The present disclosure provides compositions and methods for selectively killing senescent cells, wherein the composition comprises piperlongumine (PL) or derivative thereof. The selective killing of senescent cells may delay aging and/or treat age-related disorders.

The present disclosure provides compositions and methods for selectively killing senescent cells, wherein the composition comprises piperlongumine (PL) or derivative thereof. The selective killing of senescent cells may delay aging and/or treat age-related disorders.

Provided are in vitro and in vivo methods for determining whether a patient with Fabry disease will respond to treatment with a specific pharmacological chaperone.

Provided are in vitro and in vivo methods for determining whether a patient with Fabry disease will respond to treatment with a specific pharmacological chaperone.

The invention provides for compositions for treating a cancer or an inflammatory disorder comprising a combination of agents in a pharmaceutically acceptable carrier, wherein said agents comprise: (i) a non-covalent DNA binding agent; and (ii) an anti-cancer or anti-inflammatory agent.

The invention provides for compositions for treating a cancer or an inflammatory disorder comprising a combination of agents in a pharmaceutically acceptable carrier, wherein said agents comprise: (i) a non-covalent DNA binding agent; and (ii) an anti-cancer or anti-inflammatory agent.

The invention provides for compositions for treating a cancer or an inflammatory disorder comprising a combination of agents in a pharmaceutically acceptable carrier, wherein said agents comprise: (i) a non-covalent DNA binding agent; and (ii) an anti-cancer or anti-inflammatory agent.

A method of identifying a subject having a solid tumor who is likely to be responsive to a treatment compound, comprising: administering the treatment compound to a subject having the solid tumor; obtaining a sample from the subject; determining the level of a biomarker in the sample from the subject, and diagnosing the subject as being likely to be responsive to the treatment compound if the level of the biomarker in the sample of the subject changes as compared to a reference level of the biomarker.

A method of identifying a subject having a solid tumor who is likely to be responsive to a treatment compound, comprising: administering the treatment compound to a subject having the solid tumor; obtaining a sample from the subject; determining the level of a biomarker in the sample from the subject, and diagnosing the subject as being likely to be responsive to the treatment compound if the level of the biomarker in the sample of the subject changes as compared to a reference level of the biomarker.

Some aspects of the invention include attenuating DNMT1 inhibitor activity in an animal comprising administering an antioxidant. Other aspects of the invention include methods comprising administering a composition comprising a DNMT1 inhibitor and an antioxidant. In some instances in the methods, the animal is undergoing a treatment for cancer. Additional aspects of the invention include compositions comprising a DNMT1 inhibitor and an antioxidant.