Antitumor properties and toxicity effects of Peganum harmala L. (Zygophyllaceae)

Peganum harmala L. (Zygophylaceae) is a medicinal plant known to possess hypothermic and hallucinogenic properties from ancient times. Though the alkaloids identified from the species showed extensive pharmacological actions, they are highly cytotoxic. The present review summarises important findings on the antitumor properties and toxicity effects of the chemical constituents of P. harmala

Chemical composition, cytotoxic, apoptotic and antioxidant activities of main commercial essential oils in Palestine: a comparative study

Essential oils (EOs) are complex mixtures of several components gifted with a wide array of biological activities. The present research was designed to evaluate whether commercial essential oils could be effective by examining their in vitro antioxidant, cytotoxic, and apoptotic properties of nine commercially available EOs in Palestine, namely, African rue, basil, chamomile, fennel, fenugreek, ginger, spearmint, sage, and thyme, and to assure their effective use. Methods: The cytotoxic activity was determined using HT29-19(A) non-muco secreting and HT29-muco secreting (MS) cell lines. MTT, and trypan blue tests, and DPPH radical scavenging have also been assayed on the studied EOs. Results: In this work chamomile oil showed the lowest IC50 at the content of 60 µL/mL, while all other EOs reached such a decrease when 70–80 µL/mL was used on HT-29 (MS) cell lines. In HT-29 19(A) cells, 50% of viability was obtained when 80 µL/mL of ginger and African rue was used, while all other EOs needed more than 80 µL/mL to reach such a decline in viability. Otherwise, an MTT assay on HT-29 (MS) displayed ginger EO with the lowest IC50, followed by African rue and sage, with 40, 48 and 53 µL/mL, respectively. Otherwise, for the rest of the EOs, the IC50 was obtained by assaying around 80 µL/mL. Ginger showed the lowest IC50 with 60 µL/mL and thyme was the highest with 77 µL/mL when HT-29 19(A) cells were used. Conclusion: The most active EOs were found to be ginger, chamomile oil, and African rue. In general, the results demonstrate that most commercial EOs tested in this work possess low, or no biological activities; this may be due to processing, storage conditions, and handling or other reasons, which may cause losses in the biological and pharmacological properties that endemically exist in the Eos; hence, more investigation is still required on commercial EOs before they are recommended to the public

Effect of Exchange–correlation Functionals on Ground State Geometries, Optoelectronic and Charge Transfer of Triphenylamine-based Dyes

The importance of the Density Functional Theory (DFT) calculation approach lies in their ability to provide a highly accurate prediction of structural and optoelectronic properties. However, the traditional methods of DFT failed to predict optoelectronic properties satisfactorily. Therefore, it will be necessary to examine methods containing different percentages of Hartree-Fock exchange and correlation in order to find the most suitable functionals. DFT and Time-Dependent-DFT (TD-DFT) calculations was carried out using four different functionals approximations incorporating a different amount of Hartree Fock exchange (B3LYP, BHandHLYP, CAM-B3LYP and LCωPBE), in order to evaluate their accuracies to predict the geometrical, optoelectronic and charge transfer properties of four triphenylamine-based dyes for Dye-Sensitized Solar Cells (DSSCs) applications. The functional hybrid B3LYP was the best among adopted functional that reproduced the geometrical, optoelectronic and charge transfer properties. On the other hand, it has been shown that the Hartree-Fock exchange percentage for BHandHLYP, significantly improved TD-DFT results in the case of organic dyes. Moreover, the corrected long-range functionals (CAM-B3LYP and LC-wPBE) present valuable tools for giving results of comparable precision with experimental optical data. In terms of the choice of the most appropriate functional for computational calculation, the obtained results can be useful for future DSSC applications. DOI: http://dx.doi.org/10.17807/orbital.v14i1.168

In vitro study of the antimitotic power and in vivo acute toxicity of aqueous and organic extracts of the aerial part of Haloxylon scoparium Pomel. and evaluation of the correlation between the chemical profile and their biological activities

The present study was conducted on the extracts from the aerial part of Haloxylon scoparium Pomel. The current research has focused on the evaluation of the antimitotic activity with the Lepidium sativum phytotest on aqueous (decocted, infused, macerated) and organic extracts (methanolic extract, methanolic macerated, ethyl acetate extract, chloroform extract and petroleum ether extract) extracts of the aerial portion of Haloxylon scoparium. In order to visualise the correlation between the content of chemical compounds in the aqueous and organic extracts with the results of the Lepidium sativum phytotest, we have used the principal component analysis (PCA). Then, we were interested in studying the acute in vivo toxicity of the methanolic extract and the decocted of Haloxylon scoparium. Antimitotic activity has shown that the methanolic extract exhibited high inhibition of Lepidium sativum germination (IC50=128.16±3.89 µg/mL) than colchicine (IC50=474.66±1.86 µg/mL). The decocted also showed high inhibition compared to the other aqueous extracts (IC50=1359.00±106.69 µg/mL). The correlation study showed that there is a strong correlation between Lepidium sativum phytotest and total polyphenol (r=0.9453) and flavonoid (r=0.9884) composition. In addition, the MLD50 of the methanolic extract and the decocted was estimated at 2000 mg/kg. The present study shows that Haloxylon scoparium could be a potential antimitotic of low toxicity

Inventory of poisonings and toxicological studies carried out on Atractylis gummifera L.: A review

Atractylis gummifera L. belongs to the family Asteraceae is widely used in traditional Moroccan medicine for its therapeutic effects (diuretic, purgative, emetic, abortive), but it causes serious and fatal poisonings, hence the objective of this work is to describe the current state of intoxication caused by A. gummifera in the Mediterranean and to summarize the toxicological studies carried out on this plant. The working methodology we adopted consisted in collecting data published in Arabic, French and English in specialized articles, books and on websites. Research results showed that the Centre Anti Poison and Pharmacovigilance of Morocco declared A. gummifera was in second place in the occurrence of poisonings in between January 1980 and December 2008. The synthesis of experimental work on plant toxicology showed that the lethal dose of A. gummifera varies according to the animal model used (rat or mouse), the route of administration (intraperitoneal, oral or intravenous) and the part of the plant used. The root has been found to be the most toxic part of the plant. The toxicity of A. gummifera is due to atractyloside and gummiferine, which are inhibitors of oxidative phosphorylation that prevent the formation of ATP from ADP in intracellular organelles. This study shows the interest in raising public awareness of the toxicity of A. gummifera and in rationalizing its use in traditional medicine

Effect of Exchange–correlation Functionals on Ground State Geometries, Optoelectronic and Charge Transfer of Triphenylamine-based Dyes

The importance of the Density Functional Theory (DFT) calculation approach lies in their ability to provide a highly accurate prediction of structural and optoelectronic properties. However, the traditional methods of DFT failed to predict optoelectronic properties satisfactorily. Therefore, it will be necessary to examine methods containing different percentages of Hartree-Fock exchange and correlation in order to find the most suitable functionals. DFT and Time-Dependent-DFT (TD-DFT) calculations was carried out using four different functionals approximations incorporating a different amount of Hartree Fock exchange (B3LYP, BHandHLYP, CAM-B3LYP and LCωPBE), in order to evaluate their accuracies to predict the geometrical, optoelectronic and charge transfer properties of four triphenylamine-based dyes for Dye-Sensitized Solar Cells (DSSCs) applications. The functional hybrid B3LYP was the best among adopted functional that reproduced the geometrical, optoelectronic and charge transfer properties. On the other hand, it has been shown that the Hartree-Fock exchange percentage for BHandHLYP, significantly improved TD-DFT results in the case of organic dyes. Moreover, the corrected long-range functionals (CAM-B3LYP and LC-wPBE) present valuable tools for giving results of comparable precision with experimental optical data. In terms of the choice of the most appropriate functional for computational calculation, the obtained results can be useful for future DSSC applications. DOI: http://dx.doi.org/10.17807/orbital.v14i1.168

In vivo anti-diabetic effect of aqueous and methanolic macerated extracts of Atractylis gummifera

The anti-diabetic effect of Atractylis gummifera (plant used in traditional Moroccan medicine) has been evaluated in type 2 diabetic mice model. The mice were divided into five groups: Normal control, diabetic control, diabetic treated with aqueous macerate (500 mg/kg), diabetic treated with methanol macerate (500 mg/kg) and diabetic treated with metformin (300 mg/kg). The treatment of the mice was performed by daily gastric gavage for 5 weeks. The monitoring of the mice was carried out weekly by fasting glucose and measurement of biochemical parameters at the end of treatment. The aqueous macerate of A. gummifera was most effective that reduced the fasting blood glucose with 62.7%. In addition, this extract restored the biochemical parameters of diabetic mice to normal

Phytochemical screening and in vitro evaluation of alpha amylase, alpha glucosidase and beta galactosidase inhibition by aqueous and organic Atractylis gummifera L. extracts

Diabetes is a chronic condition which is increasingly progressing throughout the world. To treat it, several methods are used, among which is medicinal plants that still have an unknown mechanism of action. The objective of this work is to evaluate the in vitro hypoglycemic effect of the extracts of the underground part of Atractylis gummifera, a member of Asteraceae used in traditional Moroccan medicine. A phytochemical study of the aqueous extracts (decocted, infused and macerated) and organic extracts (methanol, methanol macerate, chloroformic, ethyl acetate and petroleum ether), and a phytochemical screening of the different secondary metabolites was done. The antidiabetic power of the extracts of A. gummifera by testing the inhibitory activity of ?-amylase, ?-glucosidase and ?-galactosidase, which are enzymes responsible for the digestion of polysaccharides was determined. The extracts of A. gummifera are very rich in flavonoids and tannins, and are inhibitory to?-amylase and ?-glucosidase, mainly the macerate of methanol with IC50 values of 0.557 ± 0.013 and 0.743 ± 0.017 mg / mL respectively. Higher ?-galactosidase inhibitory potential than quercetin was observed for aqueous macerates and methanol with IC50 values of 2.23 ± 0.012 and 2.443 ± 0.071 mg / mL respectively. The extracts of A. gummifera possess a significant inhibitory activity of the alpha amylase and alpha glucosidase and beta-galactosidase enzymes, in particular the macerate of methanol followed by the aqueous macerate, among the eight extracts tested