Abstract: A method of treating cancer in a subject, including: providing a subject having a plurality of cancer cells; and administering to the subject, a therapeutically effective amount of a composition including: an HDM-2 binding component; and a membrane resident component, the membrane resident component bound to the HDM-2 binding component. Also provided are a method of selectively necrosing cancer cells, a method of causing membranolysis in cancer cells, and a cancer treatment composition.

Abstract: An aspect of the invention provides a method of selectively necrosing cells, comprising: providing a plurality cells, including at least one cancer cell and at least one non-cancerous cell; and administering to the cells a compound, including an HDM-2 targeting component and a cytotoxic component attached to the HDM-2 targeting component, wherein said compound comprises a membrane-active form.

Abstract: A method of treating cancer in a subject, including: providing a subject having a plurality of cancer cells; and administering to the subject, a therapeutically effective amount of a composition including: an HDM-2 binding component; and a membrane resident component, the membrane resident component bound to the HDM-2 binding component. Also provided are a method of selectively necrosing cancer cells, a method of causing membranolysis in cancer cells, and a cancer treatment composition.

Abstract: The invention relates to novel peptides having an HDM-2 targeting sequence that target the human minute binding protein-2. The invention also relates to fusion proteins comprising a HDM-2 targeting sequence. The invention also relates to methods of using the peptides to treat cancer.

Abstract: The invention relates to novel peptides having an HDM-2 targeting sequence that target the human minute binding protein-2. The invention also relates to fusion proteins comprising a HDM-2 targeting sequence. The invention also relates to methods of using the peptides to treat cancer.

Abstract: Peptides having a human minute binding protein-2 (HDM-2) targeting sequence that target the human minute binding protein-2, fusion proteins having a HDM-2 targeting sequence, and methods of using the peptides and proteins to treat cancer are described.

Abstract: A method of treating cancer in a subject, including: providing a subject having a plurality of cancer cells; and administering to the subject, a therapeutically effective amount of a composition including: an HDM-2 binding component; and a membrane resident component, the membrane resident component bound to the HDM-2 binding component. Also provided are a method of selectively necrosing cancer cells, a method of causing membranolysis in cancer cells, and a cancer treatment composition.

Abstract: An aspect of the invention provides a method of selectively necrosing cells, comprising: providing a plurality cells, including at least one cancer cell and at least one non-cancerous cell; and administering to the cells a compound, including an HDM-2 targeting component and a cytotoxic component attached to the HDM-2 targeting component, wherein said compound comprises a membrane-active form.

Abstract: The invention relates to novel peptides having an HDM-2 targeting sequence that target the human minute binding protein-2. The invention also relates to fusion proteins comprising a HDM-2 targeting sequence. The invention also relates to methods of using the peptides to treat cancer.

Abstract: Peptides having a human minute binding protein-2 (HDM-2) targeting sequence are capable of targeting the human minute binding protein-2. Peptides having an HDM-2 targeting sequence may be used to treat cancer.

Abstract: A method of treating cancer in a subject, including: providing a subject having a plurality of cancer cells; and administering to the subject, a therapeutically effective amount of a composition including: an HDM-2 binding component; and a membrane resident component, the membrane resident component bound to the HDM-2 binding component. Also provided are a method of selectively necrosing cancer cells, a method of causing membranolysis in cancer cells, and a cancer treatment composition.

Abstract: The present invention is directed to an antigen found on the surface of rat and human pancreatic cancer cells and provides antibodies of high specificity and selectivity to this antigen as well as hybridomas secreting the subject antibodies. Methods for both the diagnosis and treatment of pancreatic cancer are also provided. This tissue marker of pancreatic adenocarcinoma, an approximately 43.5 kD surface membrane protein designated PaCa-Ag1, is completely unexpressed in normal pancreas but abundantly expressed in pancreatic carcinoma cells. Moreover, a soluble form of PaCa-Ag1 exists, having a molecular weight about 36 to about 38 kD, that is readily identified in sera and other body fluids of pancreatic cancer patients, using a subject antibody.

Abstract: A method of treating cancer in a subject, including: providing a subject having a plurality of cancer cells; and administering to the subject, a therapeutically effective amount of a composition including: an HDM-2 binding component; and a membrane resident component, the membrane resident component bound to the HDM-2 binding component. Also provided are a method of selectively necrosing cancer cells, a method of causing membranolysis in cancer cells, and a cancer treatment composition.

Abstract: The present invention is directed to an antigen found on the surface of rat and human pancreatic cancer cells and provides antibodies of high specificity and selectivity to this antigen as well as hybridomas secreting the subject antibodies. Methods for both the diagnosis and treatment of pancreatic cancer are also provided. This tissue marker of pancreatic adenocarcinoma, an approximately 43.5 kD surface membrane protein designated PaCa-Ag1, is completely unexpressed in normal pancreas but abundantly expressed in pancreatic carcinoma cells. Moreover, a soluble form of PaCa-Ag1 exists, having a molecular weight about 36 to about 38 kD, that is readily identified in sera and other body fluids of pancreatic cancer patients, using a subject antibody.

Abstract: An aspect of the invention provides a method of selectively necrosing cells, comprising: providing a plurality cells, including at least one cancer cell and at least one non-cancerous cell; and administering to the cells a compound, including an HDM-2 targeting component and a cytotoxic component attached to the HDM-2 targeting component, wherein said compound comprises a membrane-active form.

Abstract: An aspect of the invention provides a method of selectively necrosing cells, comprising: providing a plurality cells, including at least one cancer cell and at least one non-cancerous cell; and administering to the cells a compound, including an HDM-2 targeting component and a cytotoxic component attached to the HDM-2 targeting component, wherein said compound comprises a membrane-active form.

Abstract: An aspect of the invention provides a method of selectively necrosing cells, comprising: providing a plurality cells, including at least one cancer cell and at least one non-cancerous cell; and administering to the cells a compound, including an HDM-2 targeting component and a cytotoxic component attached to the HDM-2 targeting component, wherein said compound comprises a membrane-active form.

Abstract: A method of treating cancer in a subject, including: providing a subject having a plurality of cancer cells; and administering to the subject, a therapeutically effective amount of a composition including: an HDM-2 binding component; and a membrane resident component, the membrane resident component bound to the HDM-2 binding component. Also provided are a method of selectively necrosing cancer cells, a method of causing membranolysis in cancer cells, and a cancer treatment composition.

Abstract: The present invention provides peptides corresponding to all or a portion of amino acid residues 12-26 of human p53 protein, which peptides are lethal to malignant or transformed cells when fused to a membrane-penetrating leader sequence. The subject peptides are thus useful in treating neoplastic disease in an animal, preferably a human. Also provided are pharmaceutical compositions comprising the subject peptides admixed with a pharmaceutical acceptable carrier. Methods of treating neoplastic disease in a patient by administering a subject peptide fused at its carboxy terminal end to a membrane penetrating leader sequence are also provided. The present invention also provides replication incompetent Adenovirus (AdV) vectors comprising a promoter sequence operably linked to a nucleotide sequence encoding a subject peptide. Methods of selectively killing cancer cells in a subject by administering a therapeutically effective amount of a subject AdV vector are also provided by the present invention.

Abstract: The present invention provides peptides corresponding to all or a portion of amino acid residues 12-26 of human p53 protein. When fused to a membrane-penetrating leader sequence, the peptides are either lethal to malignant or transformed cells or else cause reversion to the untransformed morphological phenotype. The subject peptides are thus useful in treating neoplastic disease in an animal, preferably a human. Also provided are pharmaceutical compositions comprising the subject peptides admixed with a pharmaceutical acceptable carrier. Methods of treating neoplastic disease in a patient by administering a subject peptide are also provided.