The present disclosure provides compositions and methods for making and using engineered killer phagocytic cells for immunotherapy in cancer or infection by expressing a chimeric antigen receptor having an enhanced phagocytic activity, the chimeric receptor is encoded by a recombinant nucleic acid.

A polypeptide encoding a chimeric antigen receptor (CAR) comprising at least one extracellular binding domain that comprises a scFv formed by at least a VH chain and a VL chain specific to an antigen, wherein said extracellular binding domain comprises at least one mAb-specific epitope.

The present invention relates to Chimeric Antigen Receptors (CAR) that are recombinant chimeric proteins able to redirect immune cell specificity and reactivity toward CLL1 positive cells. The engineered immune cells endowed with such CARs are particularly suited for immunotherapy for treating cancer, in particular leukemia.

The present disclosure relates to chimeric engulfment receptor molecules, host cells modified to include the phagocytic engulfment molecules, and methods of making and using such receptor molecules and modified cells.

Genetically modified mice and methods and compositions for making and using the same are provided, wherein the genetic modification comprises humanization of an FcγRI protein.

Provided are proteins comprising a variant IgG Fc region, wherein the proteins exhibit significantly reduced binding to human FcγRI when compared with a reference protein comprising the amino acid substitutions L234A/L235A/P329G. Also provided are compositions, methods of treatment and methods to reduce Fc-induced effector functions in a parent protein.

Provided are methods and compositions for obtaining functionally enhanced derivative effector cells obtained from directed differentiation of genomically engineered iPSCs. The derivative cells provided herein have stable and functional genome editing that delivers improved or enhanced therapeutic effects. Also provided are therapeutic compositions and the use thereof comprising the functionally enhanced derivative effector cells alone, or with antibodies or checkpoint inhibitors or additional cells in combination therapies.

The present invention provides efficient methods based on alteration of the protein A-binding ability, for producing or purifying multispecific antibodies having the activity of binding to two or more types of antigens to high purity through a protein A-based purification step alone. The methods of the present invention for producing or purifying multispecific antibodies which feature altering amino acid residues of antibody heavy chain constant region and/or variable region. Multispecific antibodies with an altered protein A-binding ability, which exhibit plasma retention comparable or longer than that of human IgG1, can be efficiently prepared in high purity by introducing amino acid alterations of the present invention into antibodies.

The present disclosure relates to genetically modified non-human animals that express a fusion protein including B2M and FcRn, and methods of use thereof. In some embodiments, the animals can have a B-NDG background. In some embodiments, the endogenous B2M gene is knocked out in the animals.

Fc-fusion protein derivatives against HIV have enhanced yield in mammalian cells, and extended antiviral and immunomodulatory activities. The Fc-fusion protein derivatives can block the entry of human immunodeficiency virus (HIV) into host cells, elicit effector functions through the activation of natural killer (NK) and other immune system cells, can be produced with high yield in mammalian cells, and have extended activity in vivo. Nucleic acids, vectors and host cells can express the Fc-fusion protein derivatives, which have therapeutic and diagnostic applications in human health.