Provided herein are novel Glypican 3 (GPC3) antibodies or antigen binding fragments and GPC3/CD3 bispecific antibodies. The present application also provides chimeric antigen receptors comprising the antibodies or antigen-binding fragments, related CAR-T cells, and preparation methods and uses of the same. The present application further provides pharmaceutical compositions comprising GPC3 antibodies or antigen binding fragments, related GPC3/CD3 bispecific antibodies, related GPC3 CAR or CAR-T cells, and methods of treating cancer in a subject in need thereof by administering the Glypican 3 (GPC3) antibodies or antigen binding fragments, the bispecific antibodies, the chimeric antigen receptors, the CAR-T cells, or the pharmaceutical compositions. The cancers treated in accordance with the application include Glypican-3-positive cancers.

Provided in the present invention is a T-cell receptor (TCR) having the characteristic of binding a FMNKFIYEI-HLA A0201 complex; and the binding affinity of the TCR to the FMNKFIYEI-HLA A0201 complex is at least 5 times that of a wild-type TCR to the FMNKFIYEI-HLA A0201 complex. Further provided in the present invention is a fusion molecule of the TCR with a therapeutic agent. The TCR can be used alone or in combination with the therapeutic agent, so as to target a tumor cell presenting the FMNKFIYEI-HLA A0201 complex.

Provided are HLA-A02 restricted T cell receptors (TCRs) that specifically target HBV surface antigen which is a S20 peptide consisting of FLLTRILTI and the T cells expressing said TCRs. It also relates to the nucleic acid molecules and vectors encoding said TCRs and their medical uses in reducing HBV antigen-positive tumour cells and treating or preventing HBV infections and related diseases.

The present disclosure relates to a novel anti-HER2 antibody or an antigen-binding fragment thereof used in the prevention or treatment of cancer, a chimeric antigen receptor including the same, and uses thereof. The antibody of the present disclosure is an antibody that specifically binds to HER2 which is highly expressed in cancer cells (particularly, breast cancer or gastric cancer cells), and binds to an epitope that is different from an epitope to which trastuzumab binds.

Genetically engineered immune cells, which express at least two metabolism modulating polypeptides and optionally a chimeric receptor polypeptide (e.g., an antibody-coupled T cell receptor (ACTR) polypeptide or a chimeric antigen receptor (CAR) polypeptide) capable of binding to a target antigen of interest. Also disclosed herein are uses of the engineered immune cells for inhibiting cells expressing a target antigen in a subject in need thereof.

Provided are antibodies, fragments thereof, chimeric antigen receptors (CARs) and T cell receptors (TCRs) comprising one or more of the GPC3 binding domains disclosed herein. Provided are compositions, cells and cell therapies comprising the same. Further provided are methods of treatment.

Provided in the present invention is a T-cell receptor (TCR) having the characteristic of binding a FMNKFIYEI-HLA A0201 complex. The binding affinity of the TCR to the FMNKFIYEI-HLA A0201 complex is at least 5 times that of a wild-type TCR to the FMNKFIYEI-HLA A0201 complex. Further provided in the present invention is a fusion molecule of the TCR with a therapeutic agent. The TCR may be used alone or in combination with the therapeutic agent, so as to target a tumor cell presenting the FMNKFIYEI-HLA A0201 complex.

Provided are a genetically modified immune cell, a preparation method therefor, and an application. The immune cell overexpresses HIL-6 and/or L-GP130. HIL-6 or L-GP130 continuous overexpression/conditionally induced overexpression in the immune cell reduces the side effects of CAR-T therapy while maintaining immune and anti-tumour effects, and has potential value in the treatment of malignant tumours and AIDS.