Medical Molecular Biology Commons^™

The Role Of Frabin (Fgd4) In Aggressive Prostate Cancer, Alexia M. Bossan

Honors Undergraduate Theses

A major problem in prostate cancer (PCa) management is the development of drug resistance. It is known that there are changes in PCa biology upon prolonged treatment with drugs, including anti-androgen drugs that alter cellular signaling processes leading to the development of castration resistant PCa. MicroRNAs (miRNAs) are regulatory molecules that modulate gene expression through inhibition of protein translation and modulate cellular functions. Altered expression of miRNAs is often noted in drug resistant cancer including PCa. Studies from our laboratory have identified a number of down-regulated miRNAs in PCa, including miR-l 7-92a miRNAs. Frabin (FGD4) is a target of the …

An Rnai Screen To Identify Components Of A Polyamine Transport System, Adam J. Foley

Honors Undergraduate Theses

Polyamines, specifically putrescine, spermidine, and spermine, are small cationic molecules found in all organisms. Cells can biosynthetically make these molecules, or alternatively, they can be transported from the extracellular environment. Malignant cells have been shown to require relatively high amounts of polyamines. There is a chemotherapeutic agent, DFMO, used to block the biosynthesis of polyamines. Many malignant cells can circumvent DFMO therapy by activating their transport system. A potential solution is to simultaneously block biosynthesis and transport of polyamines. However, little is known about the polyamine transport system in higher eukaryotes.

This thesis aims to add to the basic biological …

Validating Drug Targets Through Inhibition Of Protein-Protein Interactions In Mycobacterium Tuberculosis, Erin C. Driscoll

Honors Undergraduate Theses

Tuberculosis is the leading cause of death by single infectious disease worldwide; novel antibiotics are needed to continue to treat this disease. To goal of this project is to provide proof-of-principle support for the idea that targeting protein-protein interactions (PPI) is an appropriate course for the discovery of new drugs. This study optimized the M-PFC assay, which allows detection of PPI in Mycobacteria, through the use of stronger promoters and inducible expression of a peptide blocker by riboswitch. To accomplish this, promoter induction studies were used to find stronger promoters for the M-PFC, optimization of the riboswitch as a …