期刊
BIOCHEMICAL ENGINEERING JOURNAL
卷 166, 期 -, 页码 -出版社
ELSEVIER
DOI: 10.1016/j.bej.2020.107834
关键词
Deubiquitinating enzymes; Kinetic modelling; Botanical extract; Fluorometry; Multiple myeloma; mRNA profiling; Artemisia dracunculus L
资金
- National Science Foundation [CBET1509713]
- National Center for Complementary and Integrative Health [P50AT002776]
Deubiquitinating enzyme (DUB)-targeted therapeutics have shown promise as alternative cancer treatments, with the botanical extract PMI-5011 found to positively regulate DUB activity in two multiple myeloma cell lines. Additionally, bioactive compounds in PMI-5011 showed similar effects on DUB activity, suggesting therapeutic potential in cancer treatment.
Deubiquitinating enzyme (DUB)-targeted therapeutics have shown promise in recent years as alternative cancer therapeutics, especially when coupled with proteasome-based inhibitors. While a majority of DUB-based therapeutics function by inhibiting DUB enzymes, studies show that positive regulation of these enzymes can stabilize levels of protein degradation. Unfortunately, there are currently no clinically available therapeutics for this purpose. The goal of this work was to understand the effect of a botanical extract from Artemisia dracunculus L called PMI-5011 on DUB activity in cancer cells. Through a series of kinetic analyses and mathematical modeling, it was found that PMI-5011 positively regulated DUB activity in two model multiple myeloma cells line (OPM2 and MM.1S). This suggests that PMI-5011 interacts with the active domains of DUBs to enhance their activity directly or indirectly, without apparently affecting cellular viability. Similar kinetic profiles of DUB activity were observed with three bioactive compounds in PMI-5011 (DMC-1, DMC-2, davidigenin). Interestingly, a differential cell line-independent trend was observed at higher concentrations which suggested variances in inherent gene expressions of UCHL1, UCHL5, USP7, USP15, USP14, and Rpnl 1 in OPM2 and MM.1S cell lines. These findings highlight the therapeutic potential of PMI-5011 and its selected bioactive compounds in cancer.
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