Experimental and clinical evidence suggests tumor-associated macrophages (TAM) play important roles in cancer progression. Here, the inventors show that the omentum is a critical pre-metastatic niche for development of invasive disease in this model and defined a unique subset of CD163+ Tim4+ tissue-resident macrophages in omentum of embryonic origin and maintained independently of bone marrow-derived monocytes. Transcriptomic analysis showed that resident CD163+ Tim4+ omental macrophages were phenotypically distinct and maintained their resident identity during tumor growth. Selective depletion of CD163+ Tim4+ macrophages in omentum using genetic and therapeutic tools prevented tumor progression and metastatic spread of disease. The molecular pathways of cross-talk between tissue-resident macrophages and disseminated cancer cells may represent new targets to prevent metastasis and disease recurrence. Thus the present invention relates to a method of treating ovarian cancer, breast cancer and pancreatic cancer in a subject in need thereof comprising administering to the subject a therapeutically effective of an agent capable of depleting the population of CD163+ Tim4+ tumor associated macrophages.

Provided are methods for sensitizing gastrin-associated tumors and/or cancers in subjects to inducers of humoral and cellular immune responses. In some embodiments, the methods relate to administering compositions that have anti-gastrin antibodies, gastrin peptides, and/or nucleic acids that inhibit expression of gastrin gene products to subjects. Also provided are methods for preventing, reducing, and/or eliminating the formation of fibroses associated with tumors and/or cancers, and methods for treating gastrin-associated tumors and/or cancers that include administering to subjects in need thereof a first agent that provides and/or induces an anti-gastrin humoral or cellular immune response in the subject and a second agent that includes one or more stimulators of cellular immune responses against the tumors and/or cancers.

Provided are methods for sensitizing gastrin-associated tumors and/or cancers in subjects to inducers of humoral and cellular immune responses. In some embodiments, the methods relate to administering compositions that have anti-gastrin antibodies, gastrin peptides, and/or nucleic acids that inhibit expression of gastrin gene products to subjects. Also provided are methods for preventing, reducing, and/or eliminating the formation of fibroses associated with tumors and/or cancers, and methods for treating gastrin-associated tumors and/or cancers that include administering to subjects in need thereof a first agent that provides and/or induces an anti-gastrin humoral or cellular immune response in the subject and a second agent that includes one or more stimulators of cellular immune responses against the tumors and/or cancers.

The present invention provides antibodies that bind to the human glucagon receptor, designated GCGR and methods of using same. According to certain embodiments of the invention, the antibodies are fully human antibodies that bind to human GCGR. The antibodies of the invention are useful for lowering blood glucose levels and blood ketone levels and are also useful for the treatment of diseases and disorders associated with one or more GCGR biological activities, including the treatment of diabetes, diabetic ketoacidosis and long-term complications associated with diabetes, or other metabolic disorders characterized in part by elevated blood glucose levels.

The present invention provides antibodies that bind to the human glucagon receptor, designated GCGR and methods of using same. According to certain embodiments of the invention, the antibodies are fully human antibodies that bind to human GCGR. The antibodies of the invention are useful for lowering blood glucose levels and blood ketone levels and are also useful for the treatment of diseases and disorders associated with one or more GCGR biological activities, including the treatment of diabetes, diabetic ketoacidosis and long-term complications associated with diabetes, or other metabolic disorders characterized in part by elevated blood glucose levels.

The present invention provides methods for treating an individual having solid or lymphatic tumor comprising locally administering to the site of the tumor an oncolytic virus, and systemically administering an immunomodulator (including a combination of immunomodulators). The methods may further comprise local administration to the site of the tumor a second immunomodulator (including a combination of immunomodulators). Also provided are compositions and kits for the cancer therapy methods.

The present invention provides methods for treating an individual having solid or lymphatic tumor comprising locally administering to the site of the tumor an oncolytic virus, and systemically administering an immunomodulator (including a combination of immunomodulators). The methods may further comprise local administration to the site of the tumor a second immunomodulator (including a combination of immunomodulators). Also provided are compositions and kits for the cancer therapy methods.

Methods and compositions for altering the microenvironment of a tumor are provided. The methods comprise reducing the population of tumor-residing immune suppressive regulatory T-cells, increasing the population of tumor lysing T-cells (such as CD8+ T-cells) and improving the efficacy of cancer immunotherapy. The compositions comprise the use of cationic lipids optionally combined with autologous antigens, non-autologous antigens, or tumor-associated antigens.

This invention relates to a method for treating cancer by administering a CDK4/6 inhibitor or CDK2/4/6 inhibitor in combination with a 4-1BB agonist and/or an OX40 agonist to a subject in need thereof.

This invention relates to a method for treating cancer by administering a CDK4/6 inhibitor or CDK2/4/6 inhibitor in combination with a 4-1BB agonist and/or an OX40 agonist to a subject in need thereof.