Abstract
Guided by the structural optimization principle and the promising anticancer effect of the quinoxaline nucleus, a new series of novel HDAC inhibitors were designed and synthesized. The synthesized compounds were designed to bear the reported pharmacophoric features of the HDAC inhibitors in addition to an extra moiety to occupy the non-used vacant deep pocket of the HDAC receptor. The newly prepared compounds were evaluated for their in vitro anti-proliferative activities against HepG-2 and HuH-7 liver cancer cell lines. The tested compounds showed promising anti-proliferative activities against both cell lines. The most active ten candidates (6 c, 6 d, 6 f, 6 g, 6 k, 6 l, 7 b, 8, 10 h, and 12) were further evaluated for their effect on the gene expression levels of Bax as an apoptotic marker and Bcl-2 as an anti-apoptotic one. Moreover, they were evaluated for their ability to inhibit histone deacetylase (HDAC1, HDAC4, and HDAC6) activities. Compound 6 c achieved the best cytotoxic activities on both HepG-2 and HuH-7 cell lines with IC50 values of 1.53 and 3.06 µM, respectively, and also it showed the most inhibitory activities on HDAC1, HDAC4, and HDAC6 with IC50 values of 1.76, 1.39, and 3.46 µM, respectively, compared to suberoylanilide hydroxamic acid (SAHA) as a reference drug (IC50 = 0.86, 0.97, and 0.93 µM, respectively). Furthermore, it achieved a more characteristic arrest in the growth of cell population of HepG-2 at both G0/G1 and S phases with 1.23-, and 1.18-fold, respectively, compared to that of the control, as determined by cell cycle analysis. Also, compound 6 c showed a marked elevation in the AnxV-FITC apoptotic HepG-2 cells percentage in both early and late phases increasing the total apoptosis percentage by 9.98-, and 10.81-fold, respectively, compared to the control. Furthermore, docking studies were carried out to identify the proposed binding mode of the synthesized compounds towards the prospective target (HDAC4). In silico ADMET and toxicity studies revealed that most of the synthesized compounds have accepted profiles of drug-likeness with low toxicity. Finally, an interesting SAR analysis was concluded to help the future design of more potent HDACIs in the future by medicinal chemists.
Highlights
Liver cancer, known as hepatic cancer, may start in the liver (Yamashita and Wang, 2013) or spread from elsewhere to the liver, known as liver metastasis (McGuire, 2016)
The results revealed that the treatment of HepG-2 cells with 6c with a concentration of 1.53 μM showed a marked elevation in the AnxV-FITC apoptotic cells percentage in both early and late apoptosis phases (Figure 5)
The synthesized derivatives were found to form nearly the same binding mode compared to the co-crystallized inhibitor (TSA) with an additional extra positioning of the quinoxaline moiety inside the narrow tubular pocket of histone deacetylases (HDACs), which provides a more promising fitting as the N1 of quinoxaline was found to be the zinc-binding group
Summary
Known as hepatic cancer, may start in the liver (Yamashita and Wang, 2013) or spread from elsewhere to the liver, known as liver metastasis (McGuire, 2016). Liver cirrhosis from hepatitis B, hepatitis C, or alcohol is considered the main cause of liver cancer (Perz et al, 2006). The most common types of liver cancer are hepatocellular carcinoma (HCC), which contributes up to 80% of the cases, and cholangiocarcinoma (CCA), which are known as primary liver cancers (PLCs) (McGuire, 2016). One of the most important challenges facing liver cancer types is their high resistance and poor response to chemotherapy. The produced resistance arises from synergistic interactions among diverse mechanisms of chemoresistance (MOC) in which about 100 genes are involved (Marin et al, 2018)
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