS15 interacts with human Fc-γ receptors and the human complement component, C1q, with low binding affinities. However, ZGGS15 does not induce obvious cytokine production from PBMCs, including IFN-γ, IL-2, IL-6, IL-10, and TNF-α. In vivo anti-tumor efficacy for ZGG15 in PBMC humanized NOG mice bearing A375 tumors showed that ZGGS15 had significant anti-tumor effects in the subcutaneous A375 xenograft model. ZGGS15 showed a better anti-tumor inhibition than single anti-LAG-3 or anti-TIGIT agent and a synergetic effect when combined with nivolumab. On day 18 post-treatment, the ZSAB015 plus nivolumab treatment demonstrated a significantly tumor growth inhibition (TGI) of 95.80% ( p =0.001), compared with the vehicle group. In vivo efficacy tests in BALB/c-hPD-1/hLAG-3 mice subcutaneously transplanted with CT26.WT tumor model showed that both high and low doses of ZGGS15 could inhibit the growth of CT26.WT colon cancer. The combination of high-dose ZGGS15 plus nivolumab has better efficacy than high-dose ZGGS15 and is slightly better than nivolumab alone. The tumor volume inhibition rate (TGITV) for ZGGS15 at 2 mg/kg was 69.70%, and for ZGGS15 at 5 mg/kg plus nivolumab at 1 mg/kg, it was 94.03% ( p < 0.001). During the experiment, the tumor-bearing mice tolerated it well, and no adverse reactions were observed. In vivo efficacy tests of ZGG15 in BALB/c-hPD-1/hTIGIT mice subcutaneously transplanted with CT26.WT tumor model showed that ZGGS15 at a low dose (1.5 mg/kg) demonstrated a significant tumor inhibitory effect, with the TGITV of 51.42% ( p < 0.01). The combination of ZGGS15 high-dose with nivolumab (5 mg/kg + 1 mg/kg) showed a better tumor inhibitory effect compared with ZGGS15 high-dose (5 mg/kg), with the TGITV of 81.15% and 41.54%, respectively ( p < 0.05). Conclusions ZGGS15 has excellent anti-tumor activity by inhibiting LAG-3 and TIGIT as a new IgG4 BsAb. ZGGS15 also exhibits potent anti-tumor efficacy in transgenic mouse models combined with nivolumab. Additionally, ZGGS15 does not elicit ADCC or CDC, therefore avoiding the cross-reaction of non-target binding. Finally, ZGGS15 does not induce cytokine production, mitigating any potential adverse effects of CRS.