Anti-MSLN chimeric antigen receptor-like NK cell therapy with tumor-penetrating capacity (uCAR-like NK) for solid tumors.
Mengchao An, Ying Wang, Jie Shao, Siwen Wu, Jiayao Yan, Yuxiang Li, Liqing Zhong, Jingyi Guo, Tianran Chen, Manman Tian, Qin Liu, Rutian Li, Baorui Liu
Abstract
Open AccessAlthough natural killer (NK) cells are endowed with intrinsic cytotoxicity, their therapeutic application often faces limitations because of their lack of tumor-specific targeting ability and limited ability to infiltrate solid tumors. To overcome these limitations, we developed anti-mesothelin (MSLN) uCAR-like NK cells, which are designed to enhance both the targeting specificity and tumor infiltration capacity, thereby improving the antitumor efficacy of NK cell-based therapies. We constructed, purified, and validated a tetravalent bispecific cell engager (MSLN×CD16A) via the SpyTag/SpyCatcher system. Cytokine-induced memory-like NK cells, induced by IL-12, IL-15, and IL-18, were precomplexed with MSLN×CD16A to generate anti-MSLN CAR-like NK cells. To further enhance tumor penetration, the tumor-penetrating peptide uCendR was integrated into the system to construct anti-MSLN uCAR-like NK cells. In vitro, anti-MSLN CAR-like NK cells demonstrated selective cytotoxicity against MSLN-positive tumor cells through stable binding with MSLN×CD16A while sparing MSLN-negative cells. In xenograft models bearing MSLN-positive tumors, anti-MSLN CAR-like NK cells exhibited significant antitumor activity, with favorable tolerability and no significant body weight loss or toxicity. Notably, anti-MSLN uCAR-like NK cells, which integrate a tumor-penetrating peptide, displayed enhanced intratumor penetration and superior therapeutic efficacy. Overall, this study establishes a modular, nongenetically engineered uCAR-like NK platform that couples targeted recognition with enhanced tissue access. These findings highlight the potential of anti-MSLN CAR-like NK cells, particularly uCAR-like NK cells with enhanced tumor penetration, as promising therapeutic strategies for MSLN-positive solid tumors and lay the foundation for future clinical applications.