Activity In MCF-7 Cells Research Articles

MOLECULAR DOCKING AND BIOLOGICAL ACTIVITY OF N- (4-METHOXY)-BENZOYL-N’-PHENYLTHIOUREA AND N-(4- TRIFLUORO)-BENZOYL-N’-PHENYLTHIOUREA AS ANTIBREAST CANCER CANDIDATES

Current breast cancer therapy does not always work optimally, and cases of resistance have been reported. Therefore, it is imperative to develop new effective drugs with minimal side effects through predictions of the epidermal growth factor receptor (EGFR) signalling pathway inhibition. Among chemicals with the potential as anticancer candidates for breast cancer are phenylthiourea derivatives. In this study, two phenylthiourea derivatives were synthesized: N- (4-methoxy)-benzoyl-N'-phenylthiourea and N-(4-trifluoromethyl)-benzoyl-N'-phenylthiourea. These compounds were docked with the EGFR receptor (code: 1M17.pdb) to predict their cytotoxic activity in silico using AutoDock tools. Furthermore, the microculture tetrazolium technique (MTT) was used to investigate in vitro cytotoxicity against MCF-7 cells. The in silico test revealed that the compounds N-(4-trifluoromethyl)-benzoyl-N'-phenylthiourea and N- (4-methoxy)-benzoyl-N'-phenylthiourea had a binding score of -8.2 and -7.3 kcal/mol, respectively, and the in vitro cytotoxic activity testing showed IC50 values of 0.37 mM and 0.38 mM, demonstrating significant EGFR inhibitory activity in MCF-7 cells. Therefore, it can be concluded that N-(4-trifluoromethyl)-benzoyl-N'-phenylthiourea has better cytotoxic activity than N-(4-methoxy)-benzoyl-N'-phenylthiourea.

Collateral-resistance to estrogen and HER-activated growth is associated with modified AKT, ERα, and cell-cycle signaling in a breast cancer model.

Aim:A model of progressively endocrine-resistant breast cancer was investigated to identify changes that can occur in signaling pathways after endocrine manipulation.Methods:The MCF7 breast cancer model is sensitive to estrogens and anti-estrogens while variant lines previously derived from wild-type MCF7 are either relatively 17β-estradiol (E2 )-insensitive (LCC1) or fully resistant to estrogen and anti-estrogens (LCC9).Results:In LCC1 and LCC9 cell lines, loss of estrogen sensitivity was accompanied by loss of growth response to transforming growth factor alpha (TGFα), heregulin-beta and pertuzumab. LCC1 and LCC9 cells had enhanced AKT phosphorylation relative to MCF7 which was reflected in downstream activation of phospho-mechanistic target of rapamycin (mTOR), phospho-S6, and phospho-estrogen receptor alpha Ser167 [ERα(Ser167)]. Both AKT2 and AKT3 were phosphorylated in the resistant cell lines, but small interfering RNA (siRNA) knockdown suggested that all three AKT isoforms contributed to growth response. ERα(Ser118) phosphorylation was increased by E2 and TGFα in MCF7, by E2 only in LCC1, but by neither in LCC9 cells. Multiple alterations in E2-mediated cell cycle control were identified in the endocrine-resistant cell lines including increased expression of MYC, cyclin A1, cyclin D1, cyclin-dependent kinase 1 (CDK1), CDK2, and hyperphosphorylated retinoblastoma protein (ppRb), whereas p21 and p27 were reduced. Estrogen modulated expression of these regulators in MCF7 and LCC1 cells but not in LCC9 cells. Seliciclib inhibited CDK2 activation in MCF7 cells but not in resistant variants; in all lines, it reduced ppRb, increased p53 associated responses including p21, p53 up-regulated modulator of apoptosis (PUMA), and p53 apoptosis-inducing protein 1 (p53AIP1), inhibited growth, and produced G2/M block and apoptosis.Conclusions:Multiple changes occur with progression of endocrine resistance in this model with AKT activation contributing to E2 insensitivity and loss of ERα(Ser118) phosphorylation being associated with full resistance. Cell cycle regulation is modified in endocrine-resistant breast cancer cells, and seliciclib is effective in both endocrine-sensitive and resistant diseases.

Metallocatanionic vesicle-mediated enhanced singlet oxygen generation and photodynamic therapy of cancer cells.

In clinics, photodynamic therapy (PDT) is established as a non-invasive therapeutic modality for certain types of cancers and skin disease. However, due to poor water solubility, photobleaching, and the dark toxicity of photosensitizers (PSs), further developments are required to improve the efficiency of PDT. Herein, we report the role of metallocatanionic vesicles (MCVs) in enhancing the phototoxicity of methylene blue (MB) against cancer cells. These MCVs were prepared via a facile and quick solution-solution mixing method using a cationic single-chain metallosurfactant (FeCPC I) in combination with anionic sodium oleate (Na Ol). For singlet oxygen (1O2) generation and PDT studies, two fractions of FeCPC I : Na Ol, i.e., 30 : 70 (V37) and 70 : 30 (V73), were chosen based on their long-term stability in aqueous media. A cationic PS MB was loaded into these vesicles. The MB-loaded MCV 30 : 70 and 70 : 30 fractions enhanced the 1O2 generation by 0.10- and 0.40-fold, respectively, compared with MB alone. Upon illumination using a 650 nm laser, these MB-loaded V73 and V37 MCVs significantly decreased the metabolic activity of MCF-7 cells by ≤50% at a concentration of 0.75 μM. Furthermore, the SOSG assay revealed that the synthesized MCVs enhanced the intracellular 1O2 compared with MB alone. The MB-loaded V73 MCVs showed the highest 1O2-mediated membrane damage and cell-killing effect, as confirmed using the differential nuclear staining assay (DNS), which is attributed to the cellular uptake profile of the different MCV fractions. Altogether, this work shows the advantage of using these biocompatible and dual-charge MCVs as promising delivery vehicles that can enhance the 1O2 generation from the PS. This work suggests the future application of these Fe-MCVs in magnetically guided PDT.

Eriocitrin, a dietary flavonoid suppressed cell proliferation, induced apoptosis through modulation of JAK2/STAT3 and JNK/p38 MAPKs signaling pathway in MCF-7 cells.

Eriocitrin, a lemons flavanone, exhibits several biological properties, antiproliferative, and proapoptotic effects. However,its molecular mechanical action is not entirely clarified. Oxidative stress causes abnormal stimulation of signal transducer and activator of transcription 3 (STAT3) and c-Jun NH2-terminal kinase (JNK), p38 mitogen-activated protein kinases (MAPKs) signaling has been strongly connected with the ruling of cell survival and apoptosis of cancer cells. Herein, we investigated an antiproliferative and proapoptotic effect that Eriocitrin modulates STAT3/MAPKs signaling activation in MCF-7 cells. We noticed that Eriocitrin strongly enhances reactive oxygen species (ROS) generation, alteration of mitochondrial outer membrane potential, and enhances apoptotic morphological changes. Furthermore, Eriocitrin suppressed STAT3 phosphorylation via inhibiting an upstream molecule of JAK2 and Src kinase activation, thereby blocking STAT3 nuclear translocation. Similarly, Eriocitrin causes oxidative stress-mediated JNK/p38 MAPK signaling activation. We confirmed that Eriocitrin induced ROS-mediated apoptosis inhibited by the antioxidant substance of N-acetylcysteine. Eriocitrin induced apoptosis via suppression of STAT3 signaling regulated proteins, activating proapoptotic factors Bax, caspase 7, 8, 9 and suppressing Bcl-2, Bcl-x expression in MCF-7 cells. Overall, these results evidenced that Eriocitrin can affect multiple signaling events associated with tumorigenesis. From this evidence, Eriocitrin, a novel chemotherapeutic agent, can be used to treat breast cancer.

In Vitro Investigations of miR-33a Expression in Estrogen Receptor-Targeting Therapies in Breast Cancer Cells.

Simple SummaryAltered metabolic pathways determine the aggressivity of breast cancer cells. To highlight the potential markers gains importance to understand early molecular signatures of disease. microRNAs are the small non-coding RNAs found in different biological samples. Due to the dysregulation of metabolic pathways, the expression and secretion of microRNAs are modulated.(1) Background: Increased fatty acid synthesis leads to the aggressive phenotype of breast cancer and renders efficiency of therapeutics. Regulatory microRNAs (miRNAs) on lipid biosynthesis pathways as miR-33a have potential to clarify the exact mechanism. (2) Methods: We determined miR-33a expression levels following exposure of MCF-7 and MDA-MB-231 breast cancer cells to estrogen receptor (ER) activator (estradiol-17β, E2) or anti-estrogens (ICI 182,780, Fulvestrant, FUL) at non-cytotoxic concentrations. We related miR-33a expression levels in the cells to cellular lipid biosynthesis-related pathways through immunoblotting. (3) Results: miR-33a mimic treatment led to significantly downregulation of fatty acid synthase (FASN) in MCF-7 cells but not in MDA-MB-231 cells in the presence of estradiol-17β (E2) or Fulvestrant (FUL). In contrast to the miR-33a inhibitor effect, miR-33a mimic co-transfection with E2 or FUL led to diminished AMP-activated protein kinase α (AMPKα) activity in MCF-7 cells. E2 increases FASN levels in MDA-MB-231 cells regardless of miR-33a cellular levels. miR-33a inhibitor co-treatment suppressed E2-mediated AMPKα activity in MDA-MB-231 cells. (4) Conclusions: The cellular expression levels of miR-33a are critical to understanding differential responses which include cellular energy sensors such as AMPKα activation status in breast cancer cells.

Christia vespertilionis extract induced antiproliferation and apoptosis in breast cancer (MCF7) cells.

C. vespertiliomis extracts were evaluated for antiproliferative and apoptosis effect on breast cancer (MCF7) cells. The leaves extracts were analysed for its antiproliferative effect on breast cancer (MCF7) cells and normal epithelial breast (MCF 10A) cells using Sulforhodamine B (SRB) assay. The selective extract was evaluated for its ability to induce apoptosis using Annexin V-FITC apoptosis staining and the expression of molecular genes using qualitative reverse transcription-polymerase chain reaction (RT-PCR) against MCF7 cells. Gas chromatography-mass spectrometry (GC-MS) was used to identify the compounds from the selective extract. The findings showed that dichloromethane fraction (CV-Dcm) extract had high antiproliferative effect against MCF7 cells (IC50 = 24µg/mL, selective index (SI) = 8.17). The percentages of apoptosis cells in CV-Dcm-treated MCF7 cells was 58.8%. The CV-Dcm extract induced downregulation of PCNA level. The apoptotic genes were also triggered in both extrinsic and intrinsic signaling pathways, affecting a 1.5-fold increase in BAX, 1.4-fold increase in cytochrome c, 1.3-fold increase in caspase-8, 1.7-fold increase in caspase-3 and 0.5-fold-decrease in BCL-2. Treated MCF7 cells also activated P53-dependent apoptotic death pathway. The present work strongly suggests that high efficacy of CV-Dcm extract was attributed to its antiproliferative and apoptosis-inducing activation in MCF7 cells, most likely due to its favourable compounds.

Hyaluronic acid coated Pluronic F127/Pluronic P123 mixed micelle for targeted delivery of Paclitaxel and Curcumin

The hydrophobicity of most of the anticancer drugs offers a great challenge in selecting a system for their effective transport. Here comes the importance of micelles that offers a hydrophobic core for incorporating these drugs. In this study, Hyaluronic Acid coated Pluronic mixed micelle loaded with Paclitaxel and Curcumin was designed and evaluated its anticancer activity in MCF-7 cells. Pluronic F127 (PF127) and Pluronic P123 (PP123) were taken for preparing the mixed micelles. The targeting ligand folic acid (FA) was conjugated to one end of PP123 forming FA-PP. The end hydroxyl groups of PF127 were oxidized to aldehyde groups resulted in PF-CHO. Mixed micelles were prepared from PF-CHO and FA-PP and the end aldehyde groups were used for coating the micelles with hyaluronic acid. The material was characterized using FTIR, H1NMR, DLS, FE-SEM and TEM. The coated micelles showed spherical shape with drug loading efficiency of 50.15 and 65.05% for Paclitaxel and Curcumin, respectively. In vitro drug release was studied at pH 5.5 and 7.4. Dual drug-loaded material showed higher in-vitro anticancer activity than free Paclitaxel and Curcumin. The results suggested that synthesized mixed micelle with dual drugs showed great potential for targeted delivery to MCF-7 cells.

Thonningiasanguinea Extract: Antioxidant and Cytotoxic Activities Supported by Chemical Composition and Molecular Docking Simulations.

The current study was designed to investigate the antioxidant and cytotoxic activities of Thonningia sanguinea whole-plant extract. The total phenolic content was determined using Folin–Ciocalteu reagent and found to be 980.1 mg/g, calculated as gallic acid equivalents. The antioxidant capacity was estimated for the crude extract and the phenolic portion of T. sanguinea, whereupon both revealed a dose-dependent scavenging rate of DPPH• with EC50 values of 36.33 and 11.14 µg/mL, respectively. Chemical profiling of the plant extract was achieved by LC-ESI-TOF-MS/MS analysis, where 17 compounds were assigned, including ten compounds detected in the negative mode and seven detected in the positive mode. The phenolic portion exhibited promising cytotoxic activity against MCF-7 and HepG2 cells, with IC50 values of 16.67 and 13.51 μg/mL, respectively. Phenolic extract treatment caused apoptosis in MCF-7 cells, with total apoptotic cell death 18.45-fold higher compared to untreated controls, arresting the cell cycle at G2/M by increasing the G2 population by 39.7%, compared to 19.35% for the control. The apoptotic investigation was further validated by the upregulation of proapoptotic genes of P53, Bax, and caspases-3,8 9, and the downregulation of Bcl-2 as the anti-apoptotic gene. Bcl-2 inhibition was also virtualized by good binding interactions through a molecular docking study. Taken together, phenolic extract exhibited promising cytotoxic activity in MCF-7 cells through apoptosis induction and antioxidant activation, so further fractionation studies are recommended for the phenolic extract for specifying the most active compound to be developed as a novel anti-cancer agent.

A new α-pyrone from Arthrinium pseudosinense culture medium and its estrogenic activity in MCF-7 cells.

A new α-pyrone analog, arthrifuranone A (1) was isolated from an EtOAc-extract of Arthrinium pseudosinense culture medium. The isolation workflow was guided by a Molecular Networking-based dereplication strategy. The chemical structure of the new compound was elucidated using MS and NMR spectroscopic techniques, and the absolute configuration was established by the Mosher's method and gauge-including atomic orbital NMR chemical shift calculations, followed by DP4 + analysis. The isolated compound was evaluated for its estrogenic activity using the MCF-7 estrogen responsive human breast cancer cells. Compound 1 showed estrogenic activity by increasing the proliferation of MCF-7 cells at the concentration of 3.125 μM via phosphorylation of estrogen receptor-α.

Interactome analysis of Bag-1 isoforms reveals novel interaction partners in endoplasmic reticulum-associated degradation.

Bag-1 is a multifunctional protein that regulates Hsp70 chaperone activity, apoptosis, and proliferation. The three major Bag-1 isoforms have different subcellular localizations and partly non-overlapping functions. To identify the detailed interaction network of each isoform, we utilized mass spectrometry-based proteomics and found that interactomes of Bag-1 isoforms contained many common proteins, with variations in their abundances. Bag-1 interactomes were enriched with proteins involved in protein processing and degradation pathways. Novel interaction partners included VCP/p97; a transitional ER ATPase, Rad23B; a shuttling factor for ubiquitinated proteins, proteasome components, and ER-resident proteins, suggesting a role for Bag-1 also in ER-associated protein degradation (ERAD). Bag-1 pull-down from cells and tissues from breast cancer patients validated these interactions and showed cancer-related prominence. Using in silico predictions we detected hotspot residues of Bag-1. Mutations of these residues caused loss of binding to protein quality control elements and impaired proteasomal activity in MCF-7 cells. Following CD147 glycosylation pattern, we showed that Bag-1 downregulated VCP/p97-dependent ERAD. Overall, our data extends the interaction map of Bag-1, and broadens its role in protein homeostasis. Targeting the interaction surfaces revealed in this study might be an effective strategy in the treatment of cancer.

Synthesis, structure, and anticancer activity of four silver(I)-N-heterocyclic carbene complexes and one polymer containing quinolin-8-yl groups

Four Ag(I)-N-heterocyclic carbene (NHC) complexes containing quinolin-8-yl groups, viz. Ag(L1)2PF6 (L1 = 1-(quinolin-8-yl)-3-methyl-1H-imidazol-2-ylidene) (7), Ag(L2)2PF6 (L2 = 1-(quinolin-8-yl)-3-benzyl-1H-imidazol-2-ylidene) (8), Ag(L3)2PF6 (L3 = 1-(quinolin-8-yl)-4-methyl-1H-1, 2, 4-triazoline-5-ylidene) (9), and Ag(L4)PF6 (L4 =1-(quinolin-8-yl)-3-methyl-1H-benzimidazolin-2-ylidene) (12), were synthesized from Ag oxide and the corresponding ligand precursors (4, 5, 6, and 11). They were characterized by proton nuclear magnetic resonance (1H NMR) spectroscopy, carbon-13 NMR (13C NMR) spectroscopy, electrospray ionization–mass spectrometry (ESI–MS), elemental analysis (EA), and single-crystal X-ray diffraction (XRD) analysis. X-ray crystallography revealed that complexes 7, 8, and 9 adopted a mononuclear Ag carbene geometry with a linear carbene C–Ag–C bond, whereas 12 exhibited a one-dimensional (1D) linear polymer with carbene C–Ag–C and quinoline N–Ag–N bonds. The structural assignments for 7 and 8 were further supported by density functional theory (DFT) calculations. Complex 9 has a distinct broad absorption at 421 nm, which could be attributed to the conjunctive effect increasing within the substituted quinoline and triazolium rings, and the strong π–π interaction between the intermolecular quinoline and triazolium rings. Study on the in vitro cytotoxic activity of 8, 9, and 12 against breast cancer MCF-7 cells indicated that complex 12 displayed the best anticancer activity in MCF-7 cells at a concentration of 5 × 10−6 mol/L. Additionally, the three Ag-NHC complexes 8, 9, and 12 had significant inhibitory effects on breast cancer cell growth at a concentration of 5 × 10−5 mol/L.

Anti-Tumor Activity and Underlying Mechanism of Phomoxanthone B in MCF7 Cells.

Xanthones are a class of heterocyclic natural products, which are promising sources of anti-cancer leads. Phomoxanthone B (PXB) and Phomoxanthone A(PXA)are xanthone dimers. PXA is wellstudied as an anti-cancer agent, but PXB is not. In our study, PXB was isolated from the endophytic fungus Phomopsis sp. By254. The purpose of this study was to identify the underlying anti-tumor mechanisms of PXB in breast cancer MCF7 cell line. Apoptosis, cell cycle, proliferation, invasion, and migration assays were used to assess the anti-tumor activity of PXB. RNA sequencing was used to analyze the effect of PXB treatment on gene expression in MCF7 cells. PXB showed cytotoxicity towards a variety of tumor cells, especially MCF7 cells. PXB inhibited the migration and invasion, arrested cell cycle at G2/M phase, and induced apoptosis associated with caspase-3 activation in MCF7 cells. The detailed transcriptome analysis revealed that PXB affected several pathways related to tumorigenesis, metabolisms, and oxidative phosphorylation in MCF7 cells. KEGG transcriptome analysis revealed that PXB upregulated pro-survival signal pathways, such as MAPK, PI3K-AKT, and STAT3 pathways. We found that PXB also significantly upregulated the expression of IL24, DDIT3, and XAF1, which may contribute to PXB-induced apoptosis. We further found that PXB may downregulate oxidative phosphorylation by decreasing the expression of electron transport chain genes, especially MT-ND1, which is a potential unfavorable prognostic marker for ER-positive breast cancer. PXB exerts strong cytotoxicity against human tumor cells and has a potential for ER-positive breast cancer treatment.

Antiproliferation Activity and Apoptotic Mechanism of Soursop (Annona muricata L.) Leaves Extract and Fractions on MCF7 Breast Cancer Cells.

IntroductionBreast cancer is the second most common cancer in women globally, and the incidence rate has increased annually. Traditional medicine is frequently used as a cancer treatment, and soursop or Annona muricata L (A. muricata) is a traditional medicinal plant that has been widely used as an anticancer treatment and requires more thorough study.MethodsIn this research, we prepared ethanol extract and three solvents, ie, ethyl acetate, n-hexane and water fractions of A. muricata leaves and assessed their antiproliferation and cytotoxic activity on MCF7 breast cancer cells compared with that on CV1 normal kidney cells; observation of cell morphology by stained with mixture of propidium iodide and 4ʹ,6-diamidino-2-phenylindole indicated that this treatment induced an ongoing process of apoptotic cell death in MCF7 cells. To clarify the cell death mechanism via apoptosis, we assessed the mRNA expression in the caspase cascade of caspase-9, caspase-3, and PARP-1, and anti-apoptotic, Bcl-2 which mediated cytotoxic activity of extracts and ethyl acetate fractions of A. muricata leaves against MCF7 cells.ResultsThe ethanol extract, ethyl acetate, n-hexane, and water fractions of A. muricata leaves had IC50 values of 5.3, 2.86, 3.08, and 48.31 µg/mL, respectively, in MCF7 cells but had no activity in CV1 cells. The high cytotoxic activity of A. muricata leaves was reflected by changes in the morphology of cancer cells that appeared after 6 h exposure to A. muricata leaf extract and ethyl acetate fraction; the membrane and nucleus of cells undergoing apoptosis were characterized by the rupture and loss of membranes and nuclei. The mechanism that mediates this cytotoxic activity in MCF7 cells was mediated through a decrease in the expression of Bcl-2 mRNA and an increase in caspase-9 and caspase-3 mRNA expression.ConclusionTherefore, the leaves of the medicinal plant A. muricata contained compounds that on extraction exerted a highly effective activity as an anticancer treatment for breast cancer via induced apoptotic cell death.

Loading thymoquinone on d -α-tocopherol polyethylene glycol 1000 succinate (TPGS) micelles improves the pro apoptotic properties against breast cancer cells

Thymoquinone (TQ) has been reported in the literature to inhibit different stages of cancer because of its potency. The great potential was shown by nanoparticles (Micelles) as drug carriers of cytotoxic agents. This work aimed to investigate the ability of Micelles based on to enhance TQ cytotoxicity in MCF-7 cells. TQ was loaded using the antisolvent phase separation technique on TPGS Micelles. The prepared TQ TPGS Micelles were investigated for several factors, including size, shape, in vitro release, and cytotoxicity activity in MCF-7 cells. In comparison with either pure TQ or TPGS, TQ-TPGS Micelles revealed spherical shaped Micelles with in vitro TQ sustained release for over 36 h and enhanced cytotoxicity activity in MCF-7 cells. Results of cell cycle analysis showed accumulation of MCF-7 cells in G2 / M, and in MCF-7 cells challenged with TQ TPGS Micelles, pre-G1 phases were observed. A large rise in the percentage of cells for early and late apoptosis, as shown by cells stained with annexin V, in addition to total cell death. TQ formulation in the form of Micelles based on TPGS improved the cellular permeation and apoptotic activity of TQ, contributing to the promise of its cytotoxic activity against MCF-7 cells.

A transposon screen identifies enhancement of NF-κB pathway as a mechanism of resistance to eribulin.

Eribulin mesylate (eribulin) is an efficient microtubule inhibitor that is used for metastatic breast cancer. However, breast cancer can develop resistance to eribulin. This resistance mechanism needs to be elucidated. A transposon mutagenesis screen was conducted using a pPB-SB-CMV-puro-SD plasmid and pCMV-PBase transposase. Viability and cytotoxicity were analyzed by MTT assay and flow cytometry, respectively. Real-time PCR and western blot were used for gene expression analysis. In addition, vivo study was also designed to analyze therapy efficiency. TAB2, which is part of the nuclear factor-kappa B (NF-κB) pathway, was identified as a candidate eribulin-resistant gene. TAB2 down-regulation resulted in significantly lower cell viability and higher cytotoxicity of cells treated with eribulin, while TAB2 up-regulation showed opposite results. Similarly, combination of NF-κB inhibitors [Bay-117082 and QNZ (quinazoline derivative)] with eribulin showed significantly lower cell viability and higher drug cytotoxicity than single agent treatment with eribulin in MDA-MB-231 cells. However, QNZ increased NF-κB activity in MCF7 cells by up-regulating TAB2, which reduced the sensitivity to eribulin. Furthermore, combination of Bay-117082 with eribulin induced greater regression of MDA-MB-231 tumors compared to eribulin monotherapy in vivo. These results consistently illustrated that TAB2-NF-κB pathway may increases resistance to eribulin in breast cancer models. Moreover, these results support the use of a combination strategy of eribulin with NF-κB inhibitors, and provide evidence that transposon mutagenesis screens are capable of identifying drug-resistant genes.

Quercetin 3,5,7,3\u2032,4\u2032-pentamethyl ether from Kaempferia parviflora directly and effectively activates human SIRT1

Sirtuin 1 (SIRT1), an NAD+-dependent deacetylase, is a crucial regulator that produces multiple physiological benefits, such as the prevention of cancer and age-related diseases. SIRT1 is activated by sirtuin-activating compounds (STACs). Here, we report that quercetin 3,5,7,3′,4′-pentamethyl ether (KPMF-8), a natural STAC from Thai black ginger Kaempferia parviflora, interacts with SIRT1 directly and stimulates SIRT1 activity by enhancing the binding affinity of SIRT1 with Ac-p53 peptide, a native substrate peptide without a fluorogenic moiety. The binding affinity between SIRT1 and Ac-p53 peptide was enhanced 8.2-fold by KPMF-8 but only 1.4-fold by resveratrol. The specific binding sites of KPMF-8 to SIRT1 were mainly localized to the helix2–turn–helix3 motif in the N-terminal domain of SIRT1. Intracellular deacetylase activity in MCF-7 cells was promoted 1.7-fold by KPMF-8 supplemented in the cell medium but only 1.2-fold by resveratrol. This work reveals that KPMF-8 activates SIRT1 more effectively than resveratrol does.

Emodin Inhibits the Proliferation of MCF-7 Human Breast Cancer Cells Through Activation of Aryl Hydrocarbon Receptor (AhR).

Natural products have proved to be a promising source for the development of potential anticancer drugs. Emodin, a natural compound from Rheum palmatum, is used to treat several types of cancers, including lung, liver, and pancreatic. However, there are few reports regarding its use in the treatment of breast cancer. Thus, the therapeutic effect and mechanism of emodin on MCF-7 human breast cancer cells were investigated in this study. Morphological observations and cell viability were evaluated to determine the anti-proliferation activity of emodin. Network pharmacology and molecular docking were performed to screen the potential targets. Western blot analysis was used to explore a potential antitumor mechanism. The results showed that emodin (50–100 μmol/L) could significantly inhibit the proliferation of MCF-7 cells in a time and dose-dependent manner. Furthermore, virtual screening studies indicated that emodin was a potent aryl hydrocarbon receptor (AhR) agonist in chemotherapy for breast cancer. Finally, when MCF-7 cells were treated with emodin (100 μmol/L) for 24 h, the AhR and cytochrome P450 1A1 (CYP1A1) protein expression levels were significantly upregulated compared with the control group. Our study indicated that emodin exhibited promising antitumor activity in MCF-7 cells, likely through activation of the AhR-CYP1A1 signaling pathway. These findings lay a foundation for the application of emodin in breast cancer treatment.

The cytotoxic and apoptotic effects of Ferulago W. Koch extracts on various cancer cell lines

Abstract Background The studies investigating the anticancer activities of natural products have accelerated to produce new solutions in the face of increasing cancer cases. Various Ferulago species are reported to exhibit antioxidant, antiulcer and antimicrobial activities. Objective This study aimed to evaluate the cytotoxic and apoptotic activities of ethanolic extracts of roots of five Ferulago species on various human cancer cell lines. Material and methods HPLC analyses were performed by HP Agilent 1,100. The cytotoxicity were determined by MTT assay. The cell cycle arrest and Annexin V binding analyses were performed by Muse Cell Analyzer (Millipore). Results All examined species except F. setifolia inhibited cell viability in PC3 and SW480 cells at 0.01 mg/mL and higher concentrations (p<0.05). Ferulago species inhibited cell cycle at different stages for treated cell lines. The ethanolic extracts of Ferulago species also increased Annexin V binding significantly, resulted in apoptosis (p<0.05%). In this context, F. syriaca showed the highest apoptotic activity in MCF-7 cells by increasing the apoptotic cell population to 23.54 ± 2.10% (p<0.0001). Conclusion The findings of present study have shown that Ferulago species included in the study have potent anticancer effects and this work have the potential to result in further studies.

Significance of Targeting VEGFR-2 and Cyclin D1 in Luminal-A Breast Cancer.

The hormonal luminal-A is the most pre-dominant sub type of breast cancer (BC), and it is associated with a high level of cyclin D1 in Saudi patients. Tamoxifen is the golden therapy for hormonal BC, but resistance of cancer cells to tamoxifen contributes to the recurrence of BC due to many reasons, including high levels of AIB1 and cyclin D1. Overcoming drug resistance could be achieved by exploring alternative targetable therapeutic pathways and new drugs or combinations. The objective of this study was to determine the differentially enriched pathways in 12 samples of Saudi women diagnosed with luminal-A using the PamChip peptide microarray-based kinase activity profiling, and to compare the activity of HAA2020 and dinaciclib with tamoxifen in singles and combinations in the MCF7 luminal-A cell line. Our results of network and pathway analysis of the 12 samples highlighted the importance of VEGFR and CDKs in promoting luminal-A breast cancer. The activation of VEGF signaling via VEGFR-2 leads to activation of PI3K/AKT kinases and an increase of cell survival, and leads to activation of Hsp90, which induces the phosphorylation of FAK1, resulting in cytoskeleton remodeling. PLC-gamma 1 is also activated, leading to FAK-2 and PKC activation. Notably, the G1/S cell cycle phases and phosphorylation processes contribute to the top seven tumorigenesis processes in the 12 samples. Further, the MTT combination of HAA2020 and dinaciclib showed the best combination index (CI), was more clonogenic against MCF7 cells compared to the other combinations, and it also showed the best selectivity index (SI) in normal MRC5 cells. Interestingly, HAA2020 and dinaciclib showed a synergistic apoptotic and G1 cell cycle effect in MCF7 cells, which was supported by their synergistic CDK2, cyclin D1, and PCNA inhibition activities. Additionally, the combination showed VEGFR-2 and Hsp90 inhibition activities in MCF7 cells. The results show the significance of targeting VEGFR-2 and cyclin D1 in Saudi luminal-A breast cancer patients, and the effect of combining HAA2020 and dinaciclib on those targets in the MCF7 model. It also warrants further preclinical and in vivo investigations for the combination of HAA2020 and dinaciclib as a possible future second-line treatment for luminal-A breast cancers.

Identification of Phomoxanthone A and B as Protein Tyrosine Phosphatase Inhibitors.

Phomoxanthone A and B (PXA and PXB) are xanthone dimers and isolated from the endophytic fungus Phomopsis sp. By254. The results demonstrated that PXB and PXA are noncompetitive inhibitors of SHP2 and PTP1B and competitive inhibitors of SHP1. Molecular docking studies showed that PXB and PXA interact with conserved domains of protein tyrosine phosphatases such as the β5-β6 loop, WPD loop, P loop, and Q loop. PXA and PXB could significantly inhibit the cell proliferation in MCF7 cells. Our results indicated that these two compounds do not efficiently inhibit PTP1B and SHP2 activity. RNA sequencing showed that PXA and PXB may inhibit SHP1 activity in MCF7 cells leading to the upregulation of inflammatory factors. In addition to PTP inhibition, PXA and PXB are multitarget compounds to inhibit the proliferation of tumor cells. In conclusion, both compounds show inhibition of cancer cells and a certain degree of inflammatory stimulation, which make them promising for tumor immunotherapy.