Vanadium complex: an appropriate candidate for killing hepatocellular carcinoma cancerous cells

Cytotoxicity of Vanadium(IV) and Vanadium(V) on Caco-2 Cells: The Important Influence of Vanadium Speciation

Exposure to vanadium (V) occurs through the ingestion of contaminated water, polluted soil, V-containing foods and medications, and the toxicity and absorption during the small intestine phase after oral ingestion play crucial roles in the ultimate health hazards posed by V. In this study, the human colon adenocarcinoma (Caco-2) cells were selected as an intestinal absorption model to investigate the uptake and cytotoxicity of vanadyl sulfate (VOSO4) and sodium orthovanadate (Na3VO4). Our results confirmed the cytotoxic effects of V(IV) and V(V) and revealed a greater toxicity of V(IV) than V(V) towards Caco-2 cells. Cell viability correlated linearly with V(V) concentration, whereas it exhibited a non-monotonic dose-response curve with V(IV) concentration. Moreover, exposures to V(IV) and V(V) induced oxidative stress in Caco-2 cells. Under experimental conditions, Caco-2 cells exhibited greater uptake of V(IV) compared to V(V). Morphological experiments further substantiated the adverse effects of V(IV) on Caco-2 cells, manifested as alterations in cellular morphology and disruption of cell monolayer structure. In conclusion, these results indicate that V(IV) exerts stronger negative effects on Caco-2 cells, with a more complex mechanism of action. Altogether, studying intestinal cytotoxicity of V provides deeper insights into the potential health risks posed by oral V exposure.

In vitro and Pharmacoinformatics-based phytochemical screening for anticancer impacts of pistachio hull essential oil on AGS, PLC/PRF/5, and CACO2 cell lines

BACKGROUND

The essential oil of pistacia vera (cv. Ohadi) hull (PHEO) was checked using gas chromatography mass spectrometry (GC/MS) analysis. It was studied the genes of the wnt pathway with a certain concentration of PHEO on Human gastric cancer (AGS), human hepatocellular carcinoma (PLC/PRF/5), and human colon cancer (CACO2) cell lines.

METHODS AND RESULTS

After evaluating the survival rate of cancer cells by MTT test and determining IC50, pistachio hull essential oil (PHEO) was used for 24-hours to treat the cells. After RNA extraction, the expression of wnt pathway genes was evaluated by Real-Time PCR. Considering the crucial role of β-catenin accumulation and its effect on the progression of gastrointestinal cancers, Western blot analysis was also used to determine the effect of PHEO in protein expression of β-catenin inhibition. Also, an in silico analysis was carried out to investigate the effect of PHEO extracted compounds on protein expression of β-catenin and FZD7 inhibition. According to the results, wnt pathway genes were changed in samples treated using PHEO. The results showed the up-regulation of GSK-3β and down-regulation of Wnt-1, LEF-1, TCF1, and CTNNB1 genes compared to the control.

CONCLUSION

We showed inhibition of β-catenin protein in cancer cell lines. Four compounds of PHEO were suggested to have an inhibition effect on β-catenin and FZD7. These compounds can be useful in the treatment of gastrointestinal cancers. Altogether, the inhibitory role of β-catenin protein can be very effective and can be considered one of the therapeutic goals in the treatment of gastrointestinal cancers.

Antimetastatic effects of VOflavonoid complexes on A549 cell line

BACKGROUND

Non-small-cell lung cancer (NSCLC) is the most frequent type of lung cancer and more than 90 % of mortality is due to metastasis-related deaths. Flavonoids are considered nutraceuticals due to the variety of pharmacological properties. In this paper, we studied the effects of baicalin, silibinin, apigenin, luteolin, and its oxidovanadium(IV) cation complexes on the viability, adhesion to fibronectin, invasion, and migration on human lung cancer cell line A549. In addition, in order to complete the study of the interaction of VOflavonoids and bovine serum albumin (BSA), the binding ability of silibinin and VOsil to the protein was evaluated.

METHOD

To establish the non-cytotoxic concentration range of the tested compounds, the cancer cell viability was evaluated using a 3-(4,5-dimethylthiazol-2-yl)-2,5-diphenyl-tetrazolium bromide (MTT) assay. Cell migration and invasion assays were performed using Boyden chambers and adhesion assay using MTT method. The interaction of compounds with BSA were investigated in physiological buffer (pH = 7.4) by fluorescence spectroscopy.

RESULTS

All complexes inhibited the metastatic cascade steps to a greater extent than their respective ligands. Likewise, based on binding constant values (K_b) for BSA-silibinin and BSA-VOsil, we can suggest that both compounds can interact with the protein.

CONCLUSION

Although all the complexes suppressed cell adhesion, invasion and migration, VOlut can be considered as a good candidate to continue the trials because it presented encouraging results as a potential antitumor and antimetastatic agent, and can be transported by BSA.

Interaction of a Vanadyl Schiff Base Complex with DNA and BSA: A Combination of Experimental and Computational Studies

BACKGROUND AND PURPOSE

Cancer is the primary cause of death in the world. Vanadium (IV) is a metal ion complex which has been proposed as a suitable candidate for cancer treatment. In this study, the interaction of the oxido-vanadium (IV) complex [VOL(bipy)] with salmon sperm DNA and Bovine Serum Albumin (BSA) was investigated through experimental and computational approaches. With the results of this experimental study, the mechanism and parameters related to the interaction of [VOL(bipy)] with DNA and BSA were determined.

MATERIALS AND METHODS

The kinetic interaction of DNA and BSA with [VOL(bipy)] was determined using absorption titration and fluorescence quenching, respectively. Moreover, the possible interactions were calculated by molecular docking prediction using the available software.

RESULTS

The binding constant (Kb) of the complex-DNA interaction was calculated to be 2.34×104 M-1, indicating a relatively strong interaction between the complex and DNA. It was found that the V(IV) complex interacted with DNA through the groove binding mode followed by partial intercalation into the DNA helix. The Kb values obtained for [VOL(bipy)]-BSA interaction were in the range of 1.07×103-5.82×104 M-1. The V(IV) complex was found to prefer the domain I binding pocket of BSA with the ΔGb value of -7.52 kcal/mol.

CONCLUSION

Both experimental and computational analyses confirmed the interaction of the vanadium complex with DNA and BSA. The moderate affinity of [VOL(bipy)] for BSA indicates that this protein is a good candidate for transferring the complex.

Vanadium: Risks and possible benefits in the light of a comprehensive overview of its pharmacotoxicological mechanisms and multi-applications with a summary of further research trends

BACKGROUND

Vanadium (V) is an element with a wide range of effects on the mammalian organism. The ability of this metal to form organometallic compounds has contributed to the increase in the number of studies on the multidirectional biological activity of its various organic complexes in view of their application in medicine.

OBJECTIVE

This review aims at summarizing the current state of knowledge of the pharmacological potential of V and the mechanisms underlying its anti-viral, anti-bacterial, anti-parasitic, anti-fungal, anti-cancer, anti-diabetic, anti-hypercholesterolemic, cardioprotective, and neuroprotective activity as well as the mechanisms of appetite regulation related to the possibility of using this element in the treatment of obesity. The toxicological potential of V and the mechanisms of its toxic action, which have not been sufficiently recognized yet, as well as key information about the essentiality of this metal, its physiological role, and metabolism with certain aspects on the timeline is collected as well. The report also aims to review the use of V in the implantology and industrial sectors emphasizing the human health hazard as well as collect data on the directions of further research on V and its interactions with Mg along with their character.

RESULTS AND CONCLUSIONS

Multidirectional studies on V have shown that further analyses are still required for this element to be used as a metallodrug in the fight against certain life-threatening diseases. Studies on interactions of V with Mg, which showed that both elements are able to modulate the response in an interactive manner are needed as well, as the results of such investigations may help not only in recognizing new markers of V toxicity and clarify the underlying interactive mechanism between them, thus improving the medical application of the metals against modern-age diseases, but also they may help in development of principles of effective protection of humans against environmental/occupational V exposure.

Evaluating of Induction of Apoptosis by Cornus mass L. Extract in the Gastric Carcinoma Cell Line (AGS)

Aim and objectives: Natural products and derivatives of medicinal vegetation can play an important role to the cure tumor. The Present study was focused to determine the effect of Cornus mass L. extract on the induction of apoptosis in AGS gastric carcinoma cell line in compared to L929 cells. Methods: In this experimental study, AGS and L929 cells were cultured and treated with different concentrations (0–10 mg/ml) of Cornus mass L. extract for 48 and 72 hours. Cell proliferation was assessed by MTT assay. The optical density of the colored solution was quantified at 570 nm wavelengths by an ELISA Reader. Making use of the apoptosis detection kit of Annexin V-FITC, PI and double staining with Annexin V-FITC were carried out for flow cytometry investigations. Data were analyzed by ANOVA. Variations with a P-value less than 0.05 were considered significant. Results: shows a noticeable deviation among various concentrations of extract when cells were treated for 48, 72 h declined cell viability in AGS cell line in comparison L929 cell lines in a dose and time-dependent manner (P < 0.05). This extract also displayed approximately several-fold increased anti-cancer potency in AGS compared to L929 cells. The IC50 value in AGS cells (evaluated after 48,72h) of the extract against AGS cells was 5/44, 2/44 mg/ml (p≤0.05). The analysis results of flow cytometry indicated that apoptosis was induced by the extract in AGS cells treated, compared with L929 cells. Conclusion: Each of our results implicates the reality that Cornus mass L. extract acts as a novel, potent inhibitor of cancer proliferation in in vitro. This may result in developing a promising therapeutic agent for the treatment of indole-sensitive cancers.