Ken S. Lee scite author profile

Context Vernonia amygdalina Del. (VA; Asteraceae or Compositae) is a small tree growing throughout tropical Africa. It is widely used for food and medicinal purposes by local people. It was reported that it had several qualities, including anticancer activity. Objective A sesquiterpene lactone, vernodalinol, was isolated from VA leaves. The first reported source of vernodalinol was in 2009 from a different plant, only 1H NMR spectrum and no detailed structural analysis was carried out. No whole spectroscopic data were provided. Materials and methods VA dried leaves were extracted with 85% ethanol followed by further separation into four fractions by liquid–liquid extraction technique using various solvents: hexane, chloroform, and n-butanol. Vernodalinol was separated from the n-butanol fraction by column chromatography. The biological activity of vernodalinol was evaluated in estrogen receptor-positive (ER+) human breast carcinoma cells (MCF-7) in vitro. Results Results indicated that vernodalinol (25 and 50 μg/mL) inhibited breast cancerous cell growth (DNA synthesis) by 34% (P < 0.025) and 40% (P < 0.025), respectively. It is reasonable to expect an LC50 of 70–75 μg/mL for vernodalinol in MCF-7 cells. Discussion and conclusion Vernodalinol structure was confirmed using a battery of spectroscopic methods, 1D and 2D NMR, high-resolution mass spectrometry (HR-MS), UV, IR, and X-ray. These results suggest that vernodalinol, although it has some biological activity, is likely to work in concert with other ingredients responsible for the anticancer activity exhibited of VA.

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Activity Markers of the Anti-Breast Carcinoma Cell Growth Fractions of Vernonia amygdalina Extracts

Oyugi

Luo

Lee

et al. 2009

Exp Biol Med (Maywood)

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Vernonia amygdalina (VA) is an edible plant of the Asteraceae family used in many herbal formulations prescribed by herbalists for many diseases. We have previously reported that aqueous VA extracts inhibit the growth of estrogen receptor-positive human breast cancerous cells in vitro. Activity markers of the VA extracts have not been previously identified or characterized. Hence, the objective of this study was to identify activity markers of the VA extracts associated with cell growth inhibition. Extraction of VA with multiple solvents of various polarity indexes yielded three fractions (A1-2, B-3) that significantly inhibited cell growth (p <0.05) at 0.1 mg/ml concentration. At a higher concentration of 1 mg/ml, six fractions of hexane, chloroform, butanol, and ethyl acetate (A1-3, B2-4) inhibited DNA synthesis by 76, 98, 94, 98, 98, and 96% respectively. These fractions were UV-detected from 250–730 nm; and all showed three distinct peaks around 410, 431, and 664 nm. Furthermore, HPLC analysis of the fractions revealed similar retention times of 2.213, 2.167, and 2.151 min respectively. Bioactivity assays showed that HPLC retention of approximately 2 min is required for cell growth-inhibitory activity of VA fractions. Interestingly, all active fractions exhibited HPLC peaks at approximately 2 min. Therefore, the UV and HPLC peaks may be used as predictive tools to determine VA extracts activities.

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Isolation and characterization of the antibreast carcinoma cell growth components of Vernonia amygdalina extracts

Luo¹,

Oyugi

Lin

et al. 2010

Exp Biol Med (Maywood)

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Vernonia amygdalina (VA) is widely used for medicinal and food purposes in tropical Africa. Many health benefits (antioxidant, antimicrobial, anticancer activities and more) of VA extracts have been reported. The mechanisms of actions have also been described. We have previously reported that VA extracts elicited growth inhibitory activities in human estrogen receptor-positive (ER(+)) cells (MCF-7 cells) and ductal carcinoma cells (BT-549) in vitro. The active components in the organic solvent (chloroform)-extracted VA have been previously determined. However, the active components in the ethanolic extracts of VA have not been previously studied. Hence, the objectives of this study are to isolate and characterize the active components of the ethanolic extracts of VA using liquid-liquid extraction, thin layer chromatography and column techniques. Fractionation of the ethanolic extracts of VA yielded three fractions named A1, A2 and A3, and A2 retained the DNA synthesis-inhibitory activity of the extracts. Subsequent fractionation of A2 yielded fraction A2B whose activity was 16 and three times more potent than the ethanolic fraction and fraction A2, respectively. The treatment of cells with 100 μg/mL of either the ethanolic VA extracts, fraction A2 or fraction A2B resulted in a 23% (P< 0.01), 86% (P < 0.0001) and 97% (P < 0.0001) inhibition of DNA synthesis compared with vehicle-treated controls, respectively. Further purification of A2B by high-speed countercurrent chromatography and confirmed by spectroscopic analysis revealed that the major active components of A2B (65% by weight) were steroid glucosides.

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Divergent C−H Amidations and Imidations by Tuning Electrochemical Reaction Potentials

et al. 2022

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Electrochemical C−H functionalizations are attractive transformations, as they are capable of avoiding the use of transition metals, pre‐oxidized precursors, or suprastoichiometric amounts of terminal oxidants. Herein an electrochemically tunable method was developed that enabled the divergent formation of cyclic amines or imines by applying different reaction potentials. Detailed cyclic voltammetry analyses, coupled with chronopotentiometry experiments, were carried out to provide insight into the mechanism, while atom economy was assessed through a paired electrolysis. Selective C−H amidations and imidations were achieved to afford five‐ to seven‐membered sulfonamide motifs that could be employed for late‐stage modifications.

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Ken S. Lee

Isolation and structure determination of a sesquiterpene lactone (vernodalinol) fromVernonia amygdalinaextracts

Activity Markers of the Anti-Breast Carcinoma Cell Growth Fractions of Vernonia amygdalina Extracts

Isolation and characterization of the antibreast carcinoma cell growth components of Vernonia amygdalina extracts

Divergent C−H Amidations and Imidations by Tuning Electrochemical Reaction Potentials

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