Abstract: A viral or non-viral vector particle having a modified viral surface protein wherein the viral surface protein is modified to include a targeting polypeptide including a binding region which binds to an extracellular matrix component. Such vector particles are useful in delivering genes encoding therapeutic agents to cells located at the site of an exposed extracellular matrix component.

Abstract: A viral or non-viral vector particle having a modified viral surface protein wherein the viral surface protein is modified to include a targeting polypeptide including a binding region which binds to an extracellular matrix component. Such vector particles are useful in delivering genes encoding therapeutic agents to cells located at the site of an exposed extracellular matrix component.

Abstract: Targeted gene therapeutic systems are provided for the treatment of cancer, including viral particles. The viral particles are engineered to specifically deliver therapeutic or diagnostic agents to a disease site, such as cancer metastatic sites. Localized dosing regimens are provided to treat diseases such as cancer.

Abstract: Methods and compositions for producing targeted delivery vectors are provided. Such vectors are useful for treating neoplastic disorders. Also provided are protocols for administering targeted delivery vectors in a clinical setting such that a therapeutic effect is achieved.

Abstract: The present invention provides a molecular marker for the identification of pluripotent pre-mesenchymal, pre-hematopoietic stem cells. The invention further provides primitive progenitor cells identified by the molecular marker. Such cells have the potential to differentiate into both mesenchymal and hematopoietic phenotypes, as determined by a proliferative response to inductive growth factors and cytokines, and by their morphologic and cytochemical features.

Abstract: This invention provides compositions and methods for treating cancer. More specifically this invention is directed to a targeted retroviral vector comprising a cytokine gene that can be administered either alone or in combination with a targeted retroviral vector comprising a cytocidal gene for treating cancer in a subject. Also provided are a kit or drug delivery system comprising the compositions for use in the methods described.

Abstract: The present invention provides a molecular marker for the identification of pluripotent pre-mesenchymal, pre-hematopoietic stem cells. The invention further provides primitive progenitor cells identified by the molecular marker. Such cells have the potential to differentiate into both mesenchymal and hematopoietic phenotypes, as determined by a proliferative response to inductive growth factors and cytokines, and by their morphologic and cytochemical features.

Abstract: This invention provides compositions and methods for treating cancer. More specifically this invention is directed to a targeted retroviral vector comprising a cytokine gene that can be administered either alone or in combination with a targeted retroviral vector comprising a cytocidal gene for treating cancer in a subject. Also provided are a kit or drug delivery system comprising the compositions for use in the methods described.

Abstract: Systems for pathotropic (disease-seeking) targeted gene delivery are provided, including viral particles with extremely high titers. In particular, the viral particles are engineered to specifically deliver therapeutic or diagnostic agents to a disease site, such as cancer metastic sites. Personalized dosing regimens are also provided to treat diseases such as cancer efficaciously with reduced adverse side effects.

Abstract: A method of treating a tumor (in particular osteosarcoma or Ewing's sarcoma) in a host by administering to a host or to the tumor cells an agent which inhibits cyclin G1 protein in an amount effective to inhibit cyclin G1 protein in tumor cells of the host. The agent may be an antisense polynucleotide which is complementary to at least a portion of a polynucleotide encoding cyclin G1 protein, or an antibody or fragment or derivative thereof which recognizes cyclin G1 protein. Also contemplated within the scope of the present invention are (i) the immortalization of cell lines by transducing cells with a polynucleotide encoding cyclin G1 protein; (ii) increasing the receptiveness of cells to retroviral infection by transducing cells with a polynucleotide encoding cyclin G1 protein; and (iii) the detection of cancer by detecting cyclin G1 protein or a polynucleotide encoding cyclin G1 protein in cells.

Abstract: Systems for pathotropic (disease-seeking) targeted gene delivery are provided, including viral particles with extremely high titers. In particular, the viral particles are engineered to specifically deliver therapeutic or diagnostic agents to a disease site, such as cancer metastic sites. Personalized dosing regimens are also provided to treat diseases such as cancer efficaciously with reduced adverse side effects.

Abstract: The present invention relates to compositions and methods for promoting tissue repair and regeneration. The invention provides a fusion polypeptide useful for targeting tissues for regeneration and methods of use therefore.

Abstract: The present invention relates to compositions and methods for promoting tissue repair and regeneration. The invention provides a fusion polypeptide useful for targeting tissues for regeneration and methods of use therefore.

Abstract: The present invention provides new compositions and methods to induce therapeutic angiogenesis locally utilizing a collagen binding domain to target an angiogenesis modulating agents. Fusion polypeptides containing a collagen binding domain linked to an angiogenesis modulating agent are provided, as are nucleic acid sequences encoding the fusion polypeptides. Also included are methods for locally altering circulation by administering a fusion polypeptide consisting of a collagen binding domain linked to an angiogenesis modulating agent, or by administering a nucleic acid sequences encoding the fusion polypeptide. Tissue grafts in which isolated tissue is treated with a fusion polypeptide consisting of a collagen binding domain linked to an angiogenesis modulating agent, or with a nucleic acid sequences encoding the fusion polypeptide are also provided, as are methods of making the grafts.

Abstract: Methods and compositions for producing targeted delivery vectors are provided. Such vectors are useful for treating neoplastic disorders. Also provided are protocols for administering targeted delivery vectors in a clinical setting such that a therapeutic effect is achieved.

Abstract: The present invention provides a molecular marker for the identification of pluripotent pre-mesenchymal, pre-hematopoietic stem cells. The invention further provides primitive progenitor cells identified by the molecular marker. Such cells have the potential to differentiate into both mesenchymal and hematopoietic phenotypes, as determined by a proliferative response to inductive growth factors and cytokines, and by their morphologic and cytochemical features.

Abstract: A method of treating a tumor (in particular osteosarcoma or Ewing's sarcoma) in a host by administering to a host or to the tumor cells an agent which inhibits cyclin G1 protein in an amount effective to inhibit cyclin G1 protein in tumor cells of the host. The agent may be an antisense polynucleotide which is complementary to at least a portion of a polynucleotide encoding cyclin G1 protein, or an antibody or fragment or derivative thereof which recognizes cyclin G1 protein. Also contemplated within the scope of the present invention are (i) the immortalization of cell lines by transducing cells with a polynucleotide encoding cyclin G1 protein; (ii) increasing the receptiveness of cells to retroviral infection by transducing cells with a polynucleotide encoding cyclin G1 protein; and (iii) the detection of cancer by detecting cyclin G1 protein or a polynucleotide encoding cyclin G1 protein in cells.

Abstract: This invention provides compositions and methods for treating cancer. More specifically this invention is directed to a targeted retroviral vector comprising a cytokine gene that can be administered either alone or in combination with a targeted retroviral vector comprising a cytocidal gene for treating cancer in a subject. Also provided are a kit or drug delivery system comprising the compositions for use in the methods described.

Abstract: The present invention provides new compositions and methods to induce therapeutic angiogenesis locally utilizing a collagen binding domain to target an angiogenesis modulating agents. Fusion polypeptides containing a collagen binding domain linked to an angiogenesis modulating agent are provided, as are nucleic acid sequences encoding the fusion polypeptides. Also included are methods for locally altering circulation by administering a fusion polypeptide consisting of a collagen binding domain linked to an angiogenesis modulating agent, or by administering a nucleic acid sequences encoding the fusion polypeptide. Tissue grafts in which isolated tissue is treated with a fusion polypeptide consisting of a collagen binding domain linked to an angiogenesis modulating agent, or with a nucleic acid sequences encoding the fusion polypeptide are also provided, as are methods of making the grafts.

Abstract: The present invention provides new compositions and methods to induce therapeutic angiogenesis locally utilizing a collagen binding domain to target an angiogenesis modulating agents. Fusion polypeptides containing a collagen binding domain linked to an angiogenesis modulating agent are provided, as are nucleic acid sequences encoding the fusion polypeptides. Also included are methods for locally altering circulation by administering a fusion polypeptide consisting of a collagen binding domain linked to an angiogenesis modulating agent, or by administering a nucleic acid sequences encoding the fusion polypeptide. Tissue grafts in which isolated tissue is treated with a fusion polypeptide consisting of a collagen binding domain linked to an angiogenesis modulating agent, or with a nucleic acid sequences encoding the fusion polypeptide are also provided, as are methods of making the grafts.