Provided are methods and compositions for identifying inhibitors of an interaction between the oncogenic transcription factor MYC and its cofactor TRRAP. The methods involve both cell-based and in vitro approaches for probing an interaction between MYC and TRRAP and for identifying inhibitors of a MYC-TRRAP interaction. Also provided are compounds for use as inhibitors of an interaction between MYC and TRRAP, and methods for developing a cancer therapeutic from such compounds, including methods for derivatizing such inhibitors and for testing the inhibitors and derivatized inhibitors for an ability to treat cancer in a subject. The methods, compounds, and compositions provided herein can provide various advantages, such as a means to target the oncogenic transcription factor MYC in cancer.

Provided are methods and compositions for identifying inhibitors of an interaction between the oncogenic transcription factor MYC and its cofactor TRRAP. The methods involve both cell-based and in vitro approaches for probing an interaction between MYC and TRRAP and for identifying inhibitors of a MYC-TRRAP interaction. Also provided are compounds for use as inhibitors of an interaction between MYC and TRRAP, and methods for developing a cancer therapeutic from such compounds, including methods for derivatizing such inhibitors and for testing the inhibitors and derivatized inhibitors for an ability to treat cancer in a subject. The methods, compounds, and compositions provided herein can provide various advantages, such as a means to target the oncogenic transcription factor MYC in cancer.

Mutations in oncogenes and tumor suppressors contribute to the development and progression of cancer. The present disclosure describes compounds and methods that restore DNA binding affinity of p53 mutants. The compounds of the present disclosure can bind to mutant p53 and restore the ability of the p53 mutant to bind DNA and activate downstream effectors involved in tumor suppression. The disclosed compounds can be used to reduce the progression of cancers that contain a p53 mutation.

Mutations in oncogenes and tumor suppressors contribute to the development and progression of cancer. The present disclosure describes compounds and methods that restore DNA binding affinity of p53 mutants. The compounds of the present disclosure can bind to mutant p53 and restore the ability of the p53 mutant to bind DNA and activate downstream effectors involved in tumor suppression. The disclosed compounds can be used to reduce the progression of cancers that contain a p53 mutation.

The present invention relates to crystalline forms of N-[1-(5-cyano-pyridin-2-ylmethyl)-1H-pyrazol-3-yl]-2-[4-(1-trifluoromethyl-cyclopropyl)-phenyl]-acetamide, pharmaceutical compositions comprising said crystalline forms and their use as T-type calcium channel blockers in the treatment or prevention of diseases or disorders where T-type calcium channels are involved.

The invention provides 2-(substituted phenylhetero) aromatic formate FTO inhibitors, a preparation method thereof, and applications thereof. Specifically, disclosed in the present invention are a 2-(substituted phenylhetero) aromatic formate compound represented by the following formula (I), and a pharmaceutically acceptable salt, a hydrate or a solvate thereof, which can be used as an FTO targeting inhibitor for treating diseases associated with FTO targets, including obesity, metabolic syndrome (MS), type 2 diabetes (T2D), Alzheimer's diseases, and cancers such as breast cancers, small-cell lung cancers, human bone marrow rhabdomyosarcoma, pancreatic cancer, malignant glioblastoma and the like. ##STR00001##

The invention provides 2-(substituted phenylhetero) aromatic formate FTO inhibitors, a preparation method thereof, and applications thereof. Specifically, disclosed in the present invention are a 2-(substituted phenylhetero) aromatic formate compound represented by the following formula (I), and a pharmaceutically acceptable salt, a hydrate or a solvate thereof, which can be used as an FTO targeting inhibitor for treating diseases associated with FTO targets, including obesity, metabolic syndrome (MS), type 2 diabetes (T2D), Alzheimer's diseases, and cancers such as breast cancers, small-cell lung cancers, human bone marrow rhabdomyosarcoma, pancreatic cancer, malignant glioblastoma and the like. ##STR00001##

The present invention relates to a composition capable of preventing or inhibiting axonal degeneration and effectively preventing, improving, or treating various neurological diseases caused by the axonal degeneration.

The present invention relates to a composition capable of preventing or inhibiting axonal degeneration and effectively preventing, improving, or treating various neurological diseases caused by the axonal degeneration.

Pharmaceutical compositions comprising: one or more bromodomain and extra terminal domain (BET) proteolysis targeting chimera (PROTAC) (BET-PROTAC) therapeutic agents or one or more cyclin-dependent kinase 9 (CDK9) PROTAC (CDK9-PROTAC) therapeutic agents; and one or more kinase inhibitors, one or more KRAS inhibitors, or one or more autophagy inhibitors; and methods of treating cancer in a human patient by administering such pharmaceutical compositions are described herein.

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