An antibody targeting CD73, a preparation method therefor and a use thereof. The provided monoclonal antibody can bind to a CD73 antigen with high specificity, and has high affinity and significant antitumor activity.

Provided are modified immune cells expressing a flagellin polypeptide capable of binding to a toll-like receptor. The modified immune cell further comprises an engineered receptor. Also provided are methods and pharmaceutical compositions for cancer treatment using the modified immune cells.

The present specification provides a monoclonal antibody that specifically binds aggregated, non-phosphorylated α-synuclein and a hybridoma producing it. Also disclosed are methods of generating antibodies that specifically binds aggregated, non-phosphorylated α-synuclein and uses thereof. Uses of anti-α-synuclein antibody in detection and diagnostic assays, and for prophylaxis or therapy of α-synuclein-associated neurodegenerative diseases, are also disclosed.

An anti-CD47 monoclonal antibody and use thereof. The provided anti-CD47 monoclonal antibody can effectively inhibit tumor growth. Blocking human SIRP and human CD47 signals may enhance macrophage phagocytosis of tumor cells, prevent the tumor cells from escaping a tumor immune defense system, and have an anti-tumor function. Blocking association between the CD47 on a tumor cell surface and the SIRP on a macrophage surface may block a “do not eat me” signal from the tumor cells, promoting tumor cell recognition and uptake of macrophages, and thereby facilitating tumor cells to be phagocytosed. The association between the CD47 on a tumor cell surface and the SIRP on a macrophage surface is a common “do not eat me” signal. The anti-CD47 antibody, as a very promising target in the tumor immune system, will play a powerful and effective role in human cancer therapy.

Provided is an exosome, which is secreted by a hybrid cell formed by antigen-presenting cells phagocytosing the cell nuclei of tumor cells. Using the strategy of macrophages phagocytosing the cell nuclei of tumor cells achieves endogenous expression of tumor antigens on macrophages, and the exosome prepared has good capabilities of targeting to lymph nodes and tumors dually.

This disclosure relates to methods of culturing and characterizing antibody secreting cells. In certain embodiments, this disclosure relates to methods of isolating antibody secreting cells, e.g., long lived plasma cells, replicating the isolated cells in growth media disclosed herein, and determining the nucleic acids sequences in the cells that encode the produced antibodies.

A chimeric antigen receptor targeting to human NKG2DL, its encoding sequence, and its modified immune response cells, and the preparation and application thereof are provided. This invention constructs a chimeric antigen receptor targeting to NKG2DL and its modified immune response cell based on the NKG2D molecule. The amino acid sequence of the chimeric antigen receptor targeting the human NKG2DL is sequentially connected by the following amino acid sequences from an amino terminal to a carboxy terminal: an amino acid sequence of a guiding sequence, an amino acid sequence of human NKG2D, an amino acid sequence of a human CD8 hinge region, an amino acid sequence of a human CD8 transmembrane region, an amino acid sequence of a human 4-1BB intracellular domain and an amino acid sequence of a human CD3 zeta domain.

It is an object of the present invention to provide an antibody binding to CDH6 and having internalization activity, an antibody-drug conjugate of the antibody and a drug having antitumor activity, a pharmaceutical product comprising the antibody-drug conjugate and having therapeutic effects on a tumor, a method for treating a tumor using the antibody, the antibody-drug conjugate or the pharmaceutical product, and the like. The present invention provides an anti-CDH6 antibody having internalization activity, an antibody-drug conjugate of the antibody and a drug having antitumor activity, a pharmaceutical product comprising the antibody or the antibody-drug conjugate, and a method for treating a tumor.

This disclosure provides, among other things, a transgenic chicken. In some embodiments, the transgenic chicken comprises B cells in which the endogenous immunoglobulin heavy chain locus comprises: (a) a functional immunoglobulin heavy chain gene comprising a nucleic acid encoding a heavy chain variable domain in which the CDR3 is in the range of 30-60 amino acids in length and comprises at least 2 cysteine residues; and (b) a plurality of pseudogenes that are operably linked to said functional immunoglobulin heavy chain gene and that donate, by gene conversion, nucleotide sequence to the nucleic acid encoding the heavy chain variable domain of (a), wherein the pseudogenes are upstream or downstream of the functional immunoglobulin heavy chain gene.

The present application provides fully human monoclonal antibodies against tumor necrosis factor receptor superfamily, member 4 (TNFRSF4), also known as OX40 and CD134. It also provides the methods of hybridoma generation using a humanized transgenic rat, the nucleic acid molecules encoding the anti-OX40 antibodies, expression vectors and host cells used for the expression of anti-OX40 antibodies. The invention further provides the methods for validating the function of antibodies in vitro and the efficacy of antibodies in vivo. The antibodies of invention provide a very potent agent for the treatment of multiple cancers via modulating human immune function.