Provided for herein are fusogenic rhabdovirus glycoproteins and uses thereof, compositions comprising the same, and methods of using the same. Also provided for herein are pseudotyped viral particles comprising rhabdovirus glycoproteins as provided for herein and targeting moieties as provided for herein. Also provided are methods of generating and using the pseudotyped viral particles as provided for herein.

The present invention relates to methods and combination therapies for enhancing the activity and function of non-B cell immune cells (such as T cells) using genetically modified B cells. These methods and combinations can be used, for example, for the treatment of a variety of diseases and disorders, including cancer, heart disease, inflammatory disease, muscle wasting disease, neurological disease, and the like.

Provided are novel fusion proteins, nucleic acids encoding said proteins, vectors comprising said nucleic acids, compositions comprising said nucleic acids or vectors, host cells comprising said nucleic acids, vectors or compositions or pharmaceutical compositions. Provided are methods of reducing (down regulating) a target membrane-bound protein (MBP) level in a cell, methods of producing a cell having a reduced target membrane-bound protein level, or methods of treating a disease, or methods of reducing or preventing GvHD in a subject associated with the administration of one or more CAR T-cells to the subject.

Provided herein, inter alia, are methods and compositions for treating or preventing graft-versus-host disease. The methods include administering to a tissue transplant recipient a composition comprising a donor-derived regulatory T cell.

Among the various aspects of the present disclosure is the provision of methods and compositions for the generation of cells of endodermal lineage and beta cells and uses thereof.

The preset disclosure provides chimeric activation receptors comprising (i) a TGFβ-binding domain and (ii) a CD2 costimulatory domain. In some aspects, the TGFβ-binding domain comprises an extracellular domain of a TGFβ receptor. Other aspects of the disclosure are directed to nucleic acid molecules encoding a chimeric activation receptor, cells comprising the chimeric activation receptor and/or a nucleic acid molecule encoding the same, and methods of use thereof in the treatment of a disease or condition (e.g., a tumor) in a subject in need thereof.

The disclosure relates to immune cells comprising systems of two engineered receptors each having a ligand binding domain, collectively designed to target cells identified by loss of heterozygosity and used to treat a disease or disorder, for example, cancer. The disclosure provides immune cells expressing two engineered receptors, methods of making same, and polynucleotides and vectors encoding same.

The present invention relates to genetically modified B cells and their uses thereof, for example, for the treatment of a variety of diseases and disorders, including cancer, heart disease, inflammatory disease, muscle wasting disease, neurological disease, and the like. In certain embodiments, the invention relates to an isolated modified B cell (CAR-B cell), capable of expressing a chimeric receptor (CAR-B receptor), wherein said chimeric receptor comprises (a) an extracellular domain; (b) a transmembrane domain; and (c) a cytoplasmic domain that comprises at least one signaling domain. In various embodiments, the invention comprises an isolated modified B cell, wherein said B cell is capable of expressing and secreting a payload, wherein the payload is not naturally expressed in a B cell or is expressed at higher levels than is naturally expressed in a B cell. In various embodiments, the payload is an antibody or fragment thereof.

The present disclosure relates to compositions and methods for reducing side effects and/or enhancing cancer treatment that use modified immune cells expressing chimeric antigen receptors (CARs) or modified T cell receptors (TCRs). The modified immune cells, such as T cells or NK cells, can express CARs or TCRs targeting solid tumor antigens, white blood cell antigens like CD19, or bispecific CARs/TCRs targeting both. The methods include administering dasatinib to reduce the side effects associated with CAR T or TCR therapy and/or enhance cancer treatment. The modified cells can co-express additional therapeutic agents like cytokines.

In various aspects and embodiments, this disclosure provides methods for generating hematopoietic stem cells (HSCs), as well as compositions comprising the same, and methods of treating disease. The disclosure provides methods for preparing endothelial cells from pluripotent stem cells by expression (e.g., overexpression) of E26 transformation-specific variant 2 (ETV2) transcription factor. HSCs are then generated from the endothelial cells using mechanical, biochemical, pharmacological and/or genetic stimulation.