Tumor necrosis factor-related apoptosis-inducing ligand (TRAIL) is a potential target for cancer therapy, owing to its ability to selectively kill cancer cells without causing significant toxicity to normal cells. However, due to the lack of death receptor expression, cancer cells can become highly resistant to TRAIL. Hence, it is vital to develop agents that restore TRAIL efficacy. Sertraline is an antidepressant drug with anticancer properties. To the best of our knowledge, this is the first study to demonstrate that sertraline inhibits autophagic flux and increases the expression of death receptor 5 (DR5) on TRAIL-resistant lung cancer cells. Inhibition of autophagy using autophagy inhibitors 3-methyladenine and chloroquine upregulated the expression of DR5 and enhanced TRAIL-induced apoptosis, as confirmed by the increase of pro-apoptotic proteins caspase-8 and caspase-3. Silencing DR5 expression using DR5 small interfering RNA prevented sertraline-induced TRAIL-mediated apoptosis, indicating the role of DR5 in TRAIL-mediated apoptosis. Overall, sertraline enhanced TRAIL-mediated apoptosis via the downregulation of AMP-activated protein kinase phosphorylation, resulting in the inhibition of autophagic flux, upregulation of DR5 expression, and activation of the apoptotic caspase cascade. These data suggested that sertraline could be used to sensitize human lung cancer cells to TRAIL, while also serving as a therapeutic option in cancer patients with depression.
Background/Aim: The antidepressant duloxetine is known as a serotonin-norepinephrine reuptake inhibitor, used for treating depression and anxiety. TRAIL selectively induces cell death in a variety of tumor cells by binding to its membrane death receptor (DR). The aim of the study was to examine whether duloxetine affects TRAIL-mediated apoptosis. Materials and Methods: Cell viability and apoptosis was measured by morphological image, crystal violet staining, MTT and LDH assay. Immunocytochemistry and western blotting techniques were applied to detect autophagy and apoptosis indicator proteins. TEM assay was used to determine the autophagy. Results: Duloxetine treatment considerably sensitizes human lung adenocarcinoma cells to TRAIL-mediated apoptosis by targeting TRAIL-DR5. Treatment with duloxetine inhibited AMPK phosphorylation and resulted in increased p62 and microtubule-associated protein 1A/1B light chain 3B-II levels, indicating inhibition of autophagy flux. Blockade of DR5 with DR5-specific small-interfering RNA negatively regulated the apoptotic effect. Conclusion: Clinical administration of TRAIL in combination with duloxetine may serve as a therapeutic approach for the treatment of TRAILresistant lung cancer cells.
Tumor necrosis factor-related apoptosis-inducing ligand (TRAIL) is a cytokine with the potential to induce cancer cell-specific apoptosis with minimal toxicity to normal cells. Therefore, the resistance of certain cancer cells to TRAIL is a major concern and agents that can either enhance TRAIL capabilities or overcome TRAIL resistance are necessary for the development of cancer treatments. The present study investigated whether the antidepressant drug amitriptyline could sensitize TRAIL-resistant A549 lung cancer cells and enhance TRAIL-induced apoptosis. Antidepressants are usually prescribed to cancer patients to relieve emotional distress, such as depression or dysthymia. The present study revealed for the first time, to the best of our knowledge, that amitriptyline increased death receptor (DR) 4 and 5 expression, a requirement for TRAIL-induced cell death. Genetic inhibitors of DR4 and DR5 significantly reduced amitriptyline-enhanced TRAIL-mediated apoptosis. Additionally, the present study explored whether blocking autophagy increased DR4 and DR5 expression. Blocking autophagy flux with the final stage autophagy inhibitor chloroquine (CQ) also upregulated DR4 and DR5 expression. TRAIL in combination with amitriptyline or CQ significantly increased the expression of apoptosis-indicator proteins cleaved caspase-8 and caspase-3. The expression levels of LC3-II and p62 were significantly higher in amitriptyline-treated cells, which confirmed that amitriptyline blocks autophagy by inhibiting the fusion of autophagosomes with lysosomes. Overall, the present results contributed to understanding the mechanism responsible for the synergistic anticancer effect of amitriptyline and TRAIL and also presented a novel mechanism involved in DR4 and DR5 upregulation.
POLD1 (DNA polymerase delta 1, catalytic subunit) is a protein-coding gene that encodes the large catalytic subunit (POLD1/p125) of the DNA polymerase delta (Polδ) complex. The consequence of missense or nonsynonymous SNPs (nsSNPs), which occur in the coding region of a specific gene, is the replacement of single amino acid. It may also change the structure, stability, and/or functions of the protein. Mutation in the POLD1 gene is associated with autosomal dominant predisposition to colonic adenomatous polyps, colon cancer, endometrial cancer (EDMC), breast cancer, and brain tumors. These de novo mutations in the POLD1 gene also result in autosomal dominant MDPL syndrome (mandibular hypoplasia, deafness, progeroid features, and lipodystrophy). In this study, genetic variations of POLD1 which may affect the structure and/or function were analyzed using different types of bioinformatics tools. A total of 17038 nsSNPs for POLD1 were collected from the NCBI database, among which 1317 were missense variants. Out of all missense nsSNPs, 28 were found to be deleterious functionally and structurally. Among these deleterious nsSNPs, 23 showed a conservation scale of >5, 2 were predicted to be associated with binding site formation, and one acted as a posttranslational modification site. All of them were involved in coil, extracellular structures, or helix formation, and some cause the change in size, charge, and hydrophobicity.
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