Synthesis of novel dibenzoxanthene derivatives and observation of apoptosis in human hepatocellular cancer cells

We have synthesized dibenzoxanthene derivatives 2a-2i via nucleophilic substitution of methoxyl group and evaluated underlying antitumor molecular mechanism of target compounds. Compounds showed high cytotoxic activities against BEL-7402, A549, HeLa and MG-63 cancer cells in the µM range. These compounds inhibited the cell growth of BEL-7402 cells at S or G2/M phase. The compounds 2a-2i also induced the apoptosis of BEL-7402 cells. In addition, compounds enhanced the level of intramolecular ROS and decreased the mitochondrial membrane potential. Western blot analysis showed caspase-3 were activated and the expression of Bcl-2 and Bcl-xl was down-regulated. According to given results, these dibenzoxanthenes exhibited a broad spectrum of antiproliferative effects on various tumors and therapeutic efficacy. Molecular mechanism indicated that induction of apoptosis was associated with DNA fragmentation, ROS generation, mitochondria dysfunction. Compounds induced apoptosis in BEL-7402 cells through the intrinsic ROS-mediated mitochondrial pathway.     

The cp genome characterization of Adenium obesum: Gene content,repeat organization and phylogeny

Adenium obesum (Forssk.) Roem. & Schult. belonging to the family Apocynaceae, is remarkable for its horticultural and ornamental values, poisonous nature, and medicinal uses. In order to have understanding of cp genome characterization of highly valued medicinal plant, and the evolutionary and systematic relationships, the complete plastome / chloroplast (cp) genome of A. obesum was sequenced. The assembled cp genome of A. obesum was found to be 154,437 bp, with an overall GC content of 38.1%. A total of 127 unique coding genes were annotated including 96 protein-coding genes, 28 tRNA genes, and 3 rRNA genes. The repeat structures were found to comprise of only mononucleotide repeats. The SSR loci are compososed of only A/T bases. The phylogenetic analysis of cp genomes revealed its proximity with Nerium oleander.     

Evaluation of the antioxidative and genotoxic effects of sodium butyrate on breast cancer cells

Oncogenic stimulation shows a rise in reactive oxygen species (ROS), and ROS can eventually induce carcinogenesis by causing DNA damage. In this context, this study aims to evaluate some biochemical and genotoxic changes in the control of cell death caused by NaBu (Sodium butyrate). treatment in breast cancer cells. NaBu’s impact on cell proliferation was determined via WST-1 assay. The lipid peroxidation (MDA), reduced glutathione (GSH), Nitric Oxide (NO), hydrogen peroxide (H₂O₂), and superoxide dismutase (SOD) enzyme levels were determined biochemically. NaBu-induced genotoxic damage was estimated via single-cell gel electrophoresis (SCGE). NaBu reduced cell viability and potentially induced GSH, but decreased SOD enzyme activity and the level of MDA and NO decreased also H₂O₂ decreased at different times and NaBu concentrations. Higher NaBu concentrations amplified DNA damage in MCF-7 cells compared to the control group. NaBu shows anticancer and genotoxic effects, especially through antioxidant enzymes, one of the oxidative stress parameters in breast cancer. However, the anticancer and genotoxic effects of NaBu is changed in the oxidative stress parameters with time and treatment concentration of NaBu in MCF-7 cells. Furthermore, his oxidative stress-dependent effect changes need to be clarified by further evaluation with molecular and more biochemical parameters.     

Differential effect of sanguinarine, chelerythrine and chelidonine on DNA damage and cell viability in primary mouse spleen cells and mouse leukemic cells

Sanguinarine, chelerythrine and chelidonine are isoquinoline alkaloids derived from the greater celandine. They possess a broad spectrum of pharmacological activities. It has been shown that their anti-tumor activity is mediated via different mechanisms, which can be promising targets for anti-cancer therapy. We focused our study on the differential effects of these alkaloids upon cell viability, DNA damage effect and nucleus integrity in mouse primary spleen cells and mouse lymphocytic leukemic cells, L1210. Sanguinarine and chelerythrine produce a dose-dependent increase in DNA damage and cytotoxicity in both primary mouse spleen cells and L1210 cells. Chelidonine did not show a significant cytotoxicity or damage DNA in both cell types, but completely arrested growth of L1210 cells. Examination of nuclear morphology revealed more cells with apoptotic features upon treatment with chelerythrine and sanguinarine, but not chelidonine. In contrast to primary mouse spleen cells, L1210 cells showed slightly higher sensitivity to sanguinarine and chelerythrine treatment. This suggests that cytotoxic and DNA damaging effects of chelerythrine and sanguinarine are more selective against mouse leukemic cells and primary mouse spleen cells, whereas chelidonine blocks proliferation of L1210 cells. The action of chelidonine on normal and tumor cells requires further investigation.     

Molecular docking elucidates the plausible mechanisms underlying the anticancer properties of acetyldigitoxigenin from Adenium obesum

Adenium obesum (Forssk.) Roem. & Schult. is a promising medicinal plant belonging to the Apocynaceae family. It is a rich source of various phytochemicals such as cardiac glycosides, flavonoids, terpeniods, pregnanes etc. which have different pharmacological properties such as anticancer, antibacterial, acaricidal etc. While previous reports showed the anticancer activity of the aerial parts of the plant extract of A. obesum, the mechanisms of action of its chemical constituents are not known. The present study is aimed at elucidation of plausible mechanisms of anticancer activity of the plant by evaluating the binding interaction of its nine major selected compounds with macromolecular receptors implicated in the initiation and progression of cancer using various in silico approaches. Molecular docking results showed that the compound Δ¹⁶-3-Acetyldigitoxigenin (16-anhydro-3-acetylgitoxigenin) scored the best binding energy scores with the majority of the target proteins. The molecular binding of the compound was stabilized through hydrogen bonds as well as hydrophobic interactions, and also possesses favorable drug-like properties without significant toxicities.     

Extreme effects of Seabuckthorn extracts on influenza viruses and human cancer cells and correlation between flavonol glycosides and biological activities of extracts

Seabuckthorn is a medicinal plant that is used to prevent cold. It was tested for its metabolic content followed by activity against cancer and virus. The metabolic distribution of different polarity solvent extractions from the leaves was analyzed by LC–MS/MS. Flavonol glycoside contents in EA and Bu extracts were higher than MeOH and DW was observed. MeOH and EA extracts recorded high activity against influenza A/PR virus with IC₅₀ of 7.2 μg/mL and 10.3 μg/mL compared with known drug Oseltamivir of 60.3 μg/mL. A similar trend showed in influenza A/Victoria virus. In case of influenza B viruses such as B/Lee and B/Maryland, EA extract (2.87 μg/mL and 4.5 μg/mL of IC₅₀) emerged strongest among other extracts and Oseltamivir (103.73 μg/mL and 71.6 μg/mL). Each extract showed potent anticancer activities. Interestingly, Bu extract showed stronger anticancer activity against human cancer cells such as NCL-H1299, HeLa, SKOV and Caski (8.2 μg/mL, 8.6 μg/mL, 18.2 μg/mL and 9.2 μg/mL of IC₅₀) respectively. Correlation study reveals that aglycones and flavonol mono-glycosides highly correlated with anti-influenza activities but not correlated with anticancer activities. Reversely, di-glycosides and tri-glycosides have a high correlation with cytotoxic effect with both normal and cancer cells. Therefore, this study provides significant information concerning Seabuckthorn for further medicinal drug development.     

Viridiflorol induces anti-neoplastic effects on breast,lung, and brain cancer cells through apoptosis

All active natural molecules are not fully exploited as therapeutic agents, causing delays in the advancement of anticancer drug discovery. Viridiflorol is a natural volatile element that may work as anti-cancer compound. We tested the anticancer properties of viridiflorol at different concentrations ranging from 0.03 to 300 μM in vitro on three cancer cells including breast (MCF-7), lung (A549) and brain (Daoy). The cancer cells responses were documented after treatment using MTT and Annexin V assays. Viridiflorol showed cytotoxic effects against all tested cell lines, reducing cell viability in a concentration-dependent manner with variable IC₅₀ values. Daoy and A549 cell lines were more sensitive to viridiflorol when compared with temozolomide and doxorubicin, respectively. Viridiflorol demonstrated the highest anticancer activity against the Daoy cells with an estimated IC₅₀ of 0.1 µM followed by MCF-7 at 10 µM, and A549 at 30 µM. In addition, upon exposure to concentrations ranging from 30 µM to 300 µM of viridiflorol, early and late apoptotic cell death was induced in a concentration dependent manner in Daoy (55.8%-72.1%), MCF-7 (36.2%-72.7%) and A459 (35%-98.9%) cell lines, respectively. In conclusion, viridiflorol demonstrates cytotoxic and apoptotic ability in three different cancer cell lines (brain, breast and lung).     

Growth,morphological and biochemical changes in oxa-spermine derivative-treated MCF-7 human breast cancer cells

The growth inhibitory properties of two oxa-spermine derivatives named compound 1 and compound 2, representatives of a novel type of polyamine derivatives, were studied. Dose-response growth inhibitory curves obtained after 48h drug exposure demonstrated the much higher cytotoxic activity of compound 1 towards MCF-7 human breast cancer cells. Further experiments with compound 1 showed that this oxa-spermine derivative exhibited considerable cytotoxicity with IC(50) values of 3.74 microM and 2.93 microM after 24h and 48h drug exposure respectively. In MCF-7 cells, after 8h drug (10 microM) exposure it caused shrinkage, chromatin condensation and nuclear fragmentation. However, no clear DNA laddering was detected in treated cells. Drug treatment provoked an increase in polyamine oxidase (PAO) activity. This enzyme is able to produce cytotoxic H(2)O(2) and 3-acetamidopropanal, catalyzing the oxidative deamination of N(1)-acetylated derivatives of spermine and spermidine to spermidine and putrescine respectively. Taken together these data demonstrate that the novel oxa-polyamine derivative compound 1 has considerable cytotoxic activity towards MCF-7 cells and indicate that an induction of PAO may be involved in its cytotoxic and apoptotic effects.     

Stevioside mediated chemosensitization studies and cytotoxicity assay on breast cancer cell lines MDA-MB-231 and SKBR3

Cancer is one of the most impacting life-threatening disease for the human populace. Hence, over the years we have seen a consistent interest to study and investigate new treatments to cure and prevent this disease. Medicinal plants have played a progressive part in treatment since many years. In this research study, we have explored the cytotoxicity effect of purified bioactive compound isolated from Stevia rebaudiana leaves and the key mechanism responsible for apoptosis in human breast cancer cells. The anticancer properties of Stevia rebaudiana leaves has been suggested in earlier literature. Hence, the aim of this study was to investigate the cytotoxicity of purified stevioside in human breast cancer cell lines MDA-MB-231 and SKBR3. Results showed that purified stevioside inhibited the growth of cancerous cell lines. The IC50 obtained after treatment with stevioside on cancer cells MDA-MB-231 and SKBR3 are 55 µM and 66 µM respectively. This shows purified stevioside is capable of inducing apoptosis indicating its promising anticancer activity. However, so far chemosensitization effects of stevioside on breast cancer have not been fully explained by other studies. Hence, additionally, this study also evaluates the chemosensitization potential of stevioside in combination with 5-FU. This research study shows the importance of Stevia rebaudiana as a good source of bioactive compounds with high anti-cancer property.     

Anti-proliferative and apoptotic effects of oleuropein and hydroxytyrosol on human breast cancer MCF-7 cells

Olive oil intake has been shown to induce significant levels of apoptosis in various cancer cells. These anti-cancer properties are thought to be mediated by phenolic compounds present in olive. These beneficial health effects of olive have been attributed, at least in part, to the presence of oleuropein and hydroxytyrosol. In this study, oleuropein and hydroxytyrosol, major phenolic compound of olive oil, was studied for its effects on growth in MCF-7 human breast cancer cells using assays for proliferation (MTT assay), cell viability (Guava ViaCount assay), cell apoptosis, cellcycle (flow cytometry). Oleuropein or hydroxytyrosol decreased cell viability, inhibited cell proliferation, and induced cell apoptosis in MCF-7 cells. Result of MTT assay showed that 200 μg/mL of oleuropein or 50 μg/mL of hydroxytyrosol remarkably reduced cell viability of MCF-7 cells. Oleuropein or hydroxytyrosol decrease of the number of MCF-7 cells by inhibiting the rate of cell proliferation and inducing cell apoptosis. Also hydroxytyrosol and oleuropein exhibited statistically significant block of G₁ to S phase transition manifested by the increase of cell number in G₀/G₁ phase.     

Flavonoids from the flowers of Adenium obesum (Forssk.) Roem. & Schult., Mandevilla sanderi (Hemsl.) Woodson,and Nerium oleander L. (Apocynaceae)

Twenty-two ornamental flowers from different Adenium obesum, Mandevilla sanderi, and Nerium oleander cultivars/seedlings were analyzed for the presence of anthocyanins, flavonols, and chlorogenic acid using nuclear magnetic resonance (NMR) and mass spectrometry (MS). Cyanidin 3-O-[6-O-(rhamnosyl)-galactoside] and cyanidin 3-O-(galactoside) were identified as the major and minor anthocyanins, respectively, in three A. obesum seedlings that had red and red-purple flowers.Cyanidin 3-O-[2-O-(xylosyl)-galactoside] was identified as the major anthocyanin, whereas cyanidin 3-O-[6-O-(rhamnosyl)-galactoside] and cyanidin 3-O-(galactoside) were identified as the minor anthocyanins in 8 M. sanderi cultivars that had red and red-purple flowers. Cyanidin 3-O-[6-O-(rhamnosyl)-galactoside] and cyanidin 3-O-(galactoside) were identified as the major anthocyanins, whereas cyanidin 3-O-[2-O-(xylosyl)-galactoside] was identified as the minor anthocyanin in 8 N. oleander cultivars with red and red-purple flowers. Low levels of anthocyanins were detected in the N. oleander and M. sanderi cultivars that had white flowers, and there were no anthocyanins detected in the N. oleander cultivars with yellow flowers. Chlorogenic acid and four flavonols, quercetin 3-O-[6-O-(rhamnosyl)-galactoside], quercetin 3-O-[6-O-(rhamnosyl)-glucoside], kaempferol 3-O-(galactoside), and kaempferol 3-O-[6-O-(rhamnosyl)-galactoside], were identified in the flowers from all 22 cultivars/seedlings investigated.     

The cytotoxic nature of Acanthopanax sessiliflorus stem bark extracts in human breast cancer cells

Acanthopanax sessiliflorus, a small woody shrub has traditionally been referred to have anticancer activity, but it has not been scientifically explored so far. Therefore, to investigate the anticancer effects of A. sessiliflorus stem bark extracts (ASSBE), MDA-MB-231 and MCF-7 human breast cancer cells were treated with one of its bioactive fractions, n-hexane (ASSBE-nHF). Cytotoxicity (24 h) was determined by MTT assay and antiproliferative effect was assessed by counting cell numbers after 72 h treatment using hemocytometer. The role of ASSBE-nHF on apoptosis was analysed by annexin V-FITC/PI, Hoechst 33342 staining, DNA fragmentation pattern and immunoblotting of apoptosis markers. For the assay of enhanced production of ROS and mitochondrial membrane depolarization, specific stains such as DCFH-DA and JC-1 were used, respectively. To understand the mode of action of ASSBE-nHF on MCF-7 cells, cells were pre-treated with antioxidant, n-acetylcysteine. The hexane fraction of ASSBE showed maximum activity towards human breast cancer cells compared to other two fractions at a minimal concentration of 50 μg/ml. The annexin V-FITC/PI, Hoechst 33342 staining, DNA fragmentation and immunoblotting assays showed that ASSBE-nHF induces non-apoptotic cell death in MCF-7 and MDA-MB-231 cells. ASSBE-nHF significantly increased the production of ROS and decreased the mitochondrial membrane potential (MMP) in MCF-7 cells. Similarly, it decreased the MMP in MDA-MB-231 cells, but had no effect on ROS production. Further, the cytotoxic effect of ASSBE-nHF in MCF-7 cells was not significantly reversed even in the presence of n-acetylcysteine, an antioxidant. These findings revealed that ASSBE-nHF induces non-apoptotic cell death via mitochondria associated with both ROS dependent and independent pathways in human breast cancer cells.     

Effect of the phytoestrogen, genistein-8-C-glucoside, on Chinese hamster ovary cells in vitro

Genistein-8-C-glucoside (G8CG) belongs to isoflavones, which are a subclass of flavonoids, a large group of polyphenolic compounds widely distributed in plants. A number of studies on flavonoids show their cardioprotective and antiosteoporosis properties in in vitro and in vivo models. As a phytoestrogen, genistein has recently generated interest as a potential anticancer and antiatherogenic agent. Several flavonoids are known as antioxidants and scavengers of free oxygen radicals. In the current investigation we used glycosylated genistein (genistein-8-C-glucoside) from flowers of lupine (Lupinus luteus L.). Many authors have found that the action of genistein is not so simple, although many reports conducted in vitro have demonstrated that it is cytotoxic and genotoxic. Therefore, the cytotoxic and genotoxic effects of this compound in Chinese hamster ovary cells (line CHO) were studied. A colorimetric MTT assay to assess cytotoxicity and a Comet assay for the detection of DNA damage were used. Apoptosis was determined by the Hoechst 33258/propidium iodide staining technique. We have also demonstrated antioxidant properties of G8CG. The level of reactive oxygen species generated by G8CG alone and/or H2O2 was evaluated with fluorescence probes: dichlorofluorescein-diacetate (DCFDA) by flow cytometry. The cells were exposed to various concentrations of genistein-8-C-glucoside (1-290 microM) and hydrogen peroxide (10-130 microM) and the effect of G8CG alone or in combination with H2O2 was determined. The results reveal that G8CG at concentrations higher than 10 microM significantly reduced cell viability, induced apoptosis and DNA damage. However at lower concentrations (5 and 7.5 microM), G8CG showed antioxidant properties, but had no cytotoxic or genotoxic activity.     

Human mesenchymal stem cells are resistant to cytotoxic and genotoxic effects of cisplatin in vitro

Mesenchymal stem cells (MSCs) are known for their important properties involving multilineage differentiation potential., trophic factor secretion and localization along various organs and tissues. On the dark side, MSCs play a distinguished role in tumor microenvironments by differentiating into tumor-associated fibroblasts or supporting tumor growth via distinct mechanisms. Cisplatin (CIS) is a drug widely applied in the treatment of a large number of cancers and is known for its cytotoxic and genotoxic effects, both in vitro and in vivo. Here we assessed the effects of CIS on MSCs and the ovarian cancer cell line OVCAR-3, by MTT and comet assays. Our results demonstrated the resistance of MSCs to cell death and DNA damage induction by CIS, which was not observed when OVCAR-3 cells were exposed to this drug.     

Photothermal detection of nicotine-induced apoptotic effects in pancreatic cancer cells

The objective of this study was to evaluate the capability of a photothermal (PT) assay in determining the effects of graded doses of nicotine in a pancreatic acinar cell line (AR42J). The cellular response to nicotine was detected through the monitoring of PT signals from light-absorbing endogenous cellular structures that have been used as natural indicators for nicotine's action. It was demonstrated that introducing nicotine to cultured acinar cells in vitro leads to changes in cellular absorbing structures, thereby altering the microstructure of PT cell images and the temporal shape of PT signals. The results showed that the dependence of specific PT parameters was almost proportional to nicotine concentrations ranging from 1 nM to 100 μM, with the saturation maximum at and around 100 μM - 1 mM; thereafter, PT signals decreased rapidly to control levels and even lower, in the range of 1 - 50 mM. Conventional fluorescent tests (Annexin V - Propidium Iodide) performed in parallel showed no effect with nicotine at a concentration <1 μM (three orders of magnitude greater than the sensitivity threshold of the PT assay). With an increase in nicotine concentration from 1 mM to 50 mM, rapidly growing apoptotic and necrotic cells were detected. Thus, the PT assay demonstrated the capability for high-sensitivity detection of nicotine's impact, which may be related to a change in cell metabolism, apoptosis, or necrosis, depending on nicotine concentration.     

Salinomycin induces apoptosis and overcomes apoptosis resistance in human cancer cells

Salinomycin is a polyether antibiotic isolated from Streptomyces albus that acts in different biological membranes as a ionophore with a preference for potassium. It is widely used as an anticoccidial drug in poultry and is fed to ruminants to improve nutrient absorption and feed efficiency. Salinomycin has recently been shown to selectively deplete human breast cancer stem cells from tumorspheres and to inhibit breast cancer growth and metastasis in mice. We show here that salinomycin induces massive apoptosis in human cancer cells of different origin, but not in normal cells such as human T lymphocytes. Moreover, salinomycin is able to induce apoptosis in cancer cells that exhibit resistance to apoptosis and anticancer agents by overexpression of Bcl-2, P-glycoprotein or 26S proteasomes with enhanced proteolytic activity. Salinomycin activates a distinct apoptotic pathway that is not accompanied by cell cycle arrest and that is independent of tumor suppressor protein p53, caspase activation, the CD95/CD95L system and the proteasome. Thus, salinomycin should be considered as a novel and effective anticancer agent that overcomes multiple mechanisms of apoptosis resistance in human cancer cells.     

Toxicological effects of inorganic nanoparticles on human lung cancer A549 cells

Many researches have shown that anionic clays can be used as delivery carriers for drug or gene molecules due to their efficient cellular uptake in vitro, and enhanced permeability and retention effect in vivo. It is, therefore, highly required to establish a guideline on their potential toxicity for practical applications. The toxicity of anionic clay, layered metal hydroxide nanoparticle, was evaluated in two human lung epithelial cells, carcinoma A549 cells and normal L-132 cells, and compared with that in other human cancer cell lines such as cervical adenocarcinoma cells (HeLa) and osteosarcoma cells (HOS). The present nanoparticles showed little cytotoxic effects on the proliferation and viability of four cell lines tested at the concentrations used (<250 μg/ml) within 48 h. However, exposing cancer cells to high concentrations (250-500 μg/ml) for 72 h resulted in an inflammatory response with oxidative stress and membrane damage, which varied with the cell type (A549 > HOS > HeLa). On the other hand, the toxicity mechanism seems to be different from that of other inorganic nanoparticles frequently studied for biological and medicinal applications such as iron oxide, silica, and single walled carbon nanotubes. Iron oxide caused cell death associated with membrane damage, while single walled carbon nanotube induced oxidative stress followed by apoptosis. Silica triggered an inflammation response without causing considerable cell death for both cancer cells and normal cells, whereas layered metal hydroxide nanoparticle did not show any cytotoxic effects on normal L-132 cells in terms of inflammation response, oxidative stress, and membrane damage at the concentration of less than 250 μg/ml. It is , therefore, highly expected that the present nanoparticle can be used as a efficient vehicle for drug delivery and cancer cell targeting as well.     

Palladium(II) saccharinate complexes with bis(2-pyridylmethyl)amine induce cell death by apoptosis in human breast cancer cells in vitro

The outcomes of breast cancer patients are still poor although new compounds have recently been introduced into the clinic. Therefore, novel chemical approaches are required. In the present study, palladium(II) and corresponding platinum(II) complexes containing bis(2-pyridylmethyl)amine (bpma) and saccharine were synthesized and tested against human breast cancer cell lines, MCF-7 and MDA-MB-231, in vitro. Cytotoxicity was first screened by the MTT assay and the results were further confirmed by the ATP assay. The palladium complexes 1 and 3 yielded stronger cytotoxicity than the corresponding platinum complexes 2 and 4 at the same doses. The palladium complex 3 was found to be the most cytotoxic one. Therefore, a more comprehensive study was carried out with this complex only. The mode of cell death was determined morphologically under fluorescent microscope and biochemically with detection of active caspase-3 and PARP cleavage by Western blot. Changes in apoptosis-related gene expressions were measured with qPCR. It was demonstrated that complex 3 caused cell death by apoptosis determined by fluorescence imaging and Western blot. As a sign of apoptosis, PARP was cleaved in both of the cell lines. In addition, caspase-3 was cleaved in MDA-MB-231 cells while this cleavage was not observed in MCF-7. The results show that the complex 3 is a promising anti-cancer compound against breast cancer with an IC₅₀ value of 3.9 μM for MCF-7 and 4.2 μM for MDA-MB-231 cells, which warrants further animal experiments.     

Apoptosis and necrosis of human breast cancer cells by an aqueous extract of garden cress (Lepidium sativum) seeds

Conventional treatments for breast cancer are costly and have serious side effects. Non-conventional natural treatments have gained wide acceptance due to their promise of a cure with minimal or no side effects, but little scientific evidence exists. One such common remedy is the seed of the Lepidium sativum plant. Presented here is the first reported use of the aqueous extract of Lepidium sativum seeds on breast cancer cells. The ability of the extract to induce apoptosis and necrosis in the human breast cancer cell line MCF-7, compared to normal human skin fibroblasts (HFS), was determined by morphological changes in the cells using light microscopy, DNA fragmentation assay, and florescent stains (Annexin V and propidium iodide) using flow cytometry and fluorescent microscopy. Apoptosis was induced in both cells, and more in MCF-7, when they were treated with 25% and 50% extract, while necrosis was observed mainly after exposure to elevated extract concentrations (75%). DNA fragmentation resulted for both cells, in a time and dose-dependent manner. Both cells, at all extract concentrations, showed no significant differences in the number of living, dead, apoptotic, and necrotic cells. Finally, the results may indicate that apoptotic changes in MCF-7 may be independent of caspase-3, which is involved in apoptosis and is lacking in MCF-7 cells.