The present invention provides methods for treating cancers having a mutation in one or more tumor suppressor genes, comprising providing to a subject in need thereof an inhibitor of a kinase, as well as related methods and compositions.

The present invention provides methods for treating cancers having a mutation in one or more tumor suppressor genes, comprising providing to a subject in need thereof an inhibitor of a kinase, as well as related methods and compositions.

The present invention relates to methods of treating cancer in a patient by administering a compound useful as an inhibitor of ATR protein kinase in combination with a compound useful as an inhibitor of Chk1 protein kinase. The aforementioned combination displays a surprising synergistic effect in treating cancer despite the targeted protein kinases being within the same biological pathway. Moreover, the present invention also relates to methods of treating cancer by administering a compound useful as an inhibitor of ATR protein kinase; administering a compound useful as an inhibitor of Chk1 protein kinase; as well as administering a DNA damaging agent to a patient. The compounds utilized in this invention are represented by formula I and formula II: ##STR00001##
wherein the variables are as defined herein.

The present invention relates to methods of treating cancer in a patient by administering a compound useful as an inhibitor of ATR protein kinase in combination with a compound useful as an inhibitor of Chk1 protein kinase. The aforementioned combination displays a surprising synergistic effect in treating cancer despite the targeted protein kinases being within the same biological pathway. Moreover, the present invention also relates to methods of treating cancer by administering a compound useful as an inhibitor of ATR protein kinase; administering a compound useful as an inhibitor of Chk1 protein kinase; as well as administering a DNA damaging agent to a patient. The compounds utilized in this invention are represented by formula I and formula II: ##STR00001##
wherein the variables are as defined herein.

The present invention relates to methods of treating cancer in a patient by administering a compound useful as an inhibitor of ATR protein kinase in combination with a compound useful as an inhibitor of Chk1 protein kinase. The aforementioned combination displays a surprising synergistic effect in treating cancer despite the targeted protein kinases being within the same biological pathway. Moreover, the present invention also relates to methods of treating cancer by administering a compound useful as an inhibitor of ATR protein kinase; administering a compound useful as an inhibitor of Chk1 protein kinase; as well as administering a DNA damaging agent to a patient. The compounds utilized in this invention are represented by formula I and formula II: ##STR00001##
wherein the variables are as defined herein.

The present disclosure provides polymer conjugates comprising a polymer and an agent, the agent linked to the polymer via a linking group containing a hydrolyzable moiety.

The present disclosure provides polymer conjugates comprising a polymer and an agent, the agent linked to the polymer via a linking group containing a hydrolyzable moiety.

The present disclosure provides antibodies that specifically bind to Mer Tyrosine Kinase (MERTK) (e.g., human MERTK, or both human and mouse MERTK) and compositions comprising such antibodies, wherein said antibody agonizes MERTK signaling on endothelial cells. The present disclosure also provides methods for treating cancer, by administering an antibody that specifically binds to MERTK and agonizes MERTK signaling on endothelial cells.

The present disclosure provides antibodies that specifically bind to Mer Tyrosine Kinase (MERTK) (e.g., human MERTK, or both human and mouse MERTK) and compositions comprising such antibodies, wherein said antibody agonizes MERTK signaling on endothelial cells. The present disclosure also provides methods for treating cancer, by administering an antibody that specifically binds to MERTK and agonizes MERTK signaling on endothelial cells.

The present disclosure provides antibodies that specifically bind to Mer Tyrosine Kinase (MERTK) (e.g., human MERTK, or both human and mouse MERTK) and compositions comprising such antibodies, wherein said antibody agonizes MERTK signaling on endothelial cells. The present disclosure also provides methods for treating cancer, by administering an antibody that specifically binds to MERTK and agonizes MERTK signaling on endothelial cells.