In some embodiments the present invention provides influenza hemagglutinin (“HA”) polypeptides, proteins, and protein complexes that comprise a stalk domain that is engineered to facilitate maintenance of its native trimeric conformation, even if the head domain of the HA protein is removed or disrupted. In some embodiments, the present invention provides compositions comprising such polypeptides, proteins, and protein complexes, and methods of use of such proteins and compositions, for example as vaccine immunogens.

Herein is reported a method for producing an antibody Fc-region conjugate comprising as first component an antibody Fc-region and as second component at least one binding entity that specifically binds to a target using a transpeptidase for enzymatic conjugation of the antibody Fc-region to at least one binding entity.

The present invention relates to methods to produce an enzymatic-exchangeable peptide Major Histocompatibility Complex Class I (MHC-I) Single Chain Trimer (SCT), or tetramer thereof, constructs encoding same and uses thereof, such as detection or isolation of antigen-specific CD8.sup.+ T cells. Said SCT comprises, in order from N-terminus to C-terminus, (i) a peptide ligand, (ii) a first linker polypeptide comprising an enzyme-cleavable portion, (i11) a β-2 microglobulin (β2.Math.τ.Math.) polypeptide, (iv) a second linker polypeptide, and (v) a mature MHC-I heavy chain polypeptide. In addition, a method of defining a peptide ligand suitable for successful production of a single fusion protein for peptide exchange is claimed.

Described herein are novel compositions comprising, for example, PDCL3 polypeptides having VEGFR-2 inhibitory activity, inhibitory PDCL3 antibodies and PDCL3-binding fragments thereof, or PDCL3 inhibitory nucleic acid molecules, and methods of their use in anti-angiogenesis and anti-tumor proliferation and invasiveness therapies, such as the treatment of cancer, as well as the treatment of those vascular diseases where pathological angiogenesis plays a role, such as in carotid artery disease, macular degeneration, and plaque neovascularization. Also described herein are novel compositions comprising engineered PDCL3 polypeptides having enhanced chaperone activity, recombinant cells comprising such engineered PDCL3 polypeptides having enhanced chaperone activity, and methods thereof for therapeutic protein production and in vitro protein synthesis.

The present invention provides a chimeric molecule comprising a VWF protein fused to a heterologous moiety via a VWF linker. The invention provides an efficient VWF linker that can be cleaved in the presence of thrombin. The chimeric molecule can further comprise a polypeptide chain comprising a FVIII protein and a second heterologous moiety, wherein the chain comprising the VWF protein and the chain comprising the FVIII protein are associated with each other. The invention also includes nucleotides, vectors, host cells, methods of using the chimeric proteins.

Provided is an antibody-tumor necrosis factor α fusion protein and its preparation and applications. Specifically, the present disclosure relates to a fusion protein comprising an antibody moiety and a TNFα moiety, a nucleic acid molecule encoding same, a nucleic acid construct, a host cell and a method of production thereof, as well as applications of these materials in prevention and/or treatment of tumors.

In some embodiments the present invention provides influenza hemagglutinin (“HA”) polypeptides, proteins, and protein complexes that comprise a stalk domain that is engineered to facilitate maintenance of its native trimeric conformation, even if the head domain of the HA protein is removed or disrupted. In some embodiments, the present invention provides compositions comprising such polypeptides, proteins, and protein complexes, and methods of use of such proteins and compositions, for example as vaccine immunogens.

The present disclosure relates to pharmaceutical compositions comprising a non-naturally occurring fusion molecule and one or more pharmaceutically acceptable carriers, formulated for oral delivery to a subject, and designed to provide for improved, effective therapies for treatment of, e.g., inflammatory diseases, autoimmune diseases, cancer, metabolic disorders, and growth deficiency disorders.

The present disclosure relates to pharmaceutical compositions comprising a non-naturally occurring fusion molecule and one or more pharmaceutically acceptable carriers, formulated for oral delivery to a subject, and designed to provide for improved, effective therapies for treatment of, e.g., inflammatory diseases, autoimmune diseases, cancer, metabolic disorders, and growth deficiency disorders. The present disclosure relates to a non-toxic mutant form of the Vibrio cholera Cholix gene (ntCholix), a variant of Cholix truncated at amino acid A.sup.386 (Cholix.sup.386) and the use of other various Cholix-derived polypeptide sequences to enhance intestinal delivery of biologically-active therapeutics. The systems and methods described herein provide for: the ability to deliver macromolecule doses without injections; the ability to deliver cargo such as siRNA or antisense molecules into intracellular compartments where their activity is required; and the delivery of nanoparticles and dendrimer-based carriers across biological membranes.

Novel chimeric proteins may be used to inhibit transcriptional activities that are mediated by transcription factor interactions with P-TEFb. The chimeras contain elements that recruit the target transcription factor, maintain CDK9 in an inactive state, and competitively inhibit P-TEFb binding to the transcription factor. The chimeras may be configured for inhibition of HIV Tat mediated transcription and thus provide a novel means of preventing reactivation of integrated HIV, providing a new tool for emerging “block and lock” HIV cure strategies.