The present invention relates, inter alia, to compositions and methods, including chimeric proteins comprising an extracellular domain of a Type I transmembrane protein or a portion of a membrane-anchored extracellular protein and a portion of the extracellular domain of a Type II transmembrane protein, wherein the Type II transmembrane protein is naturally expressed on the surface of a Natural Killer (NK) cell that find use in the treatment of disease, such as cancer and viral infections.

The present disclosure generally relates to, inter alia, a new class of chimeric Notch receptors containing a synthetic zinc finger transcriptional effector (synZTE) module, engineered to modulate gene expression and cellular activities in a ligand-dependent manner. The new Notch receptors surprisingly retain the ability to transduce signals in response to ligand binding despite that the Notch extracellular subunit, which includes the negative regulatory region previously believed to be essential for the functioning of Notch receptors, is partly or completely deleted. In addition, the synZTE is designed to bind orthogonal DNA target sequences in target organisms which in turn facilitates precise regulation of therapeutic gene expression with minimal off-target activity. Also provided are compositions and methods useful for producing such receptors, nucleic acids encoding same, host cells genetically modified with the nucleic acids, as well as methods for modulating an activity of a cell and/or for treatment of various health conditions.

Provided is a fusion protein comprising IL-2 protein and CD80 protein. A fusion protein comprising CD80 fragment, immunoglobulin Fe, and an IL-2 variant can activate immune cells, such as natural killer cells, and at the same time, can control immune cell regulatory activity of regulatory T cells. Therefore, a pharmaceutical composition comprising the fusion protein as an active ingredient is very industrially useful in that such pharmaceutical composition can increase immune activity in the body, and thus can be effectively used against infectious diseases as well as cancer.

Provided herein are multi-domain immunomodulatory proteins, nucleic acids encoding such immunomodulatory proteins, cells engineered to express the immunomodulatory proteins and infectious agents containing nucleic acid encoding the immunomodulatory proteins. The immunomodulatory proteins bind both an inhibitory receptor and a receptor involved in activation signaling cascades in an immune cell, such as a T cell. The immunomodulatory proteins, engineered cells and infectious agents provide therapeutic utility for a variety of immunological diseases or conditions. Compositions and methods for making and using such proteins are provided.

Disclosed are peptides comprising amino acid residues of the dimer interface of human B7-1 and B7-2 and compositions and uses thereof.

Provided herein are immunomodulatory proteins comprising ICOSL variants and nucleic acids encoding such proteins. The immunomodulatory proteins provide therapeutic utility for a variety of immunological and oncological conditions. Compositions and methods for making and using such proteins are provided.

Provided herein are components (e.g., cells and soluble proteins), systems, and methods for assessing the biological activity of soluble proteins comprising an Fc domain and a CD28-binding domain (e.g., CD80 extracellular domain Fc fusion proteins).

The present disclosure relates to genetically modified non-human animals that express a human or chimeric (e.g., humanized) TNFR2, and methods of use thereof.

The present disclosure provides a high-throughput screening system and method for identification of novel drugs and drug targets. The method enables large-scale analysis of interactions between allogeneic pairs of target cells and immune cells by using an immune-bridge protein, library of guide RNA, and/or 3D tumor model.

The invention disclosed herein relates to improved methods for expanding cell populations, particularly B cell populations. The invention further relates to improved B-cell expansion media, compositions comprising expanded B cells and methods of using such expanded B cells. The invention further relates to methods of treating diseases or disorders wherein a population of B cells is obtained and cultured, and wherein said B cells are engineered to express a payload and/or a chimeric receptor, and wherein said B cells are administered to a subject.