SARS-CoV-2 continues to mutate, leading to breakthrough infections. The development of new vaccine strategies to combat variant strains is crucial. Protein cyclization can enhance thermal stability and may improve immunogenicity. Here, we designed a cyclic tandem dimeric receptor-binding domain protein (cirRBD2) using the split intein Cth-Ter. Cyclization does not affect the antigen epitopes of the RBD but results in better thermal stability than that of its linear counterpart (linRBD2). Compared with those immunized with linRBD2, mice immunized with two doses of 5 μg of cirRBD2 produced significantly greater levels of broad-spectrum neutralizing antibodies than those immunized with linRBD2 and generated a considerable cellular immune response. In the VEEV-VRP-hACE2-transduced mouse model, two doses of 5 μg of cirRBD2 provided protection against infection with BA.5, XBB.1.9, and partial against EG.5 which has more mutations. This study developed a novel circular RBD dimer subunit vaccine for SARS-CoV-2 that exhibits broad-spectrum neutralizing activity against various variants. A similar strategy can be applied to develop vaccines for other pathogens, especially for thermally stable vaccines.

Tumor necrosis factor-related apoptosis-inducing ligand receptor 1 (TRAIL-R1) has limited expression in normal tissues but highly expression in a broad range of tumors, making it an attractive target for cancer immunotherapy. We have previously prepared a fully human monoclonal antibody targeting TRAIL-R1 (TR1419), which can specifically induce apoptosis in antigen-positive tumor cells. Here, we prepared the TR1419CAR-T cells using the single chain variable fragment (scFv) from TR1419, which were evaluated for the phenotypes and function. The TR1419CAR-T cells induced cytolysis of TRAIL-R1-positive tumor cells not only via activation of the death receptor-dependent apoptotic pathway, but also via T-cell mediated cytotoxicity. Furthermore, compared to the second-generation TR1419-28ζ and TR1419-BBζ CAR-T cells, the third-generation TR1419-28BBζ CAR-T cells had greater sensitivity to target antigen, exhibited a better proliferative ability, but showed slightly higher PD-1 expression after antigen stimulation. Altogether, TR1419CAR-T cells, especially TR1419-28BBζCAR-T cells could be a promising treatment strategy for TRAIL-R1 positive tumors.