The elevation of oxidative stress preferentially in cancer cells by inhibiting thioredoxin reductase (TrxR) and/or enhancing reactive oxygen species (ROS) production has emerged as an effective strategy for selectively targeting cancer cells. In this study, we designed and synthesized 21 ligustrazine-curcumin hybrids (10a-u). Biological evaluation indicated that the most active compound 10d significantly inhibited the proliferation of drug-sensitive (A549, SPC-A-1, LTEP-G-2) and drug-resistant (A549/DDP) lung cancer cells but had little effect on nontumor lung epithelial-like cells (HBE). Furthermore, 10d suppressed the TrxR/Trx system and promoted intracellular ROS accumulation and cancer cell apoptosis. Additionally, 10d inhibited the NF-κB, AKT, and ERK signaling, P-gp-mediated efflux of rhodamine 123, P-gp ATPase activity, and P-gp expression in A549/DDP cells. Finally, 10d repressed the growth of implanted human drug-resistant lung cancer in mice. Together, 10d acts a novel TrxR inhibitor and may be a promising candidate for intervention of lung cancer.
Seventeen CDDO-amino acid-NO donor trihybrids (4a-q) were designed and synthesized. Biological evaluation indicated that the most active compound 4c produced high levels of NO and inhibited the proliferation of drug-sensitive (HCT-8, IC50 = 0.294 μM) and drug-resistant (HCT-8/5-FU, IC50 = 0.232 μM) colon cancer cells, which were attenuated by an NO scavenger or typical substrate of PepT1. Furthermore, 4c triggered HCT-8 and HCT-8/5-FU cell apoptosis more strongly than CDDO-Me, inhibited the HIF-1α, Stat3, AKT, and ERK signaling, and induced the nitration of P-gp, MRP1, and BCRP proteins in HCT-8/5-FU cells. Finally, 4c had 4.36-5.53-fold less inhibitory activity against nontumor colon epithelial-like cells (CCD841, IC50 = 1.282 μM) in vitro and inhibited the growth of implanted human drug-resistant colon cancers in mice more potently than CDDO-Me. Together, 4c is a novel trihybrid with potent antitumor activity and may be a promising candidate for the treatment of drug-resistant colon cancer.
A class of O-alkyl derived diazeniumdiolates 3a-f and 4a-c were designed and synthesized as new bioorthogonal NO precursors, which can be effectively uncaged in the presence of a palladium catalyst via bioorthogonal bond cleavage reactions to generate NO in living cancer cells, eliciting potent antiproliferative activity.
γ-Lactam is an important structural motif in a large number of biologically active natural products and synthetic small pharmaceutical molecules. However, there is currently no effective approach to construct γ-lactam ring directly from natural rigid polycyclic amides. Herein, we report a facile methodology for synthesis of a new group of olean-28,13β-lactams (10a-j) from their corresponding amides, promoted by an easily available reagent 2,3-dichloro-5,6-dicyanobenzoquinone (DDQ), through an intramolecular dehydrogenative C-N coupling reaction via a radical ion mechanism. Biological evaluation indicated that the most active lactam 10h displayed potent antiproliferative activity against human cancer cells but 13.84- to 16.92-fold less inhibitory activity on noncancer cells in vitro. In addition, 10h significantly inhibited the growth of implanted prostate cancer in vivo. Furthermore, 10h induced cell cycle arrest and apoptosis and down-regulated the AKT/mTOR signaling in DU-145 cells. Finally, 10h was more stable in rat plasma and human liver microsomes than CDDO-Me and had little hERG channel inhibitory activity. Collectively, 10h may be a potential antiprostate cancer agent for further investigation.
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