The clinical efficacy of CAR T cell therapies has been widely recognized, particularly in the treatment of hematologic malignancies. Nevertheless, CAR T cells also have the capability to elicit undesired… Click to show full abstract
The clinical efficacy of CAR T cell therapies has been widely recognized, particularly in the treatment of hematologic malignancies. Nevertheless, CAR T cells also have the capability to elicit undesired effects such as on-target/off-tumor recognition and cytokine release syndrome. To increase clinical safety of CAR T cell therapy, a novel modular universal CAR platform termed UniCAR was developed by our group. In the UniCAR system, antigen-binding specificity and signaling features are two distinct moieties, in which the antigen specificity is provided by targeting modules (TMs) to redirect UniCAR T cells in an individualized time- and target-dependent manner. In this way, UniCAR T-cells acquire killing potential only in the presence of a tumour-specific TM. Given the reduced size of such molecules, they are rapidly eliminated and therefore, need to be continuously infused. Thus, possible side effects and activation of UniCAR T cells can be easily monitored and controlled by TM dosing. During the onset of therapy, tumor burden and the risk for severe side effects are high and regulation of CAR T cell activity is particularly important at this stage. For this reason, TMs with extended half-life may play an important role by improving eradication of residual tumor cells in late phases of treatment and further expedite clinical application. In this line of thought, a set of novel short-lived and longer-lasting TMs directed against several tumor-associated antigens was developed. Short-lived TMs are composed of a tumor-specific binding moiety fused to the La peptide epitope (E5B9) which is recognized by UniCAR T cells. In order to generate extended half-life TMs, these two components are fused via an Fc domain derived from the human IgG4 molecule. In vitro and in vivo assays have shown that both short-lived and longer-lasting TMs efficiently redirect UniCAR T cells to cancer cells in a highly target-specific manner, thereby promoting the secretion of pro-inflammatory cytokines and tumor cell lysis. Further assays using PET-imaging, demonstrated that all TM formats specifically enriched at the tumor site presenting either short or prolonged serum half-lives. From a clinical point of view, after the initial reduction of tumor burden promoted by the small TMs, IgG4-based TMs could be subsequently administrated allowing a more convenient and personalized treatment of the patients avoiding the continuous infusion of the short-lived TMs. Furthermore, the specific accumulation of such IgG4-based TMs at the tumor site sets these molecules as attractive candidates for in vivo imaging and endoradiotherapy. Taken together, combination of switchable UniCAR T cells and TMs with different sizes, specificities and half-lives represent a flexible and individualized approach at different stages of cancer treatment. Koristka: Intellia Therapeutics: Employment. Bachmann:GEMoaB Monoclonals: Equity Ownership, Patents & Royalties.
               
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