The present disclosure relates to compounds and methods which may be useful as inhibitors of KDM1A for the treatment or prevention of diseases. Methods of inhibition of KDM1A, methods of increasing gamma globin gene expression, and methods to induce differentiation in cancer cells in a human or animal subject are also provided for treatment of disease such as acute myelogenous leukemia.

The present disclosure relates to compounds and methods which may be useful as inhibitors of KDM1A for the treatment or prevention of diseases. Methods of inhibition of KDM1A, methods of increasing gamma globin gene expression, and methods to induce differentiation in cancer cells in a human or animal subject are also provided for treatment of disease such as acute myelogenous leukemia.

Provided are a novel compound having CDK8 and/or CDK19 inhibitory activity, and a production method for Tregs. The treatment of T cells with a CDK8 and/or CDK19 inhibitor induces Foxp3 in the T cells. Foxp3.sup.+ T cells can be induced by treating Foxp3.sup.− T cells with the CDK8 and/or CDK19 inhibitor in vitro. Thus, Tregs can be induced.

Provided are a novel compound having CDK8 and/or CDK19 inhibitory activity, and a production method for Tregs. The treatment of T cells with a CDK8 and/or CDK19 inhibitor induces Foxp3 in the T cells. Foxp3.sup.+ T cells can be induced by treating Foxp3.sup.− T cells with the CDK8 and/or CDK19 inhibitor in vitro. Thus, Tregs can be induced.

Methods are provided for treating a subject having a MYC-driven neoplasia. Aspects of the methods include administering to the subject an amount of an inhibitor of a target gene effective to treat the subject for the MYC-driven neoplasia. Methods are also provided for identifying a MYC-dependent target gene in a MYC-driven neoplasia. Aspects of the method include identifying the MYC-dependent target gene based on a phenotype detected in a first tumor cell line conditionally expressing MYC that is absent or quantitatively different in a second tumor cell line conditionally repressing MYC when the two cell lines are contacted with a CRISPR-based gene silencing agent. Kits and cell lines for practicing the methods of the disclosure are also provided.

Methods are provided for treating a subject having a MYC-driven neoplasia. Aspects of the methods include administering to the subject an amount of an inhibitor of a target gene effective to treat the subject for the MYC-driven neoplasia. Methods are also provided for identifying a MYC-dependent target gene in a MYC-driven neoplasia. Aspects of the method include identifying the MYC-dependent target gene based on a phenotype detected in a first tumor cell line conditionally expressing MYC that is absent or quantitatively different in a second tumor cell line conditionally repressing MYC when the two cell lines are contacted with a CRISPR-based gene silencing agent. Kits and cell lines for practicing the methods of the disclosure are also provided.

The present invention provides heteroaryl ketone fused azadecalin compounds and methods of using the compounds as glucocorticoid receptor modulators.

The present invention provides heteroaryl ketone fused azadecalin compounds and methods of using the compounds as glucocorticoid receptor modulators.

The present invention provides heteroaryl ketone fused azadecalin compounds and methods of using the compounds as glucocorticoid receptor modulators.

A use of a diarylamide compound having the structure as shown in formula (I) or a pharmaceutically acceptable salt thereof in preparing a drug which acts as a urea transporter protein inhibitor, and a novel diarylamide compound. The diarylamide compound has urea transporter protein inhibitor effect, and can produce urea selective diuresis in the body without obvious toxicity.

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