Abstract: The present invention is directed towards isolated antibodies that bind to GRP78. Specifically, compositions comprising anti-GRP78 antigen binding proteins useful in recognition of cancer or tumor cells. Moreover, in some aspects, the anti-GRP78 antigen binding proteins are useful for tumor/cancer-specific delivery of drugs and therapies. In another aspect, the disclosed antigen binding proteins are useful for enhancing radiotherapy in a subject having or suspected of having cancer or a tumor where the antigen binding protein is conjugated to a payload, for example, a therapeutic agent, an imaging agent, or a combination thereof.

Abstract: The disclosure provides antigen binding proteins useful in the recognition of tumor cells and tumor specific delivery of drugs and therapies.

Abstract: The disclosure provides antigen binding proteins useful in the recognition of tumor cells and tumor specific delivery of drugs and therapies.

Abstract: A plastic leaching chamber has an arch shape cross section, corrugations, and one or more hollow pillars extending downwardly within the interior of the chamber, to support the top of the chamber when the chamber is under load during use. Chambers nest within one another to form a stack of chambers for transport or storage. Chambers have peak corrugations which are substantially wider than the intervening valley corrugations. Chambers having different widths and profiles have common size connectors.

Abstract: The present disclosure demonstrates the successful use of constitutive promoters operatively linked to genes encoding radiosensitizing or radioprotecting factors, administered to cells, tissues, or patients in conjunction with radiation exposure. Also disclosed are pharmacological preparations to be used to increase the levels of radiosensitizing compounds such as TNF-?, or radioprotective compounds such as MnSOD, in specified tissues or tumors of a subject.

Abstract: The present invention is directed to novel methods of enhancing the effectiveness of DNA damaging agents by exposing cells to viruses prior to or during exposure to the damaging agent. In certain embodiments of the invention, the DNA damaging agent is ionizing radiation, the virus is an adenovirus, and the increase in cell killing is synergistic when compared to radiation alone.

Abstract: A method for identifying a molecule that binds an irradiated tumor in a subject and molecules identified thereby. In some embodiments, the method includes the steps of (a) exposing a tumor to ionizing radiation; (b) administering to a subject a library of diverse molecules; and (c) isolating from the tumor one or more molecules of the library of diverse molecules, whereby a molecule that binds an irradiated tumor is identified. Also provided are targeting ligands that bind an irradiated tumor and therapeutic and diagnostic methods that employ the disclosed targeting ligands.

Abstract: A method of delivering an active agent to a target tissue, particularly neoplastic tissue, vascular anomaly or tumor tissue, in a vertebrate subject. The method includes the steps of exposing the target tissue to ionizing radiation; and administering a delivery vehicle to the vertebrate subject before, after, during, or combinations thereof, exposing the target tissue to the ionizing radiation. The delivery vehicle includes the active agent and delivers the agent to the target tissue. Representative delivery vehicles include platelets; leukocytes; proteins or peptides which bind activated platelets; antibodies which bind activated platelets; microspheres coated with proteins or peptides which bind activated platelets; liposomes conjugated to proteins or peptides, platelets, or leukocytes which bind activated platelets, or antibodies which bind activated platelets; and combinations thereof.

Abstract: A method for identifying a molecule that binds an irradiated tumor in a subject and molecules identified thereby. In some embodiments, the method includes the steps of (a) exposing a tumor to ionizing radiation; (b) administering to a subject a library of diverse molecules; and (c) isolating from the tumor one or more molecules of the library of diverse molecules, whereby a molecule that binds an irradiated tumor is identified. Also provided are targeting ligands that bind an irradiated tumor and therapeutic and diagnostic methods that employ the disclosed targeting ligands.

Abstract: A method for increasing radiosensitivity of a target tissue in a subject via administration of a PI3K antagonist to a target tissue in a subject. Also provided are methods for suppressing tumor growth and for inhibiting tumor blood vessel growth via administration of a PI3K antagonist.

Abstract: The invention relates generally to methods for inhibiting angiogenesis. More particularly, methods for inhibiting angiogenesis comprise selectively inhibiting phosphoinositide 3-kinase delta (PI3K?) activity in endothelial cells. The methods may comprise administration of one or more cytotoxic therapies including but not limited to radiation, chemotherapeutic agents, photodynamic therapies, radiofrequency ablation, anti-angiogenic agents, and combinations thereof.

Abstract: The present invention provides a DNA molecule comprising a radiation responsive enhancer-promoter operatively linked to an encoding region that encodes at least one polypeptide. An encoding region can comprise a single encoding sequence for a polypeptide or two or more encoding sequences encoding DNA binding, activation or repression domains of a transcription factor. Processes for regulating polypeptide expression and inhibiting tumor growth using such DNA molecules are also provided.

Abstract: A method for assessing cancer susceptibility to molecular targeted therapy. Also provided are methods for in vivo panning of diverse molecules for isolation of targeting ligands that specifically bind an apoptotic cell associated with a responding tumor, targeting ligands identified by the panning methods, and diagnostic and imaging uses therefor.

Abstract: The present invention is directed to novel methods of enhancing the effectiveness of DNA damaging agents by exposing cells to viruses prior to or during exposure to the damaging agent. In certain embodiments of the invention, the DNA damaging agent is ionizing radiation, the virus is an adenovirus, and the increase in cell killing is synergistic when compared to radiation alone.