Novel therapeutic immunotherapy compositions comprising at least two vectors, each vector encoding a functional CAR, whereby the combination of vectors results in the expression of two or more non-identical binding domains, wherein each vector encoded binding domain(s) are covalently linked to a transmembrane domain and one or more non-identical intracellular signaling motifs are provided herein as well as are methods of use of same in a patient-specific immunotherapy that can be used to treat cancers and other diseases and conditions.

The invention provides improved gene therapy vectors, compositions, and methods.

The present invention relates to a retro viral system for the transfer of non-viral RNA into target cells and more particularly a retroviral particle capable of delivering multiple RNAs. More particularly, it relates to retroviral particles comprising a protein derived from the Gag polyprotein, an envelope protein, optionally an integrase and at least two encapsidated non-viral RNAs, the encapsidated non-viral RNAs each comprising an RNA sequence of interest linked to an encapsidation sequence, each encapsidation sequence being recognised by a binding domain introduced into the protein derived from the Gag polyprotein and/or into the integrase.

There is disclosed systems and methods for non-invasive delivery of an agent to biological tissues. Delivery of the agent to the tissues can be by one or more modalities. In some embodiments the systems and methods use agent carrier body including a tissue contacting surface for non-invasively engaging tissues under treatment. The tissue contacting surface can be at least partly defined by a plurality of protrusions that are in fluid communication with one or more reservoirs forming part of the agent carrier body. The protrusions may extend outward from an inside of a void and terminate at said tissue contacting surface.

The present invention relates to a retroviral system for the transfer of non-viral RNA into target cells and more particularly a retroviral particle capable of delivering multiple RNAs. More particularly, it relates to retroviral particles comprising a protein derived from the Gag polyprotein an envelope protein, optionally an integrase and at least two encapsidated non-viral RNAs, the encapsidated non-viral RNAs each comprising an RNA sequence of interest linked to an encapsidation sequence, each encapsidation sequence being recognised by a binding domain introduced into the protein derived from the Gag polyprotein and/or into the integrase.

Provided herein are recombinant nucleic acid sequences derived from the C-terminal domain of the HIV-1 gp41 protein, and more specifically compositions and methods for using these epitopes to develop vaccine protection against HIV. Also provided here are monoclonal antibodies that specifically bind to these recombinant nucleic acid sequences derived from the C-terminal domain of the HIV-1 gp41 protein.

The present invention relates to isolated polynucleotide and polypeptide sequences derived from novel chimpanzee adenovirus ChAd157, as well as to recombinant polynucleotides, vectors, adenoviruses, cells and compositions comprising said polynucleotide and polypeptide sequences.

Provided is a recombinant BCG employing a pMyong2 vector system to express HIV-1 p24 and a use thereof as a HIV-1 vaccine. rBCG-pMyong2-p24, which is a pMyong2 vector system, was found to induce the upregulation of HIV-1 p24 gag expression in rBCG and infected antigen-presenting cells (APC) and to induce improved p24-specific immune responses in vaccinated mice, compared to rBCG-pAL-p24 in a pAL5000 derived vector system. rBCG-pMyong2-p24 was identified to exhibit a higher p24-specific Ab production level than rSmeg-pMyong2-p24 in the same pMyong2 vector system. Therefore, the recombinant BCG employing rBCG-pMyong2-p24 to express HIV-1 p24 according to the present invention is identified to elicit enhanced immune responses to HIV-1 infection in mouse model systems and thus can be expected to be used as a prime vaccine in the heterologous prime-boost vaccination strategy against HIV-1 infection.

Provided are a polypeptide specifically binding to TRB3 and application thereof in preparation of drugs for treating and/preventing pulmonary fibrosis. The amino acid sequence of the polypeptide is represented by SEQ ID NO:12 in a sequence list, or two or more amino acids in the amino acid sequence as represented by SEQ ID NO:12 in the sequence list are replaced with unnatural amino acids having side chains that can be linked to each other. The polypeptide and derivatives thereof can specifically bind to TRB3, thereby blocking the interaction between TRB3 and MDM2 proteins.

Human immunodeficiency virus (HIV) envelope proteins having specified mutations that stabilize the trimeric form of the envelope protein are provided. The HIV envelope proteins described herein have an improved percentage of trimer formation and/or an improved trimer yield. Also provided are particles displaying the HIV envelope proteins, nucleic acid molecules and vectors encoding the HIV envelope proteins, as well as compositions containing the HIV envelope proteins, particles, nucleic acid, or vectors.