Provided herein are de novo binding domain containing polypeptides (DBDpp) that specifically bind a target of interest. Nucleic acids encoding the DBDpp, and vectors and host cells containing the nucleic acids are also provided. Libraries of DBDpp, methods of producing and screening such libraries and the DBDpp identified from such libraries and screens are also encompassed. Methods of making and using the DBDpp are additionally provided. Such uses include, without limitation, affinity purification, and diagnostic and therapeutic applications.

Provided herein are de novo binding domain containing polypeptides (DBDpp) that specifically bind a target of interest. Nucleic acids encoding the DBDpp, and vectors and host cells containing the nucleic acids are also provided. Libraries of DBDpp, methods of producing and screening such libraries and the DBDpp identified from such libraries and screens are also encompassed. Methods of making and using the DBDpp are additionally provided. Such uses include, without limitation, affinity purification, and diagnostic and therapeutic applications.

The present application provides single-domain antibodies, and chimeric antigen receptors comprising one or more antigen binding domains each comprising a single-domain antibody. Further provided are engineered immune effector cells (such as T cells) comprising the chimeric antigen receptors. Pharmaceutical compositions, kits and methods of treating cancer are also provided.

The present disclosure provides binding-triggered transcriptional switch polypeptides, nucleic acids comprising nucleotide sequences encoding the binding-triggered transcriptional switch polypeptides, and host cells genetically modified with the nucleic acids. The present disclosure also provides chimeric Notch receptor polypeptides, nucleic acids comprising nucleotide sequences encoding the chimeric Notch receptor polypeptides, and host cells transduced and/or genetically modified with the nucleic acids. The present disclosure provides transgenic organisms comprising a nucleic acid encoding a binding triggered transcriptional switch polypeptide and/or a chimeric Notch receptor polypeptide of the present disclosure. Binding triggered transcriptional switch polypeptides and chimeric Notch receptor polypeptides of the present disclosure are useful in a variety of applications, which are also provided.

Provided herein are de novo binding domain containing polypeptides (DBDpp) that specifically bind a target of interest. Nucleic acids encoding the DBDpp, and vectors and host cells containing the nucleic acids are also provided. Libraries of DBDpp, methods of producing and screening such libraries and the DBDpp identified from such libraries and screens are also encompassed. Methods of making and using the DBDpp are additionally provided. Such uses include, without limitation, affinity purification, and diagnostic and therapeutic applications.

The present application provides modified immune cells that express TLR receptors. In some embodiments, the modified immune cell further comprises an engineered receptor such as a chimeric antigen receptor (CAR). The present application also provides methods and pharmaceutical compositions for cancer treatment using the modified immune cells described herein.

The present invention provides a T cell which expresses a gamma-delta T cell receptor (TCR) and a chimeric antigen receptor (CAR), wherein the CAR comprises: an antigen binding domain; a transmembrane domain; and a co-stimulatory intracellular signalling domain; wherein the intracellular signalling domain provides a co-stimulatory signal to the T cell following binding of antigen to the antigen binding domain.

Provided herein are novel anti-LHR chimeric antigen receptor (CAR), cells or compositions comprising the same, vector or plasmid encoding anti-LHR CAR, and methods for producing the same, or using the same for detecting or treating ovarian cancer or prostate cancer. Also provided herein are anti-LHR antibody, compositions comprising the same, nucleic acid sequence encoding the same, and a kit for detecting LHR.

The present disclosure provides compositions and methods for treating diseases associated with expression of CD19 and/or CD22, e.g., by administering a recombinant T cell or natural killer (NK) cell comprising a CD22 CAR and a CD19 CAR as described herein. The disclosure also relates to CAR molecules specific to CD22 and/or CD19, methods of making a cell comprising the same and vectors encoding the same.

Embodiments of the disclosure encompass methods for generating or expanding a population of immune cells specific for a virus, comprising stimulating immune cells specific for a virus by culturing peripheral blood mononuclear cells (PBMCs) in cell culture medium comprising human platelet lysate in the presence of: (i) one or more peptides corresponding to all or part of one or more antigens of the virus; or (ii) antigen presenting cells (APCs) presenting one or more peptides corresponding to all or part of one or more antigens of the virus. In particular embodiments, the cell culture medium comprises a particular percentage of human platelet lysate and/or the PBMCs are depleted of CD45RA-positive cells, for example.