In vitro and in silico anti-oxidant, cytotoxicity and biological activities of Ficus benghalensis and Duranta repens

Froriepia subpinnata Leaf Extract-Induced Apoptosis in the MCF-7 Breast Cancer Cell Line by Increasing Intracellular Oxidative Stress

Background

Froriepia subpinnata is one of the plants used in the diet of Iranian people. Previous studies have investigated the antioxidant and antibacterial effects of this plant extract, but no study has been conducted on its anticancer properties.

Objectives

In this study, we investigated the effect of F. subpinnata extract on MCF-7 breast cancer cells.

Methods

The inhibitory effect of F. subpinnata leaf extract was determined on the growth of cancer cells by the MTT test. The ROS (reactive oxygen species) test was used to investigate the impact of the extract on intracellular oxidative stress. Flow cytometry and real-time PCR tests were used to investigate the apoptosis-related molecular processes. The GC-MS analysis was performed to determine the most abundant components.

Results

The GC-MS analysis showed that phytol, mono-ethylhexyl phthalate (MEHP), cinnamaldehyde, and neophytadiene constituted 60% of the extracted content. The MTT assay demonstrated that F. subpinnata leaf extract caused 50% lethality at a 400 μg/mL dose in MCF7 cells. The F. subpinnata extract at low doses decreased the ROS level for 24 hours in MCF-7, but by increasing the concentration, the ROS levels increased. At the IC50 dose (inhibitory concentration (IC) associated with 50% impact), the ROS level increased 3.5 times compared to the control group. Examining the effect of N-acetyl cysteine (NAC) showed that this antioxidant agent could prevent the lethal impact of the extract and eliminate the ROS increase in MCF7 cells. Flow cytometry and real-time PCR results showed that the extract specifically induced apoptosis through the internal apoptosis pathway in this cancer cell line.

Conclusions

The F. subpinnata extract induced apoptosis by increasing ROS in MCF-7 cancer cells and can be considered for further studies.

Duranta erecta Linn: A critical review on phytochemistry, traditional uses, pharmacology, and toxicity from phytopharmaceutical perspective

ETHNOPHARMACOLOGICAL RELEVANCE

Duranta erecta Linn. belonging to the Verbenaceae family is widely used in the traditional systems of medicines practiced in Bangladesh, India, Nigeria, the Philippines, and Brazil. The ethnomedicinal application as vermifuge, febrifuge, diuretic, anti-parasitic, and anti-malarial are well documented. D. erecta is also a significant source of phenylethanoid glycoside known as acteoside-a drug in clinical trials for IgA nephropathy patients.

AIM OF THIS REVIEW

This review aims to critically highlight the existing studies on D. erecta, including its botanical authentication, geographical distribution, ethnomedicinal uses, phytochemistry, and pharmacological properties. Critical discussion is focused on the overview and gap in knowledge for future research. Additionally, the clinical significance of its major secondary metabolite, i.e., acteoside, has also been discussed with emphasis on biosynthesis, distribution, pre-clinical, and clinical outcomes.

MATERIALS AND METHODS

Professional research data from 1963 to 2021 appeared in scholarly journals, and books were retrieved from scientific database platforms viz. Sci-Finder, PubMed, CNKI, Science Direct, Web of Science, Wiley, Google Scholar, Taylor and Francis, Springer, and Scopus. The chemical structures for all the phytomolecules were validated using Sci-finder and first-hand references. While plant name and synonyms were corroborated by "The Plant List" (www.theplantlist.org).

RESULTS

D. erecta and its key metabolite acteoside display various biological actions like antimalarial, antimicrobial, antioxidant, anticancer, antinephritic, hepatoprotective, neuroprotective, and antiviral properties. Acteoside literature analysis shows its presence in different stages of clinical trials for anti-nephritic, hepatoprotective, and osteoarthritic activity. The phytochemical review of D. erecta exhibited 64 compounds that have been isolated and identified from D. erecta, such as iridoid glycosides, phenylethanoid glycosides, flavonoids, steroids, phenolics, terpenoids, and saponins. The other significant secondary metabolites responsible for its medicinal properties are acteoside, durantol, pectolinaringenin, repenins, scutellarein, and repennoside.

CONCLUSION

Duranta erecta is one of the Verbenaceae plants, widely used in ethnomedicines having various phytochemicals with understandable pharmacological actions mainly confined at the crude extract level. However, further bioactivity-guided or fingerprint-assisted studies are required to validate the ethnomedicinal uses, concerning cellular and molecular mechanisms, quality standardization, and safety with respect to its bioactive constituent(s). Therefore, the present review identified the gap in the research on scientific validation of Duranta based ethnomedicines and may provide critical information for the development of phytopharmaceuticals/Phyto-cosmeceuticals.

GLUT-2 mediated glucose uptake analysis of Duranta repens: In-silico and In-vitro approach

Background

Type-2 diabetes mellitus is a common metabolic disorder characterized by insulin resistance, a relative impairment in insulin secretion, and a certain degree of genetic predisposition. The rapid rise in the prevalence of diabetes mellitus around the world has assisted in the development of new pharmacologically active compounds. The current study was aimed to investigate and validate the anti-diabetic activity of wild-grown plant Duranta repens L.

Material and methods

In-silico molecular docking via AutoDock tools 4.2 and in-vitro glucose uptake assay using yeast cells was performed to investigate the anti-diabetic property of plant Duranta repens. Further, mRNA-based gene ontology enrichment analysis was performed to predict the imitated ontology by the bio-actives from Duranta repens.

Results

The in-silico study results reveal that among the 9 active phytoconstituents docked against GLUT-2 protein, α-onocerin possessed the highest binding affinity of -10.23 kcal/mol with no predicted adverse effects and also complies with Lipinski's rule of five. Also, in-vitro studies reflected in a 5 mM glucose solution, hydro-alcoholic extract of Duranta repens at different concentrations enhanced glucose uptake in yeast cells.

Conclusion

Duranta repens extract enhanced the glucose uptake in yeast cells which may be due to the presence of α-onocerin; possessed the better interaction. Also, no adverse effects were predicted for α-onocerin. Thus, it can be speculated  that Duranta repens may possess anti-diabetic activity which may be due to α-onocerin and other related bioactives; needs to be further confirmed vi a  experimental studies.

Anti-diabetic potential of Corn silk (Stigma maydis): An in-silico approach

Corn silk is known to possess anti-diabetic activity, the current study is aimed to predict the binding affinity of bio-actives from corn silk against targets involved in diabetes mellitus i.e. Protein Tyrosine Phosphatase 1-B (PTP1B), Glucose Transporter-1 (GLUT1), Dipeptidyl Peptidase-4 (DPP4), α-glucosidase, and α-amylase. The 3D molecular structure of bio-actives was retrieved from the PubChem database and the structure of targets was retrieved from protein data bank. Later, hetero atoms were removed using Discovery studio visualizer 2019. Molecular docking was performed using Autodock4.0. Ten different poses were obtained from which the pose possessing the highest binding affinity was visualized for protein-ligand interaction in Discovery studio visualizer 2019. Twenty-six bio-actives were docked against five different targets i.e. PTPN1B, GLUT1, DPP4, α-glucosidase, and α-amylase from which flavones were found to possess the highest binding affinity towards PTPN1B with a binding energy of -8.5 kcal/mol. Similarly, β-carotene, gallotannins, 3-O-caffeoylquinic acid, and stigmasterol were predicted to possess the highest binding affinity towards GLUT1, DPP4, α-glucosidase, and α-amylase with binding energy -11.1 kcal/mol, -10.7 kcal/mol, -8.9 kcal/mol, and -9.8 kcal/mol respectively. Our study screened the anti-diabetic potential of 26 bio-actives towards five different diabetic proteins indicating a possibility of bio-actives from corn silk to possess anti-diabetic potential which needs to be further validated via experimental protocols; this serves as a future scope as well as lacuna for the present study. Thus, bio-actives from corn silk have anti-diabetic potential and can be used in the future to investigate and develop novel anti-diabetic molecule.

Ficus benghalensis promotes the glucose uptake- Evidence with in silico and in vitro

Background

Ficus benghalensis L. is traditionally used to manage diabetes; also used in various herbal formulations, and is indicated as an insulin sensitizer. Hence, present work attempted in identifying the probable lead hits to promote glucose uptake via computational approach followed by experimental evaluation of hydroalcoholic extract of Ficus benghalensis L. bark in yeast cells.

Methods

The in vitro assay for glucose uptake was performed in the baker yeast whereas in-silico study involved retrieving the phytoconstituents from open sources, and predicting for probable targets of diabetes followed by drug-likeness score, probable side effects, and ADMET profile. Homology modeling was performed to construct the target protein glucose transporter-2. In addition, the binding affinity of each ligand with glucose transporter was predicted using AutoDock 4.2.

Results

A total of 17 phytoconstituents from F. benghalensis were identified to possess the anti-diabetic effects. Among them, 4-methoxybenzoic acid scored the highest drug-likeness score and lupeol acetate had the maximum binding affinity of -8.02 kcal/mol with 9 pi-interactions via Tyr324, Phe323, Ile319, Ile200, Ile28, Phe24, and Ala451. Similarly, the extract showed the highest glucose uptake efficacy in yeast cells at 500 µg/mL.

Conclusion

Herein the present study reflected the probable activity of the phytoconstituents from F. benghalensis in promoting the glucose uptake via the in silico and in vitro approaches.

In Vitro Alpha-Amylase Enzyme Assay of Hydroalcoholic Polyherbal Extract: Proof of Concept for the Development of Polyherbal Teabag Formulation for the Treatment of Diabetes

For the treatment and maintenance of postprandial blood glucose increases (i.e., diabetes mellitus), alpha (α)-amylase is a well-known therapeutic target. In this paper, we report an initial exploration of the work, i.e., in vitro alpha-amylase activity of the hydroalcoholic polyherbal extract of the selected plants. After drying, the plant material is ground individually, and at least 100 gm of the crude powder is prepared from each plant. 100 gm of each plant was combined, and a total of 500 gm of the crude powder (Ichnocarpus frutescens (100 gm) + Ficus dalhousie (100 gm) + Crateva magna (100 gm) + Alpinia galangal (100 gm) + Swertia chirata (100 gm)) was prepared to carry out the extraction. This obtained extract was subjected to preliminary phytochemical screening and in vitro alpha-amylase activity. At 16 mg/mL, acarbose displayed 78.40 ± 0.36% inhibition, whereas the extract exhibited 72.96 ± 0.70% inhibition, which is significantly comparable. The IC50 value of acarbose was 12.9 ± 1.12, whereas the extract exhibited 13.31 ± 1.12 mg/mL. The extract possesses numerous classes of chemicals such as alkaloids, glycosides, tannins, polyphenols, and terpenoids, which can contribute to the antidiabetic activity through alpha-amylase inhibition. This was an initial exploration of the work as a proof of concept for the development of polyherbal tea bag formulation for the treatment of diabetes. In the future, we are aiming to investigate the effectiveness of polyherbal tea bags in the treatment of diabetes using more in vitro and in vivo models. From the present investigation, we have concluded that this extract can be used for the treatment of diabetes.

Reversal of insulin resistance by Ficus benghalensis bark in fructose-induced insulin-resistant rats

ETHNOPHARMACOLOGICAL RELEVANCE

Bark of Ficus benghalensis L. (family: Moraceae), commonly known as Banyan is recorded as Nyagrodha in Ayurvedic Pharmacopeia of India to manage burning sensation, obesity, diabetes, bleeding disorders, thirst, skin diseases, wounds, and dysmenorrhoea. However, the effect of F. benghalensis bark over glycolysis, gluconeogenesis, and appetite regulation in insulin-resistant pathogenesis has not been reported yet.

AIM OF THE STUDY

The present study aimed to investigate the effect of hydroalcoholic extract of F. benghalensis bark in gluconeogenesis, glycolysis, and appetite regulation in fructose-induced insulin resistance in experimental rats.

MATERIALS AND METHODS

Male Wister rats were supplemented with fructose in drinking water (10% w/v for 42 days and 20% w/v for next 12 days; a total of 54 days); insulin resistance was confirmed via the elevated area under the curve of the glucose during oral glucose tolerance test after 54 days and was subjected with extract treatment for next 30 days. After 30 days of treatment, animals were fasted to perform oral glucose and insulin tolerance test to estimate glucose and insulin levels. The blood sample was collected for biochemical estimation and the liver homogenate was prepared to estimate hepatic enzymes and enzymatic and non-enzymatic anti-oxidant biomarkers followed by histopathological evaluation. Also, glycogen content was quantified in gastrocnemius muscle and liver homogenates. Further, reported bioactives from the F. benghalensis were retrieved from the ChEBI database and docked against hexokinase, phosphofructokinase, glucose-6-phosphatase, lactate dehydrogenase, and fructose-1,6-biphosphatase to identify the probable lead hits against the enzymes involved in gluconeogenesis.

RESULTS

Treatment with the F. benghalensis bark extract significantly increased the body weight and food intake and significantly decreased fructose supplemented water intake. Further, treatment with extract significantly increased the exogenous glucose clearance and well responded to the exogenous insulin. Further, extract treatment improved lipid metabolism, ameliorated plasma leptin, and multiple enzymatic and non-enzymatic antioxidant biomarkers. Likewise, it also improved gluconeogenesis mediated pathogenesis of non-alcoholic fatty liver injury. Additionally, molecular docking also identified mucusisoflavone A and B as lead hits in downregulating gluconeogenesis.

CONCLUSION

Hydroalcoholic extract of F. benghalensis bark may prevent insulin resistance by downregulating gluconeogenesis and improving the appetite in fructose-induced insulin-resistant rats.

Hepatoprotective Activity of Pirdot Leaves (Saurauia vulcani Korth) Ethanol Extract in Laboratory Rats (Rattus norvegicus) and Characterization of Bioactive Compounds Using a Molecular Docking Approach

AIM: The hepatoprotective activities of  bioactive compounds Pirdot were investigated in vivo and in silico. METHODS: In this study, the completely randomized design non-factorial was experimentally to assess the value of SGPT and SGOT and twenty four adult male rats were divided into four groups : group G0, control group; group G1, a treated group received 0.1 ml sheep red blood cell; group G2, a treated group received 500 mg ethanol extract Pirdot; group G3, a group treated received 500 mg ethanol extract Pirdot and 0,1 ml sheep red blood cell. On thirty one days of treatment, the blood of all rats group were taken to value SGPT and SGOT using DiaLab kit. Furthermore, the molecular docking study was done to analyse molecular interaction that COX-2 and  TNF-α were the primary target protein of bioactive compounds of Pirdot associated with hepatoprotective activities. In addition, it tends to be the target of non-steroidal anti-inflammatory drugs such as Ibuprofen. RESULTS: The results show SGOT and SGPT value significantly [p<0.05] decreased on Group G2 and G3. Moreover, the bioactive compounds of Pirdot, such as Pomolic acid and Ursolic acid tend to be the potential compound on liver protection. Moreover, Pomolic acid has a good binding affinity -14.6 kcal mol-1 with COX-2 Protein and the binding affinity of cis-3-O-p-hydroxycinnamoyl Ursolic acid was -15.1 kcal mol-1 associated with TNF-α Protein. CONLUSION:  Pirdot Leaves (Saurauia vulcani Korth.)  Ethanol Extract showed Hepatoprotective activity in rats (Rattus norvegicus). Molecular docking approach showed that pomolic acid has a good binding affinity with COX-2 Protein and TNF-α Protein.

Gene ontology enrichment analysis of PPAR-γ modulators from Cassia glauca in diabetes mellitus

BACKGROUND

PPAR-γ has an integrative role in the management of insulin resistance; ligands of this receptor have emerged as potent insulin sensitizers and may modulate proteins involved in the pathogenesis of diabetes mellitus. Hence the present study is aimed to identify PPAR-γ modulators from the plant Cassia glauca and predict the ontology enrichment analysis utilizing various in-silico tools.

METHODS

ChEBI database was used to mine the phytoconstituents present in the plant C. glauca, SwissTargetPrediction database was used to identify the targets, and scrutinizing of phytoconstituents modulating PPAR-γ was performed. Autodock4.0 was used to dock phytoconstituent ligands with the target PPAR-γ. Multiple open-source databases and in-silico tools were utilized to predict the drug-likeness characters and predict side effects of the phytoconstituents modulating PPAR-γ and STRING database was used to construct a network between the modulated genes.

RESULTS

Twenty-four phytoconstituents were identified from the plant Cassia glauca from which four were found to modulate PPAR-γ, sennoside was predicted to have the greatest drug-likeness score and a significantly less side effect whereas diphenyl sulfone was predicted to show hepatotoxicity with the greatest pharmacological activity of 0.815. [epicatechin-(4beta- > 8)]5-epicatechin showed the lowest binding affinity with target PPAR-γ i.e. -8.6 kcal/mol and possessing a positive drug-likeness score with no side effect data.

CONCLUSION

Bioctives were found free from probable side effects leaving out diphenyl sulfone having a prediction of hepatotoxicity, the anti-diabetic property of the plant may be due to the presence of [epicatechin-(4beta- > 8)]5-epicatechin which needs further validation by in-vitro and in-vivo protocols.

Luffa cylindrica: a promising herbal treatment in progesterone induced obesity in mice

OBJECTIVE

The present study investigates the anti-obesity activity of Luffa cylindrica in progesterone induced obesity model.

METHOD

Swiss albino mice were grouped into 7 (n = 6). Obesity was induced by administration of progesterone (10 mg/kg s.c.) for 28 days. Normal group received ad libitum and water. Disease control, positive control and treatment groups received progesterone (10 mg/kg s.c.). Further positive control group received Orlistat (10 mg/kg p.o). Treatment groups received hydro-alcoholic and fractionation extract of Luffa cylindrica at doses 400, 200, 100 mg/kg b.w. Food and water intake were recorded daily, Body weight, BMI and blood glucose were checked weekly. On completion of the study, animals were sacrificed and blood serum being utilized to accesses in vitro to estimate the various biochemical parameters. Serotonin levels and antioxidant biomarkers were also estimated. Histopathology of liver and adipose tissue was studied.

RESULT

After the 28 days of treatment with plant extract and fraction, it was observed to improve the progestrogen-induced obesity by improving BMI, body weight, brain serotionin, locomotor activity, blood glucose level, anti-oxidant biomarkers, and lipid profile.

CONCLUSION

After assimilating the In vivo and in vitro studies Luffa cylindrical extract highlighted the antilipidemic, anti-hyperglycaemic, antioxidant potential in hormone-induced obesity.

Beneficial effect of Zingiber officinale on olanzapine-induced weight gain and metabolic changes

AIM

The present study aimed to investigate the effect of Zingiber officinale (ZO) extract on weight gain, food intake, locomotor activity, and lipid and glucose metabolism in olanzapine-treated rats.

METHODS

The hydroalcoholic extract of ZO was prepared by macerating the coarse dry powder in 70% v/v ethanol for 7 days, filtered, and concentrated under reduced pressure. Animals were divided into six groups containing six animals in each. Three doses of extract (100, 200, and 400 mg/kg, p.o.) were co-administered with olanzapine 2 mg/kg i.p for 21 days. Bodyweight and food intake were recorded at the interval of three days and locomotor activity once a week. At the end of the study oral glucose tolerance test was performed followed by the estimation of lipid profile.

RESULTS

Co-administration of hydroalcoholic extract of ZO with olanzapine ameliorated olanzapine-induced weight gain and hyperphagia. Similarly, ZO extract also improved pancreatic β-cell function and glucose and lipid metabolism.

CONCLUSIONS

ZO extract ameliorated olanzapine-induced weight gain and hyperphagia by improving pancreatic β-cell functions and lipid metabolism.

Identification of PTP1B regulators from Cymbopogon citratus and its enrichment analysis for diabetes mellitus

PTP1B is identified as the insulin signaling pathway downregulator; involved in pancreatic β-cell apoptosis. Further, it associates in regulating multiple pathways in diabetes mellitus; kindled us to identify the binding affinity of bioactives from Cymbopogon citratus by targeting PTP1B and identify the probably associated with it; further identifying the probable pathways involved in diabetes mellitus. In this regard, ChEBI database was used to retrieve bio-actives from C. citrates and 3D structures for the same were obtained from the PubChem database. The energy of bioactives was minimized and converted into ligand and the docking was carried using autodock 4.0 against PTP1B. Further, multiple characters of bio-actives like drug-likeness score, ADMET profile, probable adverse effects, and boiled egg model for bioavailability were also studied. Swertiajaponin was predicted for the highest drug-likeness score i.e. 0.26. However, swertiajaponin was predicted with the highest probable side effect of nephrotoxicity with pharmacological activity of 0.478. Similarly, swertiajaponin was predicted for the highest binding affinity with PTP1B with the binding energy of - 8.3 kcal/mol. Likewise, KEGG identified 80 pathways associated with PTP1B modulation in which 7 pathways were involved in diabetes mellitus in which FoxO signaling pathway was predicted to have the least false discovery rate by modulating 7 genes. Swertiajaponin could act as the potent inhibitor of PTP1B; scored highest druglikeness score but possessed minimum GIT absorptivity; further, PTP1B was identified to be linked with multiple pathways that are concerned with diabetes mellitus.