Abstract: The present invention relates to chimeric and fusion proteins and their compositions, and the use of such proteins and compositions in the prevention and/or treatment diseases or conditions requiring plasminogen supplementation. In one aspect, the invention provides a chimeric or fusion protein comprising plasminogen and an Fc region of an antibody.

Abstract: Methods of stimulating muscle regeneration, comprising delivering to a muscle a CCR5 interacting agent or encoding molecule. The CCR5 interacting agent binds to muscle stem cells and stimulates myoblast proliferation and muscle regeneration. One example of the CCR5 interacting agent is NAMPT comprising a cytokine finger motif or a derivative thereof. Methods and compositions include cellular compositions, which expresses the CCR5 interacting agent; including a population of satellite or macrophage cells or their precursors/progeny and their applications in stem cell therapy or for use in treating a muscular deficiency, disorder or injury. The examples show muscle tissue regeneration with minimal fibrosis. Also enabled is a NAMPT polypeptide fragment comprising a C-terminal portion of NAMPT comprising a cytokine finger.

Abstract: The present invention provides a fusion protein comprising interleukin-1 receptor antagonist (IL-1Ra) and an extracellular matrix (ECM) binding peptide which specifically binds to one or more or all extracellular matrix proteins selected from the group consisting of fibrinogen, fibronectin, vitronectin, tenascin C and heparan sulfate and use of the fusion protein to treat conditions in which administration of IL-1Ra is beneficial or in which IL-1R1 signalling needs to be dampened, to enhance tissue regeneration, particularly bone regeneration and/or wound repair or for treating wounds, burns and muscle, cartilage, tendon and bone disorders, to enhance the regenerative activity of growth factor administration or to reduce inflammation or desensitisation of a cell to growth factor stimulation.

Abstract: 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.

Abstract: Heparin binding peptides derived from a Tenascin (TNC) III1-5 domain or a fibrinogen ?15-66 domain have been found that bind certain cytokines with high affinity. Materials and methods for making compositions and devices using these peptides are disclosed.

Abstract: Heparin binding peptides derived from a Tenascin (TNC) III1-5 domain or a fibrinogen ?15-66 domain have been found that bind certain cytokines with high affinity. Materials and methods for making compositions and devices using these peptides are disclosed.

Abstract: 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.