Life Sciences Commons^™

Structural Insights Into Dna Replication And Lesion Bypass By Y Family Dna Polymerases, Kevin N. Kirouac

Electronic Thesis and Dissertation Repository

Y family DNA polymerases are specialized enzymes for replication through sites of DNA damage in the genome. Although the DNA damage bypass activity of these enzymes is important for genome maintenance and integrity, it is also responsible for DNA mutagenesis due to the error-prone nature of the Y family. Understanding how these enzymes select incoming nucleotides during DNA replication will give insight into their role in cancer formation, aging, and evolution. This work attempts to mechanistically explain, primarily through X-ray crystallography and enzymatic activity assays, how Y family polymerases select incoming nucleotides in various DNA replication contexts. Initially, we sought …

Pharmacokinetics And Therapeutic Uses Of Mesna, Murray J. Cutler

Electronic Thesis and Dissertation Repository

In the early 1980s, significant advancement in the safety of ifosfamide therapy was achieved by co-administrating mesna (sodium 2-mercaptoethane sulfonate) to prevent dose-limiting hemorrhagic cystitis. Mesna exerts its protective effect within the urine, where its free sulfhydryl group is able to conjugate cytotoxic metabolites. Within the circulation, however, mesna exists primarily as its inactive disulfide, dimesna. Dimesna is currently undergoing clinical development as a prodrug (BNP7787) to treat cisplatin-induced nephrotoxicity. Remarkably, chemoprotection is achieved without attenuation of efficacy of co-administered anti-cancer agents. This is widely attributed to the kidney-specific disposition and stability of dimesna.

We sought to evaluate the role …