| Bio | 
| Paper |
Rachael Beach
University of North Carolina at Asheville
Subject Listing - Chemistry
Advisor: Dr. Noah W. Allen, III
Thursday, Poster Session 1, Presentation Kiosk 15 C, Health & Fitness Center
INVESTIGATION OF THE PGC-1-ALPHA CO-ACTIVATOR INTERACTING WITH THE HUMAN ESTROGEN RECEPTOR ALPHA
The development of cancer in breast, thyroid, and uterine tissue is largely due to the uncontrolled expression of the estrogen receptor (ER). A well-founded understanding of the various factors and their interplay in the regulation of ER activity is imperative for the development of treatment and prevention strategies for these cancers. This research proposes to focus on the interactions between ERalpha and the co-activator PGC-1-alpha. The PGC-1-alpha actions are less sensitive towards the nature of the bound ligand in the ER, whereas classical co-activators interact with the ER in a highly ligand dependent fashion. Additionally cases have been found where PGC-1-alpha interacts with ER in the absence of a ligand suggesting a binding mode, diverging from that of classical co-activators. Potential co-activator binding interfaces on the ligand binding domain (LBD), DNA binding domain (DBD), and hinge region of the ERalpha are of particular interest here. Single point mutations and changes in rigidity of these interfaces as well as of the complementary interfaces on the co-activator are performed systematically. Interactions are simulated and analyzed, utilizing computational methods such as molecular dynamics, geometry optimization, and visualization. The resulting data should then provide insight into the possible binding modes of the PGC-1-alpha co-activator to the ERalpha. Furthermore, a basis will be established for future in vitro studies.
Advisor: Dr. Noah W. Allen, III, Assistant Professor, Department of Chemistry, University of North Carolina at Asheville, Asheville, NC