AI Article Synopsis
- Bispecific antibodies are gaining attention for their role in redirecting immune cells and targeting tumors, leading to the development of a new platform called Antibody-Like Cell Engager (ALiCE).
- The ALiCE platform allows for the creation of antibodies that can bind to two different targets simultaneously while maintaining specific interactions that enhance their effectiveness.
- Among the tested variants, ACE-05 demonstrated significant antitumor effects and fewer off-target toxicities compared to ACE-31, positioning ACE-05 as a potential new therapeutic for cancer treatment with applications for further immunomodulation.
Article Abstract
Following the clinical success of immunotherapeutic antibodies, bispecific antibodies for cytotoxic effector cell redirection, tumor-targeted immunomodulation and dual immunomodulation, have received particular attentions. Here, we developed a novel bispecific antibody platform, termed Antibody-Like Cell Engager (ALiCE), wherein the Fc domain of each heavy chain of immunoglobulin G (IgG) is replaced by the VH and VL domains of an IgG specific to a second antigen while retaining the N-terminal Fab of the parent antibody. Because of specific interactions between the substituted VH and VL domains, the C-terminal stem Fv enables ALiCE to assemble autonomously into hetero-tetramers, thus simultaneously binding to two distinct antigens but with different avidities. This design strategy was used to generate ACE-05 (two anti-PD-L1 Fab × anti-CD3 Fv) and ACE-31 (two anti-CD3 Fab × anti-PD-L1 Fv), both of which bound PD-L1 and CD3. However, ACE-05 was more effective than ACE-31 in reducing off-target toxicity caused by the indiscriminate activation of T cells. Moreover, in cell-based assays and PBMC-reconstituted humanized mice harboring human non-small-cell lung cancer tumors, ACE-05 showed marked antitumor efficacy, causing complete tumor regression at a dose of 0.05 mg/kg body weight. The dual roles of ACE-05 in immune checkpoint inhibition and T-cell redirection, coupled with reduced off-target toxicity, suggest that ACE-05 may be a promising anti-cancer therapeutic agent. Moreover, the bispecific ALiCE platform can be further used for tumor-targeted or multiple immunomodulation applications.
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| http://dx.doi.org/10.1016/j.biomaterials.2021.120760 | DOI Listing |
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