Proteins, nucleic acids encoding the proteins, compositions comprising the proteins, and methods are provided. The proteins have the ability to be self-targeted to ICAM-1 and, if desired, enzymatically-released at acidic pH. The ICAM-1-targeting peptides are provided as single copies or multiples repeats, and can be separated by linkers from the enzyme segment, from which the ICAM-1 targeting peptides can be released, if desired, at acidic pH. These fusion proteins enhance the activity of the enzyme segment within or liberated from the fusion protein, and provide increased recognition and targeting of diseased organs, transport from the bloodstream across the endothelium into said diseased organ, and intracellular uptake and lysosomal trafficking by cells in them, both in peripheral tissues and the central nervous system. Representative nucleotide and amino acid sequences of these fusion proteins, as well as in vitro, cellular, and in vivo animal data are provided. The described proteins can be used as a protein therapy, a gene therapy, or an implanted cell therapy.

Described herein is an engineered cell adhesion molecule. The engineered cell adhesion molecule is a fusion protein comprising: an extracellular binding domain comprising a first binding moiety, a transmembrane domain and an intracellular domain that is capable of signaling to and reorganize the cytoskeleton of the cell upon specific binding of the first binding moiety to a second binding moiety. Various compositions, cells and methods that employ the cells are also described.

Disclosed herein provides a pharmaceutical composition and a disease therapy method. The pharmaceutical composition relates to an artificial chimeric antigen receptor (CAR). Specifically, the pharmaceutical composition includes a CAR protein that is highly specific to CD19 antigen, a vector that is capable of inducing a cell to generate the certain CAR 19 protein and a population of a modified mammal cell including the CAR19 protein, the vector or combination thereof. Furthermore, the artificial CAR19 includes a CD19 antigen-binding fragment, a transmembrane domain, and a signaling domain. The CD19 antigen-binding fragment is a single-chain variable fragment (scFv) having specific amino acid sequences. Additionally, the method relates to a cancer therapy by using said modified mammal cells. Furthermore, the method includes the steps of purifying a population of autologous cells, modifying the population of autologous cells with an artificial CAR, and administrating the modified autologous cells.

Provided herein are recombinant poxviruses that are stable through successive passaging of the recombinant poxviruses. More particularly, the recombinant poxviruses comprise one or more modified nucleic acids encoding MUC1, CEA, and/or TRICOM antigens, wherein the recombinant poxviruses are stable through successive passaging. Also, provided herein are compositions and method related thereto.

Provided is a chimeric antigen receptor, comprising a ligand-binding domain, a transmembrane domain, a co-stimulatory domain, and an intracellular signaling domain. The co-stimulatory domain comprises an intracellular region of an NK-activated receptor or a ligand thereof. Also provided are an engineered immune cell comprising the chimeric antigen receptor and a use thereof in treatment of diseases, such as cancers, autoimmune diseases, and infections.

Chimeric antigen receptors containing ROR1 antigen binding domains are disclosed. Nucleic acids, recombinant expression vectors, host cells, antigen binding fragments, and pharmaceutical compositions, relating to the chimeric antigen receptors are also disclosed. Methods of treating or preventing cancer in a subject, and methods of making chimeric antigen receptor T cells are also disclosed.

The disclosure provides liposomes (e.g., cancer-targeting liposomes) with ligands (e.g., EGFR ligands and ICAM-1 ligands) conjugated to liposome surfaces. In some embodiments, the molecular ratio of different ligands complement the relative molecular density (i.e., ratio) of overexpressed protein on the surface of a cell targeted by the liposome (e.g., cancer cell).

Provided herein are recombinant poxviruses that are stable through successive passaging of the recombinant poxviruses. More particularly, the recombinant poxviruses comprise one or more modified nucleic acids encoding MUC1, CEA, and/or TRICOM antigens, wherein the recombinant poxviruses are stable through successive passaging. Also, provided herein are compositions and method related thereto.

Proteins, nucleic acids encoding the proteins, compositions comprising the proteins, and methods are provided. The proteins have the ability to be self-targeted to ICAM-1 and, if desired, enzymatically-released at acidic pH. The ICAM-1-targeting peptides are provided as single copies or multiples repeats, and can be separated by linkers from the enzyme segment, from which the ICAM-1 targeting peptides can be released, if desired, at acidic pH. These fusion proteins enhance the activity of the enzyme segment within or liberated from the fusion protein, and provide increased recognition and targeting of diseased organs, transport from the bloodstream across the endothelium into said diseased organ, and intracellular uptake and lysosomal trafficking by cells in them, both in peripheral tissues and the central nervous system. Representative nucleotide and amino acid sequences of these fusion proteins, as well as in vitro, cellular, and in vivo animal data are provided. The described proteins can be used as a protein therapy, a gene therapy, or an implanted cell therapy.

The invention provides a recombinant adenovirus comprising two (or more) therapeutic transgenes, e.g., CD80 and CD137L. The transgenes are preferably inserted into an E1b-19K insertion site and/or an E3 insertion site.