The present disclosure provides pyrimidine dione compounds, and pharmaceutical compositions thereof, for treating cancer, including solid tumors. The compounds can be used alone or in combination with other anti-cancer agents.

The present disclosure provides pyrimidine dione compounds, and pharmaceutical compositions thereof, for treating cancer, including solid tumors. The compounds can be used alone or in combination with other anti-cancer agents.

Provided are methods, compositions, and cells for use in adoptive cell therapy for the treatment of cancer. The methods involve administering an effective amount of cells to a subject, wherein the cells are modified ex vivo to suppress endogenous Zbtb20 expression and/or activity within the modified cells. The cells may comprise a dominant negative Zbtb20 capable of suppressing endogenous Zbtb20 activity, at least one shRNA capable of suppressing endogenous Zbtb20 expression, or at least one sgRNA capable of suppressing endogenous Zbtb20 expression. The cells may further comprise an exogenous TCR and/or CAR suitable for treating cancer. The method can further involve administering one or more additional cancer therapies, such as cells which express at least one exogenous TCR and/or CAR suitable for treating cancer. The method can provide various advantages, such as a reduction and/or elimination of an amount of cancer cells in the subject.

Provided are methods, compositions, and cells for use in adoptive cell therapy for the treatment of cancer. The methods involve administering an effective amount of cells to a subject, wherein the cells are modified ex vivo to suppress endogenous Zbtb20 expression and/or activity within the modified cells. The cells may comprise a dominant negative Zbtb20 capable of suppressing endogenous Zbtb20 activity, at least one shRNA capable of suppressing endogenous Zbtb20 expression, or at least one sgRNA capable of suppressing endogenous Zbtb20 expression. The cells may further comprise an exogenous TCR and/or CAR suitable for treating cancer. The method can further involve administering one or more additional cancer therapies, such as cells which express at least one exogenous TCR and/or CAR suitable for treating cancer. The method can provide various advantages, such as a reduction and/or elimination of an amount of cancer cells in the subject.

The present disclosure provides a composition, a combination product, a medical device and the like for treating or preventing cancer or a tumor or preventing the recurrence of the cancer or the tumor. The present disclosure provides a composition, a combination product and a medical device for treating or preventing cancer or a tumor or preventing the recurrence of the cancer or the tumor, each of which comprises an immune checkpoint inhibitor and a dendritic cell direct activator or means. In another aspect, the present disclosure provides: a novel cancer treatment method which comprises carrying out a treatment of cancer by employing a combination of a treatment by the administration of an immune checkpoint inhibitor and a treatment for improving the sensitivity to the immune checkpoint inhibitor and, therefore, can be used as an immunotherapy that can be expected to have an excellent therapeutic effect; and a medicine which can be used for the cancer treatment method.

The present disclosure provides a composition, a combination product, a medical device and the like for treating or preventing cancer or a tumor or preventing the recurrence of the cancer or the tumor. The present disclosure provides a composition, a combination product and a medical device for treating or preventing cancer or a tumor or preventing the recurrence of the cancer or the tumor, each of which comprises an immune checkpoint inhibitor and a dendritic cell direct activator or means. In another aspect, the present disclosure provides: a novel cancer treatment method which comprises carrying out a treatment of cancer by employing a combination of a treatment by the administration of an immune checkpoint inhibitor and a treatment for improving the sensitivity to the immune checkpoint inhibitor and, therefore, can be used as an immunotherapy that can be expected to have an excellent therapeutic effect; and a medicine which can be used for the cancer treatment method.

This disclosure is directed, at least in part, to SSTR5 antagonists useful for the treatment of conditions or disorders involving the gut-brain axis. In some embodiments, the SSTR5 antagonists are gut-restricted compounds. In some embodiments, the condition or disorder is a metabolic disorder, such as diabetes, obesity, nonalcoholic steatohepatitis (NASH), or a nutritional disorder such as short bowel syndrome.

The present invention relates to a kit for preparing a nanoparticle composition for drug delivery and, more specifically, to a kit for preparing a nanoparticle composition for drug delivery, which is designed to easily form a nanoparticle in which a drug is encapsulated by simply mixing an amphiphilic block copolymer, a cationic compound, a polylactic acid salt, and the drug that are the components of the kit.

The present invention relates to a kit for preparing a nanoparticle composition for drug delivery and, more specifically, to a kit for preparing a nanoparticle composition for drug delivery, which is designed to easily form a nanoparticle in which a drug is encapsulated by simply mixing an amphiphilic block copolymer, a cationic compound, a polylactic acid salt, and the drug that are the components of the kit.

The field of the invention relates to compositions and methods for treating and/or preventing immune dysfunction.