The invention described herein relates to methods and compositions for treating cancer in a patient or a tumor cell by administering an effective amount of an anti-fugetactic agent and an additional anti-cancer agent.

The present invention relates to CX3CR1-binding polypeptides, in particular polypeptides comprising specific immunoglobulin domains. The invention also relates to nucleic acids encoding such polypeptides; to methods for preparing such polypeptides; to host cells expressing or capable of expressing such polypeptides; to compositions comprising such polypeptides; and to uses of such polypeptides or such compositions, in particular for prophylactic, therapeutic and diagnostic purposes.

Provided are compositions and methods for used in solubilizing, stabilizing and expressing proteins. The proteins are fusion proteins that contain a protein of interest. The fusion proteins contain segments of Ribose Binding Protein (RBP) or Maltose Binding Protein (MBP). The fusion proteins can have the RBP or MBP segments flanking the target protein, and the RBP or MBP segments can be in the fusion protein in the same orientation as they normally occur (except for being interrupted by the target protein) or the segments can be permuted. Novel segments of the RBP and MBP are provided and result in improved expression and/or solubility of the proteins. Some examples include one or a combination of two complete or partial Histidine tags. Some examples allow for the target protein to be separated from all or a part of the fusion protein such as by enzymatic or non-enzymatic cleavage.

Disclosed herein are methods and compositions for treating cancer by eliciting an immune response by administering dendritic cells expressing heterologous proteins. In some embodiments, a dendritic cell comprises one or more heterologous nucleic acid molecules encoding for CD40L and CXCL13. In some embodiments, the dendritic cell further comprises a heterologous nucleic acid molecule encoding for CD93. In yet additional embodiments, the dendritic cells expressing heterologous proteins are activated.

The present disclosure relates to CCL22 as a novel T cell target in cancer immunosuppression.

The present invention relates generally to the fields of oncology, virology and immunotherapy. More particularly, it concerns the use of a recombinant modified vaccinia Ankara (MVA) virus comprising an MVA harboring a human Fms-like tyrosine kinase 3 ligand (hFlt3L) (MVA-hFtl3L). The foregoing vaccinia Ankara (MVA) virus can be delivered to tumor cells of a subject afflicted with a malignant solid tumor, to treat the tumor. In a related aspect, the present disclosure concerns a recombinant modified vaccinia Ankara virus with deletion of vaccinia virulence factor E3 (MV At.E3L) modified to express human Fms-like 5 tyrosine kinase 3 ligand (hFlt3L) isolated, suitable for use as an immunotherapeutic agent against a malignant solid tumor.

A ProteAse Released chemoKines protein (PARK) comprises a prochemokine moiety comprising a propeptide moiety fused to a chemokine moiety, wherein the chemokine moiety comprises a N-terminus and a C-terminus; and a targeting moiety linked to the prochemokine moiety, wherein the targeting moiety has a binding specificity to a tumor, fibrosis or Alzheimer's Disease associated antigen or receptor.

The present invention relates to a chemokine expressing cell. Said cell expresses an exogenous IL-21R binding protein or an exogenous IL-21 and an exogenous chemokine. Further provided is a cell expressing an exogenous receptor, an exogenous IL-21R binding protein or an exogenous IL-21 and an exogenous chemokine. The cell involved is not only effective in solid tumor cells in vitro, but also has an excellent killing effect on solid tumor cells in vivo.

The present disclosure relates to antibodies, for example monoclonal antibodies, and their use in clinical patient evaluation and therapy. The present disclosure further relates to a method for modulating the activity of human CXCL-1 protein (hereinafter, referred to as CXCL1). In an aspect, antibodies described herein are capable of being used as a medicament for the prevention and/or treatment of diseases involving CXCL1 function, for example, pathological angiogenesis and inflammatory diseases.

The present invention provides compositions and methods useful for treating disorders amenable to therapy via introduction of multigenic expression vectors. More particularly, the invention provides vectors and polynucleotides encoding polypeptides for treatment of cardiac disorders wherein said polypeptides may comprise a cytokine, a chemokine, and/or an angiogenic polypeptide, or functional derivatives thereof. Also provided, as compositions of the invention, are linkers useful for connecting and expressing functional (biologically active) polypeptides from single, multigenic-expression constructs.