Abstract: Variant guinea pig L-asparaginases which are truncated and humanized are described as are fusion proteins containing the L-asparaginase and use of the L-asparaginases in the treatment of cancers such as acute lymphoblastic leukemia and acute myeloid leukemia.

Abstract: Variant Erwinia chrysanthemi L-asparaginases with reduced L-glutaminase activity and enhanced in vivo circulation are described as are fusion proteins containing an L-asparaginase and three tandem soluble domains of TRAIL for use in the treatment of cancers such as acute lymphoblastic leukemia and acute myeloid leukemia.

Abstract: Variant guinea pig L-asparaginases which are truncated and humanized are described as are fusion proteins containing the L-asparaginase and use of the L-asparaginases in the treatment of cancers such as acute lymphoblastic leukemia and acute myeloid leukemia.

Abstract: Variant Erwinia chrysanthemi L-asparaginases with reduced L-glutaminase activity and enhanced in vivo circulation are described as are fusion proteins containing an L-asparaginase and three tandem soluble domains of TRAIL for use in the treatment of cancers such as acute lymphoblastic leukemia and acute myeloid leukemia.

Abstract: Provided herein are compounds that bind to dCK and methods for treating cancer.

Abstract: Provided herein are compounds that bind to dCK and methods for treating cancer.

Abstract: Provided herein are compounds that bind to dCK and methods for treating cancer.

Abstract: Provided herein are compounds that bind to dCK and methods for treating cancer.

Abstract: Embodiments of the invention include a PET/SPECT reporter gene system that uses enhanced non-immunogenic versions of a human mitochondrial thymidine kinase 2 expressed in cytoplasm to preferentially trap novel PET/SPECT radiolabeled L and D-enantiomer analogs of the natural substrate thymidine. Such highly sensitive, non-immunogenic reporter genes function in combination with a set of novel, radiolabeled probes in whole body molecular imaging applications using positron emission tomography (PET) or single photon emission computed tomography (SPECT).

Abstract: The invention provides methods for enhancing efficiency of prodrugs by specifically engineered enzymes with altered or enhanced activity and broader substrate specificity towards nucleoside analogs used in cancer chemotherapy, and delivering the enzymes to specific target cells in a patient. The invention also provides modified deoxycytidine kinase (dCK) mutants with such enhanced activities. Furthermore, the invention provides antibody-conjugated enzymes, pharmaceutical composition and kit containing the same, that can be specifically delivered to tumor cells.

Abstract: The invention provides methods for enhancing efficiency of prodrugs by specifically engineered enzymes with altered or enhanced activity and broader substrate specificity towards nucleoside analogs used in cancer chemotherapy, and delivering the enzymes to specific target cells in a patient. The invention also provides modified deoxycytidine kinase (dCK) mutants with such enhanced activities. Furthermore, the invention provides antibody-conjugated enzymes, pharmaceutical composition and kit containing the same, that can be specifically delivered to tumor cells.

Abstract: The invention relates to a composition comprising a stably integrating delivery vector; and a modified mammalian thymidylate kinase (tmpk) wherein the modified mammalian tmpk increases phosphorylation of a prodrug relative to phosphorylation of the prodrug by wild-type human tmpk. The invention also relates to use of these compositions in methods of treatment of diseases such as graft versus host disease and cancer.

Abstract: The invention provides methods for enhancing efficiency of prodrugs by specifically engineered enzymes with enhanced activity towards nucleoside analogs used in cancer chemotherapy, and delivering the enzymes to specific target cells in a patient. The invention also provides modified deoxycytidine kinase (dCK) mutants with such enhanced activity. Furthermore, the invention provides antibody-conjugated enzymes that can be specifically delivered to leukemic blast cells in vivo or ex vivo.

Abstract: The invention relates to a composition comprising: a stably integrating delivery vector; a modified mammalian thymidylate kinase (tmpk) wherein the modified mammalian tmpk increases phosphorylation of a prodrug relative to phosophorylation of the prodrug by wild-type human tmpk. The invention also relates to use of these compositions in methods of treatment of diseases such as graft versus host disease and cancer.

Abstract: The invention relates to a composition comprising: a stably integrating delivery vector; a modified mammalian thymidylate kinase (tmpk) wherein the modified mammalian tmpk increases phosphorylation of a prodrug relative to phosphorylation of the prodrug by wild-type human tmpk. The invention also relates to use of these compositions in methods of treatment of diseaseuuius such as graft versus host disease and cancer.

Abstract: The invention provides methods for enhancing efficiency of prodrugs by specifically engineered enzymes with enhanced activity towards nucleoside analogs used in cancer chemotherapy, and delivering the enzymes to specific target cells in a patient. The invention also provides modified deoxycytidine kinase (dCK) mutants with such enhanced activity. Furthermore, the invention provides antibody-conjugated enzymes that can be specifically delivered to leukemic blast cells in vivo or ex vivo.

Abstract: The invention provides methods for enhancing efficiency of prodrugs by specifically engineered enzymes with enhanced activity towards nucleoside analogs used in cancer chemotherapy, and delivering the enzymes to specific target cells in a patient. The invention also provides modified deoxycytidine kinase (dCK) mutants with such enhanced activity. Furthermore, the invention provides antibody-conjugated enzymes that can be specifically delivered to leukemic blast cells in vivo or ex vivo.

Abstract: The invention provides methods for enhancing efficiency of prodrugs by specifically engineered enzymes with enhanced activity towards nucleoside analogs used in cancer chemotherapy, and delivering the enzymes to specific target cells in a patient. The invention also provides modified deoxycytidine kinase (dCK) mutants with such enhanced activity. Furthermore, the invention provides antibody-conjugated enzymes that can be specifically delivered to leukemic blast cells in vivo or ex vivo.