Franklin

Shedding Light on General Anesthesia : Uncovering the Molecular Mechanisms of Propofol and Volatile Anesthestics / Kellie Ann.Woll.

Author/Creator:
Woll, Kellie Ann, author.
Production:
[Philadelphia, Pennsylvania] : University of Pennsylvania, 2017.
Format/Description:
Thesis/Dissertation
Book
xiii, 190 leaves : illustrations ; 29 cm
Local subjects:
Penn dissertations -- Pharmacological sciences.
Pharmacological sciences -- Penn dissertations.
Summary:
General anesthetics have played a pivotal role in the history of medicine. Despite accounts of their use within the earliest of human records, our understanding of anesthetic mechanisms remains unclear. Understanding these molecular mechanisms would be a significant advance toward enhanced drug design and optimal the clinical use of these potentially hazardous agents. Recent advances in chemical and molecular biology, including photoaffinity labeling, have allowed enhanced appreciation of the complex interactions anesthetic's have with their macromolecular substrates. This work is dedicated to further define the protein interactions of the frequently administered volatile anesthetics sevoflurane and isoflurane, as well as the most commonly used intravenous anesthetic, propofol. A novel photoaffinity ligand for sevoflurane was validated and applied to uncover the unique mechanism of sevoflurane positive modulation of mammalian Shaker Kv1.2 channels. This novel sevoflurane photoaffinity ligand was in addition to a previously developed photoaffinity ligand for isoflurane, further applied to determine the anesthetic binding sites within a vital protein target, synaptic GABAA receptors. The molecular recognition elements for propofol-protein interactions were probed using a novel hydrogen-bond null derivative. It was determined that the propofol 1-hydroxyl is key for molecular interactions that contribute to anesthetic endpoints, such as synaptic GABAA receptor positive modulation, while less significant for other known biological effects like decreasing muscle contractility. The range of propofol-binding proteins within synaptosomes was further defined with the synthesis of a novel photoaffinity tandem click chemistry-active ligand and the development of a quantitative affinity-based protein profiling workflow. Results of the investigation indicated a highly complex pool of propofol-specific proteins including an unbiased, selective binding of specific synaptic GABA A receptor subunits. The likely propofol binding cavities and the underlining molecular recognition features that contribute to the selective GABA A receptor subunit binding were examined using molecular dynamics simulations and photoaffinity protection studies. Together these series of studies suggest that general anesthetics bind a to range of molecular substrates that cumulatively result in general anesthesia phenotypes and that multiple, functionally distinct, binding sites can be present within a single protein target.
Notes:
Ph. D. University of Pennsylvania 2017.
Department: Pharmacology.
Supervisor: Max B. Kelz.
Includes bibliographical references.
Contributor:
Kelz, Max B., degree supervisor.
Dmochowski, Ivan J., degree committee member.
Garcia, Benjamin A., degree committee member.
Muzykantov, Vladimir R., degree committee member.
University of Pennsylvania. Department of Pharmacology, degree granting institution.
ISBN:
9780355039177
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