The present invention provides a chimeric cytokine receptor (CCR) comprising: (i) an exodomain which binds to a ligand selected from a tumour secreted factor, a chemokine and a cell-surface antigen; and (ii) a cytokine receptor endodomain.

The present invention relates to methods for reducing or eliminating the non-specific release of a cytokine associated with a disease comprising administering at least one glucocorticoid and an immunostimulating antibody. Additionally, the present invention relates to a pharmaceutical composition that contains at least one immunostimulating antibody and at least one glucocorticoid.

Disclosed herein are methods and compositions for associating a genetic variant with intraretinal fluid. Also disclosed herein are methods and compositions for associating a genetic variant with visual acuity, anatomic outcomes or treatment frequency.

The present invention relates to a pharmaceutical composition for preventing and treating eye diseases, comprising, as an active ingredient, a fusion protein in which a tissue-penetrating peptide and an anti-vascular endothelial growth factor (anti-VEGF) preparation are fused. More particularly, the present invention relates to: a pharmaceutical composition for preventing and treating eye diseases, comprising, as an active ingredient, a fusion protein in which a tissue-penetrating peptide and an anti-VEGF preparation are fused; a method for prepraring an anti-VEGF preparation, which overcomes resistance and has an improved efficacy, the method comprising the steps of transforming a host cell with a recombinant vector comprising a nucleic acid sequence encoding a fusion protein in which a tissue-penetrating peptide and an anti-VEGF preparation are fused, culturing the cell, and recovering a fusion protein from the cell; a method for treating eye diseases, comprising administering an effective dose of the fusion protein according to the present invention to a subject in need thereof; and use of the fusion protein according to the present invention for preparing an agent for treating eye diseases. Compared to conventional anti-VEGF preparations, the composition according to the present invention is considered to have an improved efficacy and be able to be used for treating patients having drug resistance, by inhibiting various growth factors related to new blood vessels, besides VEGF, and by decreasing pericyte coverage. In addition, since drug delivery ability into the choroid tissue is improved when performing an intraocular injection, the composition can be developed as eye drops by reducing an administered dosage or extending an administration cycle, and by improving ocular penetrability.

In some aspects, the invention relates to compositions and methods of generating antigens, wherein the antigen is a biomolecule that is modified by a reactive oxygen species or a reactive nitrogen species. In some aspects, the invention relates to compositions and methods of generating antibodies that bind to biomolecules that have been modified by a reactive oxygen species or a reactive nitrogen species. In some aspects, the invention relates to compositions and methods of generating antibodies that bind to novel epitopes on unmodified biomolecules. In some aspects, the invention relates to the induction of active immunotherapeutic processes (e.g., using preventive or therapeutic vaccines), which may comprise administering neo-antigens generated through methods and compositions described herein.

Materials and methods useful for generating highly mannosylated pseudotyped lentiviral vector particles comprising a Vpx protein are provided.

Embodiments of the invention are described, including materials and methods for making molecules and materials that have a specific binding domain of a PlGF2. Embodiments include, for instance, medicaments, biomaterials, biomolecules, molecular fusions, and vaccines.

Disclosed herein are methods and compositions for associating a genetic variant with intraretinal fluid. Also disclosed herein are methods and compositions for associating a genetic variant with visual acuity, anatomic outcomes or treatment frequency.

Materials and methods useful for generating highly mannosylated pseudotyped lentiviral vector particles comprising a Vpx protein are provided.

The present invention relates to an immunostimulatory composition comprising a) an adjuvant component, comprising or consisting of at least one (m)RNA, complexed with a cationic or polycationic compound, and b) at least one free mRNA, encoding at least one therapeutically active protein, antigen, allergen and/or antibody, wherein the immunostimulatory composition is capable to elicit or enhance an innate and optionally an adaptive immune response in a mammal. The inventive immunostimulatory composition may be a pharmaceutical composition or a vaccine. The invention furthermore relates to a method of preparation of the inventive immunostimulatory composition. The invention also relates to the use of the inventive immunostimulatory composition or its components (for the preparation of a pharmaceutical composition or a vaccine) for the treatment of various diseases. Finally, the invention relates to kits containing the inventive immunostimulatory composition, its components and/or the pharmaceutical composition or vaccine.