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Design, Synthesis, and Characterization of Dimeric Lysosomal Inhibitors and Their Effect on Cancer Biology / Michael C. Nicastri.
- Format:
- Book
- Thesis/Dissertation
- Author/Creator:
- Nicastri, Michael C., author.
- Language:
- English
- Subjects (All):
- Chemistry.
- Chemistry--Penn dissertations.
- Penn dissertations--Chemistry.
- Local Subjects:
- Chemistry.
- Chemistry--Penn dissertations.
- Penn dissertations--Chemistry.
- Genre:
- Academic theses.
- Physical Description:
- 1 online resource (603 pages)
- Contained In:
- Dissertation Abstracts International 80-02B(E).
- Place of Publication:
- [Philadelphia, Pennsylvania] : University of Pennsylvania ; Ann Arbor : ProQuest Dissertations & Theses, 2018.
- Language Note:
- English
- System Details:
- Mode of access: World Wide Web.
- text file
- Summary:
- When detected early and surgically removed, melanoma has a cure rate greater than 90%. However, when the cancer is either unresectable or goes undetected until late-stage metastases develop, the five-year survival rate drops to 20%. Unfortunately, the current standard of care suffers from chemotherapeutic resistance, where the outcome results in a high rate of patient mortality. Recent clinical studies have demonstrated hydroxychloroquine-mediated inhibition of autophagy presents a promising strategy as an adjuvant therapy for melanoma treatment. Regrettably, in clinical trials hydroxychloroquine has not demonstrated reliable potency, at the maximum tolerated doses, in producing autophagy inhibition.
- Work by the Winkler and Amaravadi Laboratories has focused on developing a series of dimeric chloroquine-based autophagy inhibitors. Our findings encouraged us to develop a library of dimeric inhibitors, based on hydroxychloroquine and its congener, quinacrine. These not only inhibit autophagy, but also possess single agent anti-cancer activity previously unobserved with small-molecule autophagy inhibitors. Through our efforts we have designed DQ661, a dimeric quinacrine autophagy inhibitor which simultaneously inhibits key drivers of oncogenesis: autophagy, mTOR kinase signaling, and macropinocytosis. We have also discovered an analogous dimeric chloroquine inhibitor, DC661, which is a potent inhibitor of autophagy and cancer cell proliferation. Utilizing these compounds, we have identified a molecular binding partner for our dimeric inhibitors: protein palmitoyl thioesterase 1 (PPT1), a key regulator of palmitoylation within the lysosome. We are currently developing chemical tools to study the role of PPT1 in cancer biology.
- Notes:
- Source: Dissertation Abstracts International, Volume: 80-02(E), Section: B.
- Advisors: Jeffrey D. Winkler; Committee members: William P. Dailey; E. J. Petersson; Amos B. Smith.
- Department: Chemistry.
- Ph.D. University of Pennsylvania 2018.
- Local Notes:
- School code: 0175
- ISBN:
- 9780438424227
- Access Restriction:
- Restricted for use by site license.
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