Aging is the greatest known risk factor for Alzheimer’s Disease (AD); however, the molecular mechanisms underlying aging and how it can initiate and or exacerbate AD, is still unknown. Epigenetic regulation has been widely accepted to play an essential role in aging or AD-related processes; however, whether dysregulations of histone...
Aging is the greatest known risk factor for Alzheimer’s Disease (AD); however, the molecular mechanisms underlying aging and how it can initiate and or exacerbate AD, is still unknown. Epigenetic regulation has been widely accepted to play an essential role in aging or AD-related processes; however, whether dysregulations of histone...
In nearly all Eukaryotes, the membrane-enclosed nucleus contains the vast majority of the cellular genome. Within this sub-cellular compartment, the nuclear architecture facilitates genomic chromatin organization. Controlling chromosomal loci’s spatial positioning relative to subnuclear structures and each other can have local and global effects on gene expression. Moreover, chromatin organization...
Human complex diseases such as common cancers and diabetes are characterized by high molecular heterogeneity contributed by both genetic and non- genetic factors. This molecular heterogeneity can not only complicate diagnosis, risk stratification and patient care, but also lead to differential therapeutic response and treatment efficiency. Therefore, understanding the molecular...
Iron is an essential nutrient and is critical for cellular growth and metabolism. Here, we delineate a novel mechanism by which iron alters amino acid homeostasis and mTOR activity by remodeling the cellular epigenetic landscape. We find that iron deficiency inactivates Jumonji-C domain containing histone-demethylases, resulting in histone hyper-methylation and...
The histone methyltransferase DOT1L methylates lysine 79 (K79) on histone H3 and is implicated in active transcription. Here we show that DOT1L is overexpressed in Prostate cancer (PCa) and is associated with poor clinical outcome. Genetic and chemical inhibition of DOT1L selectively impaired viability of androgen receptor (AR)-signaling competent PCa...
Epigenetics is the study of chromatin-based events that regulate gene expression without the change of DNA sequence, including DNA methylation, histone modification and chromatin remodeling. Epigenetic regulators are encoded to modify chromatin in a highly regulated and dynamic manner. A growing number of studies have suggested the dysregulation of epigenetic...