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Use of S. pombe to Characterize Mammalian Adenylyl Cyclases and Their Inhibitors

Thesis advisor: Charles Hoffman / The study of mammalian cAMP signaling has often been confounded by the fact that ten different genes encode adenylyl cyclases (ACs) that produce cAMP from ATP and 16 different genes encode phosphodiesterases (PDEs) that hydrolyze cAMP to AMP. In this study, mammalian AC cDNAs were cloned and integrated into strains of the fission yeast Schizosaccharomyces pombe that lack their endogenous AC to determine the basal activity of all ten AC isoforms. In addition, response to the stimulatory mammalian Gsα was determined by co-expression of a mutationally-activated form of the human GNAS1 gene. AC activity was assessed using an fbp1-GFP reporter that is repressed by cAMP production and PKA activity. Results confirm that all ten isoforms have detectable basal activity, and AC1-9 definitively respond to Gsα stimulation. When matched with a sufficiently potent mammalian phosphodiesterase (PDE), strains expressing mammalian ACs make good candidates for small molecule high throughput screening (HTS) to detect AC inhibitors. A 100,000 compound screen was recently performed to detect AC and Gsα inhibitors as well as PDE activators. A promising “hit” was progesterone, which has been previously suggested to inhibit ACs in Xenopus. Initial results suggest that progesterone inhibits AC1 and the closely-related AC3. These data demonstrate the utility of using S. pombe as an effective platform for identifying inhibitors of both basal and GNAS1-stimulated AC activity. / Thesis (BS) — Boston College, 2015. / Submitted to: Boston College. College of Arts and Sciences. / Discipline: Departmental Honors. / Discipline: Biology.

Identiferoai:union.ndltd.org:BOSTON/oai:dlib.bc.edu:bc-ir_104220
Date January 2015
CreatorsGottlieb, Rachel
PublisherBoston College
Source SetsBoston College
LanguageEnglish
Detected LanguageEnglish
TypeText, thesis
Formatelectronic, application/pdf
RightsCopyright is held by the author, with all rights reserved, unless otherwise noted., The full text of this item is available only on campus at Boston College.

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