• Find People
  • Campus Map
  • PiratePort
  • A-Z
    • About
    • Submit
    • Browse
    • Login
    View Item 
    •   ScholarShip Home
    • ECU Main Campus
    • Thomas Harriot College of Arts and Sciences
    • Chemistry
    • View Item
    •   ScholarShip Home
    • ECU Main Campus
    • Thomas Harriot College of Arts and Sciences
    • Chemistry
    • View Item
    JavaScript is disabled for your browser. Some features of this site may not work without it.

    Browse

    All of The ScholarShipCommunities & CollectionsDateAuthorsTitlesSubjectsTypeDate SubmittedThis CollectionDateAuthorsTitlesSubjectsTypeDate Submitted

    My Account

    Login

    Statistics

    View Google Analytics Statistics

    Elucidating "Consumption" : Using Fluorescent Steroid Probes to Understand Host Cholesterol Utilization by Mycobacterium spp.

    Thumbnail
    View/ Open
    Wercholuk_ecu_0600O_11243.pdf (6.239Mb)

    Show full item record
    Author
    Wercholuk, Ashley N.
    Abstract
    Mycobacterium tuberculosis (Mtb), the causative agent of tuberculosis (TB) disease, is the leading cause of death due to bacterial infection worldwide, claiming nearly two million lives each year. Often, the immune system cannot eradicate the bacteria and the disease progresses into a latent state characterized by the presence of granulomas, which are lesions formed in order to prevent bacterial dissemination. This state of infection can persist for years. Current research has shown that the utilization of host cholesterol by M. tuberculosis plays a crucial role in the tenacity of this organism during latent infection. Understanding the mechanisms of cholesterol acquisition and degradation could provide researchers with novel platforms for the strategic development of anti-mycobacterial drugs. In order to further understand the pathways employed by M. tuberculosis during cholesterol utilization, a series of fluorescently labeled cholesterol analogues were synthesized by tethering cholesterol chloroformate to 1,8-naphthalimide moieties via a carbamate linkage. The analogues and their 4-amino-1,8-naphthalimide precursors were found to be intensely fluorescent in nonpolar environments such as dichloromethane and liposomes comprised of POPC. Their in vitro effects were evaluated using the Mtb research model M. smegmatis. Bacterial growth curves were consistent with active incorporation and degradation of the fluorescently labeled cholesterol compounds, while inhibitory effects were observed for the unconjugated naphthalimide fluorophores. Current studies are focused on the isolation and identification of cholesterol/fluorophore metabolites to help elucidate the mechanism of uptake and decomposition of these compounds. Preliminary results of these metabolite experiments are discussed with relation to the observed effects on M. smegmatis growth.
    URI
    http://hdl.handle.net/10342/4528
    Subject
     Chemistry, Biochemistry; Chemistry, Organic; Microbiology; Cholesterol--metabolism; Fluorescence; M. smegmatis; Naphthalimide; Synthesis; Biology, Microbiology; Organic chemistry; Biochemistry 
    Date
    2014
    Citation:
    APA:
    Wercholuk, Ashley N.. (January 2014). Elucidating "Consumption" : Using Fluorescent Steroid Probes to Understand Host Cholesterol Utilization by Mycobacterium spp. (Master's Thesis, East Carolina University). Retrieved from the Scholarship. (http://hdl.handle.net/10342/4528.)

    Display/Hide MLA, Chicago and APA citation formats.

    MLA:
    Wercholuk, Ashley N.. Elucidating "Consumption" : Using Fluorescent Steroid Probes to Understand Host Cholesterol Utilization by Mycobacterium spp.. Master's Thesis. East Carolina University, January 2014. The Scholarship. http://hdl.handle.net/10342/4528. December 04, 2023.
    Chicago:
    Wercholuk, Ashley N., “Elucidating "Consumption" : Using Fluorescent Steroid Probes to Understand Host Cholesterol Utilization by Mycobacterium spp.” (Master's Thesis., East Carolina University, January 2014).
    AMA:
    Wercholuk, Ashley N.. Elucidating "Consumption" : Using Fluorescent Steroid Probes to Understand Host Cholesterol Utilization by Mycobacterium spp. [Master's Thesis]. Greenville, NC: East Carolina University; January 2014.
    Collections
    • Chemistry
    • Master's Theses
    Publisher
    East Carolina University

    xmlui.ArtifactBrowser.ItemViewer.elsevier_entitlement

    East Carolina University has created ScholarShip, a digital archive for the scholarly output of the ECU community.

    • About
    • Contact Us
    • Send Feedback