The application provides a multi-specific antibody-like protein having a N-terminal and a C-terminal, comprising in tandem from the N-terminal to the C-terminal, a first binding domain (D1) at the N-terminal, a second binding domain (D2) comprising a light chain moiety, a Fc region, a third binding domain (D3), and a fourth binding domain (D4) at the C-terminal, wherein the light chain moiety comprises a fifth binding domain (D5) covalently attached to the C-terminal, a sixth binding domain (D6) covalently attached to the N-terminal, or both, and wherein the D1, D2, D3, D4, D5 and D6 each has a binding specificity against a tumor antigen, an immune signaling antigen, or a combination thereof.

Provided is application of chimeric antigen receptor (CAR)-modified T (CART) cells in preparing drugs for cancer treatment, the CART cells contain an artificially-introduced costimulatory signal transduction domain, and the CART cell does not contain an artificially-introduced first signal transduction domain.

High-affinity antibodies recognizing CD3 and B Cell Maturation Factor protein (BCMA) are disclosed. Binding sites from humanized anti-CD3 and anti-BCMA antibodies are incorporated into a Fabs-in-Tandem Immunoglobulin format without significant loss of binding affinity, and the resultant bispecific, multivalent binding proteins are able to bind to both CD3 and BCMA simultaneously. Such antibodies, antigen-binding portions thereof, and bispecific FIT-Ig binding proteins are useful for treating cancer.

The present invention provides a system for providing a T cell product, including a T cell master cell bank and/or a T cell working cell bank.

The present invention relates to novel antibodies or antigen-binding fragments thereof that specifically bind to TransMembrane 4 Superfamily Member 4 (TM4SF4). These antibodies or antigen-binding fragments thereof exhibit proliferation inhibitory activity of cancer cells so as to effectively prevent or treat cancer, and reduce the self-renewal ability of cancer stem cells to be usefully used even in the treatments of cancer with a poor prognosis in conventional anticancer treatments.

Soluble fusion protein complexes, including domains from IL-15, IL-15 receptor, and αCTLA4 antibody for preventing, reducing the occurrence of, and/or treating cancer or an autoimmune disease or disorder in a subject are provided herein. The methods provided herein include administering to a subject a pharmaceutical composition of a soluble fusion protein complex.

Disclosed are antigen binding polypeptides and antigen binding polypeptide complexes (e.g., antibodies and antigen binding fragments thereof) having certain structural features. Also disclosed are polynucleotides and vectors encoding such polypeptides and polypeptide complexes; chimeric antigen receptors (CARs), cells, pharmaceutical compositions and kits containing such polypeptides and polypeptide complexes; and methods of using such polypeptides and polypeptide complexes.

The present disclosure provides antibodies and polypeptides that specifically bind to mesothelin (MSLN), including bispecific antibodies that bind both MSLN and a T cell antigen (e.g., CD3). Also provided are pharmaceutical compositions comprising these antibodies, nucleic acids encoding these antibodies, expression vectors and host cells for making these antibodies, and methods of treating a subject using these antibodies.

Methods are provided for treating a subject with a therapeutic dose of anti-CD47 agent by administering a primer agent prior to administering a therapeutically effective dose of an anti-CD47 agent to the subject.

The present invention provides for the intratumoral delivery of at least one immunostimulatory cytokine in combination with at least one checkpoint inhibitor. In particular, it provides delivery of a plasmid encoding the immunostimulatory cytokine using intratumoral electroporation. The checkpoint inhibitor may be administered systemically or encoded on a plasmid and delivered using intratumoral electroporation. The checkpoint inhibitor may be delivered contemporaneously with or after treatment with the immunomodulatory cytokine.