Synthesis, cytotoxicity and apoptosis‐inducing activity of novel <scp>1<i>H</i></scp>‐benzo[<i>d</i>]imidazole derivatives of dehydroabietic acid

Li, A‐Liang; Yang, Ya-Qun; Wang, Wenyan; Liu, Qing‐Song; Sun, Yue; Gu, Wen

doi:10.1002/jccs.202000075

Cited by 6 publications

(5 citation statements)

References 28 publications

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“…However, compared with that of dehydroabietic acid (IC 50 > 50 µM), it was more toxic to normal cells [87]. Compound 79h was also more cytotoxic against normal human LO2 cell (IC 50 : 42.83 ± 3.18 µM) than dehydroabietic acid (IC 50 > 50 µM) [88]. Based on the above results, when compared with the precursor, the bioactivity of some compounds was significantly improved after structural modifications, but their toxicity against normal human cells was also increased.…”

Section: Structure-activity Relationships Of Dehydroabietic Acid and ...mentioning

confidence: 94%

“…In addition, benzenesulfonamide derivatives (79a−79h) had stronger inhibitory activity than benzamide ones (78a−78h). The most cytotoxic compound 79h (IC 50 : 0.87-9.39 µM) can arrest MCF-7 cells in the S phase through ROS-mediated mitochondrial pathway, and finally induce MCF-7 cell apoptosis [88].…”

Section: Scheme 15 Synthesis Of Compounds 74(a-k)−75(a-k) 77a−77o And...mentioning

confidence: 99%

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Recent Advances on Biological Activities and Structural Modifications of Dehydroabietic Acid

Meng

Wen

et al. 2022

Toxins

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Dehydroabietic acid is a tricyclic diterpenoid resin acid isolated from rosin. Dehydroabietic acid and its derivatives showed lots of medical and agricultural bioactivities, such as anticancer, antibacterial, antiviral, antiulcer, insecticidal, and herbicidal activities. This review summarized the research advances on the structural modification and total synthesis of dehydroabietic acid and its derivatives from 2015 to 2021, and analyzed the biotransformation and structure-activity relationships in order to provide a reference for the development and utilization of dehydroabietic acid and its derivatives as drugs and pesticides.

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Section: Structure-activity Relationships Of Dehydroabietic Acid and ...mentioning

confidence: 94%

Section: Scheme 15 Synthesis Of Compounds 74(a-k)−75(a-k) 77a−77o And...mentioning

confidence: 99%

Recent Advances on Biological Activities and Structural Modifications of Dehydroabietic Acid

Meng

Wen

et al. 2022

Toxins

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“…The cytotoxic and apoptosis-inducing activity of benzimidazole derivatives of dehydroabietic acid ( 100 ; see Figure 9 ) were evaluated against MCF-7, HeLa, and HepG2 cancer cell lines and a normal hepatocyte (LO2) cell line by Li et al [ 185 ]. Among these compounds, 216 displayed the highest activity with IC 50 values of 0.87, 9.39, and 8.31 against MCF-7, HeLa, and HepG2 cell lines, respectively.…”

Section: Anticancer Activities Shown By Imidazole Derivatives Through Undefined Mechanismsmentioning

confidence: 99%

Imidazoles as Potential Anticancer Agents: An Update on Recent Studies

et al. 2021

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Nitrogen-containing heterocyclic rings are common structural components of marketed drugs. Among these heterocycles, imidazole/fused imidazole rings are present in a wide range of bioactive compounds. The unique properties of such structures, including high polarity and the ability to participate in hydrogen bonding and coordination chemistry, allow them to interact with a wide range of biomolecules, and imidazole-/fused imidazole-containing compounds are reported to have a broad spectrum of biological activities. This review summarizes recent reports of imidazole/fused imidazole derivatives as anticancer agents appearing in the peer-reviewed literature from 2018 through 2020. Such molecules have been shown to modulate various targets, including microtubules, tyrosine and serine-threonine kinases, histone deacetylases, p53-Murine Double Minute 2 (MDM2) protein, poly (ADP-ribose) polymerase (PARP), G-quadraplexes, and other targets. Imidazole-containing compounds that display anticancer activity by unknown/undefined mechanisms are also described, as well as key features of structure-activity relationships. This review is intended to provide an overview of recent advances in imidazole-based anticancer drug discovery and development, as well as inspire the design and synthesis of new anticancer molecules.

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“…In addition to inhibiting tubulin polymerization and arresting G2/M phase of the cell cycle, the compound displayed its cytotoxicity against all the cell lines with IC 50 in the range of 0.25 to 1.5 μM [ 61 ]. Using a similar approach, Li et al synthesized a series of imidazole derivatives of dehydroabietic acid and found them to exhibit antitumor activities via cell cycle arrest at the S phase, activation of intracellular ROS and decrease in mitochondrion potential leading to apoptosis [ 62 ]. Among the series, compound 51 exhibited the highest activity against MCF-7 (0.87 μM), HeLa (9.39 μM), and HepG2 cell lines (8.31 μM) [ 62 ].…”

Section: Heterocyclic Compoundsmentioning

confidence: 99%

“…Using a similar approach, Li et al synthesized a series of imidazole derivatives of dehydroabietic acid and found them to exhibit antitumor activities via cell cycle arrest at the S phase, activation of intracellular ROS and decrease in mitochondrion potential leading to apoptosis [ 62 ]. Among the series, compound 51 exhibited the highest activity against MCF-7 (0.87 μM), HeLa (9.39 μM), and HepG2 cell lines (8.31 μM) [ 62 ].…”

Section: Heterocyclic Compoundsmentioning

confidence: 99%

Synthetic and Naturally Occurring Heterocyclic Anticancer Compounds with Multiple Biological Targets

et al. 2021

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Cancer is a complex group of diseases initiated by abnormal cell division with the potential of spreading to other parts of the body. The advancement in the discoveries of omics and bio- and cheminformatics has led to the identification of drugs inhibiting putative targets including vascular endothelial growth factor (VEGF) family receptors, fibroblast growth factors (FGF), platelet derived growth factors (PDGF), epidermal growth factor (EGF), thymidine phosphorylase (TP), and neuropeptide Y4 (NY4), amongst others. Drug resistance, systemic toxicity, and drug ineffectiveness for various cancer chemo-treatments are widespread. Due to this, efficient therapeutic agents targeting two or more of the putative targets in different cancer cells are proposed as cutting edge treatments. Heterocyclic compounds, both synthetic and natural products, have, however, contributed immensely to chemotherapeutics for treatments of various diseases, but little is known about such compounds and their multimodal anticancer properties. A compendium of heterocyclic synthetic and natural product multitarget anticancer compounds, their IC50, and biological targets of inhibition are therefore presented in this review.

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Synthesis, cytotoxicity and apoptosis‐inducing activity of novel 1H‐benzo[d]imidazole derivatives of dehydroabietic acid

Cited by 6 publications

References 28 publications

Recent Advances on Biological Activities and Structural Modifications of Dehydroabietic Acid

Recent Advances on Biological Activities and Structural Modifications of Dehydroabietic Acid

Imidazoles as Potential Anticancer Agents: An Update on Recent Studies

Synthetic and Naturally Occurring Heterocyclic Anticancer Compounds with Multiple Biological Targets

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