The present disclosure provides methods for treating Alzheimer's disease (AD) comprising administering clomipramine or a pharmaceutically acceptable salt thereof. The administration of clomipramine increases the levels of TAp73 and decreases the levels of proliferating cell nuclear antigen (PCNA) and cleaved caspase-3 in the AD patients. The methods of the present disclosure reduce the neurodegeneration and improve the cognitive and functional decline in AD patients.

Compounds, pharmaceutical compositions including the compounds, and methods of preparation and use thereof are disclosed. The compounds are triphenyl methane analogs. The compounds and compositions can be used to treat and/or prevent a wide variety of cancers, including drug resistant cancers, inflammatory, degenerative and vascular diseases, including various ocular diseases, and parasitic infections. Representative triphenyl methane analogs include triphenyl methane analogs of various dyes, hormones, sugars, peptides, oligonucleotides, amino acids, nucleotides, nucleosides, and polyols. The compounds are believed to function by inhibiting tNOX expression, the effects of ROS, and/or the production of HIF2. Thus, the compounds are novel therapeutic agents for a variety of cancers and other diseases.

Compounds, pharmaceutical compositions including the compounds, and methods of preparation and use thereof are disclosed. The compounds are triphenyl methane analogs. The compounds and compositions can be used to treat and/or prevent a wide variety of cancers, including drug resistant cancers, inflammatory, degenerative and vascular diseases, including various ocular diseases, and parasitic infections. Representative triphenyl methane analogs include triphenyl methane analogs of various dyes, hormones, sugars, peptides, oligonucleotides, amino acids, nucleotides, nucleosides, and polyols. The compounds are believed to function by inhibiting tNOX expression, the effects of ROS, and/or the production of HIF2. Thus, the compounds are novel therapeutic agents for a variety of cancers and other diseases.

In one aspect, compounds modulating sirtuin activity are described herein. Sirtuin modulation by compounds described herein includes sirtuin activation and sirtuin inhibition. Modulation of sirtuin activity includes sirtuin activation and/or sirtuin inhibition. In some embodiments, a sirtuin modulating compound and/or salt thereof is of Formula I described herein.

In one aspect, compounds modulating sirtuin activity are described herein. Sirtuin modulation by compounds described herein includes sirtuin activation and sirtuin inhibition. Modulation of sirtuin activity includes sirtuin activation and/or sirtuin inhibition. In some embodiments, a sirtuin modulating compound and/or salt thereof is of Formula I described herein.

In one aspect, compounds modulating sirtuin activity are described herein. Sirtuin modulation by compounds described herein includes sirtuin activation and sirtuin inhibition. Modulation of sirtuin activity includes sirtuin activation and/or sirtuin inhibition. In some embodiments, a sirtuin modulating compound and/or salt thereof is of Formula I described herein.

In one aspect, compounds modulating sirtuin activity are described herein. Sirtuin modulation by compounds described herein includes sirtuin activation and sirtuin inhibition. Modulation of sirtuin activity includes sirtuin activation and/or sirtuin inhibition. In some embodiments, a sirtuin modulating compound and/or salt thereof is of Formula I described herein.

In one aspect, compounds modulating sirtuin activity are described herein. Sirtuin modulation by compounds described herein includes sirtuin activation and sirtuin inhibition. Modulation of sirtuin activity includes sirtuin activation and/or sirtuin inhibition. In some embodiments, a sirtuin modulating compound and/or salt thereof is of Formula I described herein.

In one aspect, compounds modulating sirtuin activity are described herein. Sirtuin modulation by compounds described herein includes sirtuin activation and sirtuin inhibition. Modulation of sirtuin activity includes sirtuin activation and/or sirtuin inhibition. In some embodiments, a sirtuin modulating compound and/or salt thereof is of Formula I described herein.

The disclosure is directed to substituted dibenzo[b,f]azepines of the formula (II): ##STR00001## wherein the variables n, X.sup.3, R.sup.1, R.sup.2, R.sup.4, and R.sup.5 are defined herein, and uses of such compounds to treat conditions including neurodegenerative diseases and cancers.