Abstract: The present disclosure provides an allogeneic whole cell cancer vaccine platform that includes compositions and methods for treating and preventing cancer. Provided herein are compositions containing a therapeutically effective amount of cells from one or more cancer cell lines, some or all of which are modified to (i) inhibit or reduce expression of one or more immunosuppressive factors by the cells, and/or (ii) express or increase expression of one or more immunostimulatory factors by the cells, and/or (iii) express or increase expression of one or more tumor-associated antigens (TAAs), including TAAs that have been mutated, and which comprise cancer cell lines that natively express a heterogeneity of tumor associated antigens and/or neoantigens. Also provided herein are methods of making the vaccine compositions, methods of preparing, and methods of use thereof.

Abstract: The present disclosure provides an allogeneic whole cell cancer vaccine platform that includes compositions and methods for treating and preventing cancer. Provided herein are compositions containing a therapeutically effective amount of cells from one or more cancer cell lines, some or all of which are modified to (i) inhibit or reduce expression of one or more immunosuppressive factors by the cells, and/or (ii) express or increase expression of one or more immunostimulatory factors by the cells, and/or (iii) express or increase expression of one or more tumor-associated antigens (TAAs), including TAAs that have been mutated, and which comprise cancer cell lines that natively express a heterogeneity of tumor associated antigens and/or neoantigens. Also provided herein are methods of making the vaccine compositions, methods of preparing, and methods of use thereof.

Abstract: The present disclosure provides an allogeneic whole cell cancer vaccine platform that includes compositions and methods for treating and preventing cancer. Provided herein are compositions containing a therapeutically effective amount of cells from one or more cancer cell lines, some or all of which are modified to (i) inhibit or reduce expression of one or more immunosuppressive factors by the cells, and/or (ii) express or increase expression of one or more immunostimulatory factors by the cells, and/or (iii) express or increase expression of one or more tumor-associated antigens (TAAs), including TAAs that have been mutated, and which comprise cancer cell lines that natively express a heterogeneity of tumor associated antigens and/or neoantigens. Also provided herein are methods of making the vaccine compositions, methods of preparing, and methods of use thereof.

Abstract: The present disclosure provides an allogeneic whole cell cancer vaccine platform that includes compositions and methods for treating and preventing cancer. Provided herein are compositions containing a therapeutically effective amount of cells from one or more cancer cell lines, some or all of which are modified to (i) inhibit or reduce expression of one or more immunosuppressive factors by the cells, and/or (ii) express or increase expression of one or more immunostimulatory factors by the cells, and/or (iii) express or increase expression of one or more tumor-associated antigens (TAAs), including TAAs that have been mutated, and which comprise cancer cell lines that natively express a heterogeneity of tumor associated antigens and/or neoantigens. Also provided herein are methods of making the vaccine compositions, methods of preparing, and methods of use thereof.

Abstract: The present disclosure provides an allogeneic whole cell cancer vaccine platform that includes compositions and methods for treating and preventing colorectal cancer. Provided herein are compositions containing a therapeutically effective amount of cells from one or more cancer cell lines, some or all of which are modified to (i) inhibit or reduce expression of one or more immunosuppressive factors by the cells, and/or (ii) express or increase expression of one or more immunostimulatory factors by the cells, and/or (iii) express or increase expression of one or more tumor-associated antigens (TAAs), including TAAs that have been mutated, and which comprise cancer cell lines that natively express a heterogeneity of tumor associated antigens and/or neoantigens, and/or (iv) express one or more tumor fitness advantage mutations, including but not limited to driver mutations. Also provided herein are methods of making and preparing the colorectal cancer vaccine compositions and methods of use thereof.

Abstract: The present disclosure provides an allogeneic whole cell cancer vaccine platform that includes compositions and methods for treating and preventing cancer.

Abstract: The present disclosure provides an allogeneic whole cell cancer vaccine platform that includes compositions and methods for treating and preventing breast cancer. Provided herein are compositions containing a therapeutically effective amount of cells from one or more cancer cell lines, some or all of which are modified to (i) inhibit or reduce expression of one or more immunosuppressive factors by the cells, and/or (ii) express or increase expression of one or more immunostimulatory factors by the cells, and/or (iii) express or increase expression of one or more tumor-associated antigens (TAAs), including TAAs that have been mutated, and which comprise cancer cell lines that natively express a heterogeneity of tumor associated antigens and/or neoantigens, and/or (iv) express one or more tumor fitness advantage mutations, including but not limited to driver mutations. Also provided herein are methods of making and preparing the breast cancer vaccine compositions and methods of use thereof.

Abstract: The present disclosure provides an allogeneic whole cell cancer vaccine platform that includes compositions and methods for treating and preventing cancer. Provided herein are compositions containing a therapeutically effective amount of cells from one or more cancer cell lines, some or all of which are modified to (i) inhibit or reduce expression of one or more immunosuppressive factors by the cells, and/or (ii) express or increase expression of one or more immunostimulatory factors by the cells, and/or (iii) express or increase expression of one or more tumor-associated antigens (TAAs), including TAAs that have been mutated, and which comprise cancer cell lines that natively express a heterogeneity of tumor associated antigens and/or neoantigens. Also provided herein are methods of making the vaccine compositions, methods of preparing, and methods of use thereof.

Abstract: The present disclosure provides an allogeneic whole cell cancer vaccine platform that includes compositions and methods for treating and preventing cancer. Provided herein are compositions containing a therapeutically effective amount of cells from one or more cancer cell lines, some or all of which are modified to (i) inhibit or reduce expression of one or more immunosuppressive factors by the cells, and/or (ii) express or increase expression of one or more immunostimulatory factors by the cells, and/or (iii) express or increase expression of one or more tumor-associated antigens (TAAs), including TAAs that have been mutated, and which comprise cancer cell lines that natively express a heterogeneity of tumor associated antigens and/or neoantigens. Also provided herein are methods of making the vaccine compositions, methods of preparing, and methods of use thereof.

Abstract: Provided are engineered cells for adoptive therapy, including NK cells and T cells. Also provided are compositions for engineering and producing the cells, compositions containing the cells, and methods for their administration to subjects. In some embodiments, the cells contain genetically engineered antigen receptors that specifically bind to antigens, such as chimeric antigen receptors (CARs) and costimulatory receptors. In some embodiments, the cells include receptors targeting multiple antigens. In some embodiments, the cells include repression of one or more gene product, for example, by disruption of a gene encoding the gene product. In some embodiments, a gene encoding an antigen recognized by the engineered antigen receptor is disrupted, reducing the likelihood of targeting of the engineered cells. In some embodiments, the antigen recognized by the engineered antigen receptor is related to a tumor antigen recognized by the engineered antigen receptor.

Abstract: Provided are engineered cells for adoptive therapy, including NK cells and T cells. Also provided are compositions for engineering and producing the cells, compositions containing the cells, and methods for their administration to subjects. In some aspects, features of the cells and methods provide specificity and/or efficacy. In some embodiments, the cells contain genetically engineered antigen receptors that specifically bind to antigens, such as chimeric antigen receptors (CARs) and costimulatory receptors. In some embodiments, the cells include receptors targeting multiple antigens. In some embodiments, the cells include repression of one or more gene product, for example, by disruption of a gene encoding the gene product. In some embodiments, a gene encoding an antigen recognized by the engineered antigen receptor is disrupted, reducing the likelihood of targeting of the engineered cells.

Abstract: Provided are engineered cells for adoptive therapy, including NK cells and T cells. Also provided are compositions for engineering and producing the cells, compositions containing the cells, and methods for their administration to subjects. In some embodiments, the cells contain genetically engineered antigen receptors that specifically bind to antigens, such as chimeric antigen receptors (CARs) and costimulatory receptors. In some embodiments, the cells include receptors targeting multiple antigens. In some embodiments, the cells include repression of one or more gene product, for example, by disruption of a gene encoding the gene product. In some embodiments, a gene encoding an antigen recognized by the engineered antigen receptor is disrupted, reducing the likelihood of targeting of the engineered cells. In some embodiments, the antigen recognized by the engineered antigen receptor is related to a tumor antigen recognized by the engineered antigen receptor.

Abstract: Provided are engineered cells for adoptive therapy, including NK cells and T cells. Also provided are compositions for engineering and producing the cells, compositions containing the cells, and methods for their administration to subjects. In some aspects, features of the cells and methods provide specificity and/or efficacy. In some embodiments, the cells contain genetically engineered antigen receptors that specifically bind to antigens, such as chimeric antigen receptors (CARs) and costimulatory receptors. In some embodiments, the cells include receptors targeting multiple antigens. In some embodiments, the cells include repression of one or more gene product, for example, by disruption of a gene encoding the gene product. In some embodiments, a gene encoding an antigen recognized by the engineered antigen receptor is disrupted, reducing the likelihood of targeting of the engineered cells.

Abstract: Provided are engineered cells for adoptive therapy, including NK cells and T cells. Also provided are compositions for engineering and producing the cells, compositions containing the cells, and methods for their administration to subjects. In some embodiments, the cells contain genetically engineered antigen receptors that specifically bind to antigens, such as chimeric antigen receptors (CARs) and costimulatory receptors. In some embodiments, the cells include receptors targeting multiple antigens. In some embodiments, the cells include repression of one or more gene product, for example, by disruption of a gene encoding the gene product. In some embodiments, a gene encoding an antigen recognized by the engineered antigen receptor is disrupted, reducing the likelihood of targeting of the engineered cells. In some embodiments, the antigen recognized by the engineered antigen receptor is related to a tumor antigen recognized by the engineered antigen receptor.

Abstract: Provided are engineered cells for adoptive therapy, including NK cells and T cells. Also provided are compositions for engineering and producing the cells, compositions containing the cells, and methods for their administration to subjects. In some aspects, features of the cells and methods provide specificity and/or efficacy. In some embodiments, the cells contain genetically engineered antigen receptors that specifically bind to antigens, such as chimeric antigen receptors (CARs) and costimulatory receptors. In some embodiments, the cells include receptors targeting multiple antigens. In some embodiments, the cells include repression of one or more gene product, for example, by disruption of a gene encoding the gene product. In some embodiments, a gene encoding an antigen recognized by the engineered antigen receptor is disrupted, reducing the likelihood of targeting of the engineered cells.

Abstract: A method of treating a mammal afflicted with rheumatoid arthritis comprising administering a soluble form of IL-17 receptor is disclosed.

Abstract: The invention provides methods of treating autoimmune and chronic inflammatory conditions by administering agents that hinder the CD30/CD30L interaction, combination treatments, and methods of treating conditions resistant to treatment with TNF? inhibitors by administering agents that inhibit signal transduction by CD30 or IL-1. Included also are treatments involving concurrently administering agents that block the CD30/CD30L interaction and agents that antagonize the IL-4/IL-4R interaction. Additionally provided is an animal model for screening candidate agents for their efficacy in treating conditions that are resistant to treatment with TNF? inhibitors.

Abstract: The invention pertains to methods for treating medical disorders characterized by elevated levels or abnormal expression of IL-18 by administering an IL-18 antagonist, such as soluble IL-18 receptor, a soluble IL-18 binding protein and/or an antibody.

Abstract: Aspects of the present invention provide methods for treating diseases associated with IL-17 mediated inflammatory or immunoregulatory reactions.

Abstract: A method of treating a mammal afflicted with rheumatoid arthritis comprising administering a soluble form of IL-17 receptor is disclosed.