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Antiproliferative Activity of Piceamycin by Regulating Alpha-Actinin-4 in Gemcitabine-Resistant Pancreatic Cancer Cells

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Authors

Lee, Jee-Hyung; Choi, Jin Ho; Lee, Kyung-Min; Lee, Min Woo; Ku, Ja-Lok; Oh, Dong-Chan; Shin, Yern-Hyerk; Kim, Dae Hyun; Cho, In Rae; Paik, Woo Hyun; Ryu, Ji Kon; Kim, Yong-Tae; Lee, Sang Hyub; Lee, Sang Kook

Issue Date
2024-01
Publisher
한국응용약물학회
Citation
Biomolecules & Therapeutics, Vol.32 No.1, pp.123-135
Abstract
Although gemcitabine-based regimens are widely used as an effective treatment for pancreatic cancer, acquired resistance to gemcitabine has become an increasingly common problem. Therefore, a novel therapeutic strategy to treat gemcitabine-resistant pancreatic cancer is urgently required. Piceamycin has been reported to exhibit antiproliferative activity against various cancer cells; however, its underlying molecular mechanism for anticancer activity in pancreatic cancer cells remains unexplored. There-fore, the present study evaluated the antiproliferation activity of piceamycin in a gemcitabine-resistant pancreatic cancer cell line and patient-derived pancreatic cancer organoids. Piceamycin effectively inhibited the proliferation and suppressed the expression of alpha-actinin-4, a gene that plays a pivotal role in tumorigenesis and metastasis of various cancers, in gemcitabine-resistant cells. Long-term exposure to piceamycin induced cell cycle arrest at the G0 /G1 phase and caused apoptosis. Piceamycin also inhibited the invasion and migration of gemcitabine-resistant cells by modulating focal adhesion and epithelial-mesenchymal transition biomarkers. Moreover, the combination of piceamycin and gemcitabine exhibited a synergistic antiproliferative activity in gemcitabine-resistant cells. Piceamycin also effectively inhibited patient-derived pancreatic cancer organoid growth and induced apoptosis in the organoids. Taken together, these findings demonstrate that piceamycin may be an effective agent for overcoming gemcitabine resistance in pancreatic cancer.
ISSN
1976-9148
URI
https://hdl.handle.net/10371/205128
DOI
https://doi.org/10.4062/biomolther.2023.109
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  • College of Pharmacy
  • Department of Manufacturing Pharmacy
Research Area Chemical biology of natural products, Drug discovery from microbial natural products, Study of insect-microbial symbiosis, 미생물 유래 생리활성 천연물 발굴, 천연물 구조 분석

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