Abstract: The present invention provides pharmacological compounds including an effector moiety conjugated to a binding moiety that directs the effector moiety to a biological target of interest. Likewise, the present invention provides compositions, kits, and methods (e.g., therapeutic, diagnostic, and imaging) including the compounds. The compounds can be described as a protein interacting binding moiety-drug conjugate (SDC-TRAP) compounds, which include a protein interacting binding moiety and an effector moiety. For example, in certain embodiments directed to treating cancer, the SDC-TRAP can include an Hsp90 inhibitor conjugated to a cytotoxic agent as the effector moiety.

Abstract: Conjugates of an active agent attached to a targeting moiety, such as an HSP90 binding moiety, via a linker, and particles comprising such conjugates have been designed. Such conjugates and particles can provide improved temporospatial delivery of the active agent, improved biodistribution and penetration in tumor, and/or decreased toxicity. Methods of making the conjugates, the particles, and the formulations thereof are provided. Methods of administering the formulations to a subject in need thereof are provided, for example, to treat or prevent cancer.

Abstract: Conjugates of an active agent such as DM1 attached to a targeting moiety, such as a somatostatin receptor binding moiety, via a linker, and particles comprising such conjugates have been designed. Such conjugates and particles can provide improved temporospatial delivery of the active agent, improved biodistribution and penetration in tumor, and/or decreased toxicity. Methods of making the conjugates, the particles, and the formulations thereof are provided. Methods of administering the formulations to a subject in need thereof are provided, for example, to treat or prevent cancer.

Abstract: Conjugates of an active agent attached to a targeting moiety, such as an HSP90 binding moiety, via a linker, and particles comprising such conjugates have been designed. Such conjugates and particles can provide improved temporospatial delivery of the active agent, improved biodistribution and penetration in tumor, and/or decreased toxicity. Methods of making the conjugates, the particles, and the formulations thereof are provided. Methods of administering the formulations to a subject in need thereof are provided, for example, to treat or prevent cancer.

Abstract: Conjugates of an active agent such as DM1 attached to a targeting moiety, such as a somatostatin receptor binding moiety, via a linker, and particles comprising such conjugates have been designed. Such conjugates and particles can provide improved temporospatial delivery of the active agent, improved biodistribution and penetration in tumor, and/or decreased toxicity. Methods of making the conjugates, the particles, and the formulations thereof are provided. Methods of administering the formulations to a subject in need thereof are provided, for example, to treat or prevent cancer.

Abstract: Conjugates of an active agent such as DM1 attached to a targeting moiety, such as a somatostatin receptor binding moiety, via a linker, have been designed. Methods of administering the conjugates to a subject in need thereof are provided, for example, to treat or prevent cancer.

Abstract: The invention generally relates to a combination therapy for treating cancer comprising administering at least two distinct therapeutic agents. Components of the combination therapy and methods of using the combination therapy are provided.

Abstract: The present invention provides pharmacological compounds including an effector moiety conjugated to a binding moiety that directs the effector moiety to a biological target of interest. Likewise, the present invention provides compositions, kits, and methods (e.g., therapeutic, diagnostic, and imaging) including the compounds. The compounds can be described as a protein interacting binding moiety-drug conjugate (SDC-TRAP) compounds, which include a protein interacting binding moiety and an effector moiety. For example, in certain embodiments directed to treating cancer, the SDC-TRAP can include an Hsp90 inhibitor conjugated to a cytotoxic agent as the effector moiety.

Abstract: Conjugates of an active agent attached to a targeting moiety, such as an HSP90 binding moiety, via a linker, and particles comprising such conjugates have been designed. Such conjugates and particles can provide improved temporospatial delivery of the active agent, improved biodistribution and penetration in tumor, and/or decreased toxicity. Methods of making the conjugates, the particles, and the formulations thereof are provided. Methods of administering the formulations to a subject in need thereof are provided, for example, to treat or prevent cancer.

Abstract: Conjugates of an active agent such as DM1 attached to a targeting moiety, such as a somatostatin receptor binding moiety, via a linker, and particles comprising such conjugates have been designed. Such conjugates and particles can provide improved temporospatial delivery of the active agent, improved biodistribution and penetration in tumor, and/or decreased toxicity. Methods of making the conjugates, the particles, and the formulations thereof are provided. Methods of administering the formulations to a subject in need thereof are provided, for example, to treat or prevent cancer.

Abstract: The present invention relates to the use of pyrimidylaminobenzamide derivatives for the preparation of a drug for the treatment of systemic mastocytosis.

Abstract: The invention provides a pharmaceutical combination comprising: a) a pyrimidylaminobenzamide compound, and b) imatinib. and a method for treating or preventing a proliferative disease, especially GIST, using such a combination.

Abstract: The present invention relates to the use of pyrimidylaminobenzamide derivatives for the preparation of a drug for the treatment of systemic mastocytosis.

Abstract: The invention provides a pharmaceutical combination comprising: a) a pyrimidylaminobenzamide compound, and b) imatinib. and a method for treating or preventing a proliferative disease, especially GIST, using such a combination.

Abstract: The invention provides a pharmaceutical combination comprising: a) a pyrimidylaminobenzamide compound, and b) imatinib. and a method for treating or preventing a proliferative disease, especially GIST, using such a combination.

Abstract: The invention provides a pharmaceutical combination comprising: a) a pyrimidylaminobenzamide compound, and b) imatinib. and a method for treating or preventing a proliferative disease, especially GIST, using such a combination.

Abstract: The present invention relates to the use of pyrimidylaminobenzamide derivatives for the preparation of a drug for the treatment of systemic mastocytosis.

Abstract: A method of treating breast cancer is disclosed. The method comprises administering an FTI, at least one antihormonal agent (e.g., an aromatase inhibitor, an antiestrogen, and an LHRH analogue), optional chemotherapeutic agents (e.g., Trastuzumab), and optional radiation. For example, the treatment of breast cancer using the FTI and Anastrozole is disclosed. Also disclosed is a method of treating breast cancer using the FTI Anastrozole and Fulvestrant. Also disclosed are pharmaceutical compositions comprising an FTI, at least one antihormonal agent and a pharmaceutically acceptable carrier; and compositions comprising an FTI, at least one antihormonal agent, at least one chemotherapeutic agent, and a pharmaceutically acceptable carrier; and compositions comprising an FTI, at least one chemotherapeutic agent, and a pharmaceutically acceptable carrier.