The present invention includes compositions and methods for the expression, secretion and use of novel compositions for use as, e.g., vaccines and antigen delivery vectors, to delivery antigens to antigen presenting cells. In one embodiment, the vector is an anti-CD40 antibody, or fragments thereof, and one or more antigenic peptides linked to the anti-CD40 antibody or fragments thereof, including humanized antibodies.

The present invention relates to an IL-2 protein sequence of the formula (Tag.sup.1).sub.y - (Ala).sub.x - SEQA - SEQ B - SEQ C -(Tag.sup.2).sub.z (I), wherein SEQ A has at least 89% sequence identity with SEQ ID NO:1; SEQ B has at least 76% sequence identity to SEQ ID NO:2 and comprises at least one glycosylation motif; SEQ C has at least 91% sequence identity with SEQ ID NO:4; Tag 1 and Tag.sup.2 are independently a tag moiety; Ala is an alanine residue; x is 0 or 1; y is 0 or 1; and z is 0 or 1; to conjugates thereof and their uses in the treatment of cell-proliferation disorders.

Provided is a technique for highly expressing a target protein in a plant cell by using a glycosylation domain, a recombinant vector comprising a gene encoding a fusion protein of a glycosylation domain and a target protein, a recombinant cell, a transformed plant, and a method of producing a target protein using these.

The disclosure provides a chimeric antigen receptor (CAR) comprising a modified hinge, transmembrane and/or intracellular domain disclosed herein. Some aspects of the disclosure relate to a polynucleotide encoding a chimeric antigen receptor (CAR) comprising the costimulatory domain disclosed herein. Other aspects of the disclosure relate to cells comprising the CAR and use in a T cell therapy.

Provided is a technique for highly expressing a target protein in a plant cell by using a glycosylation domain, a recombinant vector comprising a gene encoding a fusion protein of a glycosylation domain and a target protein, a recombinant cell, a transformed plant, and a method of producing a target protein using these.

A novel vaccine antigen for prevention of Respiratory Syncytial Virus (RSV) infection is created which surpasses conventional vaccines comprising as an antigen RSV F protein alone in view of efficacy and/or safety. A vaccine is prepared which comprises as an antigen a RSV F/G chimeric protein wherein a portion of RSV F protein as a basic structure is replaced with a whole or a portion of Conserved Central Domain sequence of RSV G protein or wherein a whole or a portion of Conserved Central Domain sequence of RSV G is added to the basic structure. As a result of assessment of both efficacy and safety, a vaccine comprising as an antigen the F/G chimeric protein of the present invention confirmed to be more excellent than a vaccine comprising as an antigen RSV F protein alone in view of efficacy and/or safety.

Provided herein are glycosylated ComP proteins, fragments and fusion proteins thereof, and methods of making, for example, for use in the production of conjugate vaccines. Also provided herein are conjugate vaccines against diseases including bacterial diseases.

The present invention includes compositions and methods for the expression, secretion and use of novel compositions for use as, e.g., vaccines and antigen delivery vectors, to delivery antigens to antigen presenting cells. In one embodiment, the vector is an anti-CD40 antibody, or fragments thereof, and one or more antigenic peptides linked to the anti-CD40 antibody or fragments thereof, including humanized antibodies.

Embodiments relate to novel vaccines against human papillomavirus (HPV) and HPV-related diseases, including multiple types of cancers. The HPV vaccines are composed of anti-human dendritic cell (DC) surface receptor antibodies, including CD40, and E6/7 proteins of HPV16 and 18. The technology described is not limited to making vaccines against HPV16- and HPV18-related diseases and can be applied to making vaccines carrying E6/7 from any type of HPV. The HPV vaccines described can target DCs, major and professional antigen presenting cells (APCs), and can induce and activate potent HPV E6/7-specific and strong CD4+ and CD8+ T cell responses. The HPV vaccines can be used for the prevention of HPV infection and HPV-related diseases as well as for the treatment of HPV-related diseases, including cancers.

A fusion protein is provided, comprising i) a biologically active polypeptide; and ii) a half-life extending polypeptide moiety comprising 2-80 units independently selected the amino acid sequences according to SEQ ID NO: 1: X1-X2-X3-X4-X5-X6-D-X8-X9-X10-X11 (SEQ ID NO: 1) in which, independently: X1 is P or absent; X2 is V or absent; X3 is P or T; X4 is P or T; X5 is T or V; X6 is D, G or T; X8 is A, Q or S; X9 is E, G or K; X10 is A, E P or T; and X11 is A, P or T. The half-life extending polypeptide moiety has a generally unfolded conformation and provides a fusion protein with a large hydrodynamic radius that may avoid renal clearance. As a result, the biological half-life of the fusion protein is increased and the biological effect of the biologically active polypeptide may thus be prolonged.