Devi Lekshmi Sheela scite author profile

Devi Lekshmi Sheela

4Publications

54Citation Statements Received

60Citation Statements Given

How they've been cited

128

How they cite others

Affiliations

Kerala Agricultural University, University of Calicut

Publications

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Lauric acid induce cell death in colon cancer cells mediated by the epidermal growth factor receptor downregulation: An in silico and in vitro study

et al. 2019

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Coconut oil (CO) is enriched with medium chain saturated fatty acids like lauric acid (LA), capric acid and caprylic acid, which are known to have several health benefits. LA, the predominant fatty acid in CO, is reported to possess anticancer activity mediated through oxidative stress-induced apoptosis; however, there is no clear information on its cellular signalling mechanism. The present study screened the anticancer potential of various fatty acids present in CO (capric acid, caprylic acid and LA) using in silico tools such as CDOCKER in Accelrys Discovery Studio by targeting proteins like epidermal growth factor receptor (EGFR), cyclin-dependent kinase and thymidine synthase (TS). The results were further confirmed using cell culture-based studies and quantitative PCR. Among the tested compounds, LA was found to be the most active and showed a higher affinity towards EGFR and TS. Corroborating with these results, LA-induced dose-dependent cytotoxicity towards HCT-15 (human colon cancer), HepG2 (human hepatocellular carcinoma) and Raw 264.7 (murine macrophages) cells exhibiting morphological characteristics of apoptosis. Further, in HCT-15 cells exposed to LA (30 and 50 µg/mL), the expression of EGFR was found to be downregulated by 1.33- and 1.58-fold. The study thus concludes that the anticancer activity of LA may be partially mediated by the downregulation of EGFR signalling and consequent reduction in cell viability through apoptosis. Since EGFR signalling is crucial in cancer cell survival and is a prime target in drug development, the present study has pharmacological significance.

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Coconut phytocompounds inhibits polyol pathway enzymes: Implication in prevention of microvascular diabetic complications

Sheela

Nazeem

Narayanankutty

et al. 2017

Prostaglandins, Leukotrienes and Essential Fatty Acids

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In Silico and Wet Lab Studies Reveal the Cholesterol Lowering Efficacy of Lauric Acid, a Medium Chain Fat of Coconut Oil

Sheela

Nazeem

Narayanankutty

et al. 2016

Plant Foods Hum Nutr

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The coconut oil (CO) contains 91 % of saturated fatty acids in which 72 % are medium chain fatty acids (MCFAs) like lauric, capric and caprylic acids. In contrast to animal fat, coconut oil has no cholesterol. Despite this fact, CO is sidelined among other vegetable oils due to the health hazards attributed to the saturated fatty acids. Though various medicinal effects of CO have been reported including the hypolipidemic activity, people are still confused in the consumption of this natural oil. In silico analyses and wet lab experiments have been carried out to identify the hypolipidemic properties of MCFAs and phenolic acids in CO by using different protein targets involved in cholesterol synthesis. The molecular docking studies were carried out using CDOCKER protocol in Accelery's Discovery Studio, by taking different proteins like HMG- CoA reductase and cholesterol esterase as targets and the different phytocompounds in coconut as ligands. Molecular docking highlighted the potential of lauric acid in inhibiting the protein targets involved in hyperlipidemics. Further, validation of in silico results was carried out through in vivo studies. The activity of key enzymes HMG- CoA reductase and lipoprotein lipase were found reduced in animals fed with lauric acid and CO.

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Resazurin based microtitre assay and comparison of DLA and EAC cell lines in Amaranthus viridis L.

Cherian¹,

Sheela²

2018

SSMJ

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Amaranthus viridis L. a medicinal plant belonging to family Amaranthaceae, is used for bactericidal activity to kill infectious diseases and has reported to be antioxidant and anticancer though it contains glycosides, phenols and flavanoids. The study conducted to evaluate the anticancer ability using the cell lines and antimicrobial activity using resazurin dye. The leaf extract were made by cold extraction using different solvent based on polarity. Antimicrobial activity was determined using resazurin based microtitre assay and MIC and anticancer study was conducted in DLA and EAC cell lines. The result showed ethanol and methanol extract posses antimicrobial activity (1.25-0.625 mg/mL). DLA cell line showed good percentage of activity than EAC cell line. Amaranthus viridis L. extract showed antibacterial and antifungal activity against human pathogenic strains and has got anticancer property.

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