Lucy Sun Hwang

Antioxidative activity of the crude extract of lignan glycosides from unroasted Burma black sesame meal

Abstract Sesame seed contains lignans and lignan glycosides. The antioxidative activity of the crude extract of lignan glycosides obtained from unroasted defatted black sesame seeds was investigated in this study. The components responsible for the antioxidative activity were also studied. The unroasted black sesame seeds, after defatted with n-hexane, were extracted with 80% methanolic solution to prepare for the crude extract of lignan glycosides. After chromatographic separation of this crude extract with octadecylsilane (ODS) column (2.5 cm i.d.×100 cm), four fractions (Fr1, Fr2, Fr3, Fr4) of the crude extract were obtained from the eluents of 25, 50, 75% aqueous methanolic solution and 100% methanol, respectively. Among them, Fr2 and Fr3 showed better antioxidative activity by 2,2-Diphenyl-1-picrylhydrazyl hydrate (DPPH) antioxidative assay. These two fractions were further purified by preparative HPLC (Hyperprep 100 C18 column; 20 mm i.d.×250 mm) and the main constituents were found to be lignan glycosides and some unknown brown materials. It was interesting to find that the brown materials (in Fr2) exhibited exceptional DPPH free radical scavenging effect, whereas the identified sesaminol triglucoside in Fr2 and sesaminol diglucoside in Fr3 possess no such activity. Using Cu+2-induced oxidation of human low-density lipoprotein (LDL) for the antioxidative assay, similar results were observed. Seaminol triglucoside and sesaminol diglucoside showed no effect on the extension of lag phase, while the brown materials had excellent inhibitory effect on the oxidation of LDL. Furthermore, natural antioxidants such as γ-tocopherol, sesamol and sesaminol were not detected in the crude extract of lignan glycosides. Our findings suggest that the brown materials present in Fr2 had a significant contribution to the antioxidative activity of the crude extract of lignan glycosides. Identification of the responsible components is underway.

Effects of processing conditions on the quality of vacuum fried apple chips

Abstract The effects of pretreatment and processing conditions on the quality of vacuum fried apple chips were studied. As blanched apple slices were pretreated by immersing in fructose solution and freezing prior to vacuum frying, more uniform porosity was observed on the surface (or cross-section) of apple chips as examined by scanning electron microscopy (SEM). During vacuum frying, the moisture content and breaking force of apple chips decreased with increasing frying temperature and time while the oil content increased. The L values of fried apple chips decreased apparently with increasing frying temperature. However, when apple slices were fried at 100°C for up to 20 min, both a and b values increased rapidly. Statistical analysis with the central composite rotatable design showed that the moisture content, oil content, color, and breaking force of apple chips were significantly (P⩽0.05) correlated with concentration of immersing sugar solution, frying temperature and frying time. Based on surface responses and contour plots, optimum conditions were: vacuum frying temperature of 100–110°C, vacuum frying time of 20–25 min, and immersing fructose concentration of 30–40%.

Antioxidative activity and active components of longan (Dimocarpus longan Lour.) flower extracts.

Three different solvent extracts (methanol, ethyl acetate, and n-hexane) of longan ( Dimocarpus longan Lour.) flowers were assayed with three different antioxidant capacity methods, namely, the DPPH free radical scavenging effect, the oxygen radical absorbance capacity (ORAC) assay, and the inhibition of Cu(2+)-induced oxidation of human low-density lipoprotein (LDL). It was revealed that the methanol extract has the best antioxidative activity, followed by ethyl acetate and n-hexane extracts. The methanol extract was separated by liquid-liquid partition into n-hexane, ethyl acetate, n-butanol, and water fractions. The ethyl acetate fraction was found to have the highest activity of delaying LDL oxidation. After silica gel column chromatography, the fraction having a superior activity was identified as containing two major compounds, (-)-epicatechin and proanthocyanidin A2.

Bioavailability and Tissue Distribution of Sesamol in Rat

Sesamol, generally regarded as the main antioxidative component in sesame oil, can be generated from sesamolin by roasting sesame seed or bleaching sesame oil. This paper reports the bioavailability of sesamol in Sprague-Dawley (SD) rats. Biological fluid was sampled following a dose of sesamol of 50 mg/kg by gastric gavage (p.o.) or by intravenous injection. The pharmacokinetic data of sesamol were calculated by noncompartmental model. The tissue distribution of sesamol (p.o., 100 mg/kg) in SD rats was also investigated. The concentration changes of sesamol were determined in various tissues and plasma within a 24 h period after oral administration of sesamol. The results showed that the oral bioavailability of sesamol was 35.5 +/- 8.5%. Sesamol was found to be able to penetrate the blood-brain barrier and go through hepatobiliary excretion. Sesamol conjugated metabolites were widely distributed in SD rat tissues, with the highest concentrations in the liver and kidneys and the lowest in the brain. It is postulated that sesamol is incorporated into the liver first and then transported to the other tissues (lung, kidneys, and brain). The major metabolites of sesamol distributed in the lung and kidney were glucuronide and sulfate.

Effect of a proanthocyanidin-rich extract from longan flower on markers of metabolic syndrome in fructose-fed rats.

Recent evidence strongly suggests that oxidative stress due to redox imbalance is highly associated with metabolic syndrome. The objective of this study was to evaluate the effect of the supplementation of longan flower water extract (LFWE), which showed powerful antioxidative activity in vitro, on markers of metabolic syndrome in a fructose-fed rat model. Male Sprague-Dawley rats were randomly divided into four groups: group C, fed with standard Purina chow; group F, fed with high-fructose diet (HF) alone; group L, fed with HF plus LFWE 125 mg/kg bw per day by gavage; and group H, fed HF plus LFWE 250 mg/kg bw per day by gavage. The dietary manipulation lasted for 14 weeks. Results of our study showed that rats fed with HF resulted in oxidative stress and affected the antioxidant status including plasma thiobarbituric acid and liver antioxidant enzyme activity. Treatment with LFWE significantly augmented the antioxidant system. HF was able to cause insulin resistance and elevation of the blood pressure. The supplementation of LFWE ameliorated insulin resistance by enhancing the expression of insulin signaling pathway related proteins, including insulin receptor substrate-1 and glucose transporter 4. LFWE supplementation was also found to decrease systolic blood pressure. These findings indicate that longan flower water extract may improve the symptoms of metabolic syndrome in fructose-fed rats.

Biotransformation of ginsenoside Rd in the ginseng extraction residue by fermentation with lingzhi (Ganoderma lucidum).

Ginseng and lingzhi (Ganoderma lucidum) both are valuable traditional Chinese medicines and have been extensively utilised in functional foods and traditional medicines in many Asian countries. However, massive quantity of ginseng residue is produced after extraction of ginseng which still contains a lot of bioactive compounds such as ginsenosides. The goal of this study was to reuse the American ginseng extraction residue as the fermentation medium of G. lucidum to produce bioactive ginsenoside enriched biotransformation products. The changes of ginsenosides in the fermentation products were analysed during fermentation. Our results showed that after 30 days of fermentation, ginsenoside Rg1, Rd, and compound K (CK) significantly increased, especially Rd, while other ginsenosides (Re, Rb1 and Rc) decreased during fermentation. Ginsenoside Rd is the major ginsenoside in the final fermentation product. Furthermore, the biotransformation of ginsenosides was the major reaction in this fermentation process.

Biotransformation of Sesaminol Triglucoside to Mammalian Lignans by Intestinal Microbiota

Plant lignans occur widely in foods, with flaxseed recognized as their richest source. Some plant lignans can be converted by intestinal microbiota to the mammalian lignans, enterodiol and enterolactone, which may have protective effects against hormone-related diseases such as breast cancer. This study determined whether plant lignans in sesame seed, particularly sesaminol triglucoside (STG), could be metabolized to mammalian lignans. STG is a furofuran lignan with methylenedioxyphenyls. The transformation of furofuran lignans to mammalian lignans by intestinal microbiota involves the hydrolysis of glucoside, demethylenation of a methylene group, oxidation of dibenzylbutanediol to dibenzylbutyrolactone, and reductive cleavage of furofuran rings. STG has methylenedioxyphenyl moieties in their structures that may require additional oxidative demethylenation of the methylenedioxyphenyl ring for conversion to mammalian lignans. However, STG is metabolized, via intestinal microbiota, to a catechol moiety. The major STG metabolite was characterized as 4-[((3R,4R)-5-(6-hydroxybenzo[d][1,3]dioxol-5-yl)-4-(hydroxymethyl)tetrahydrofuran-3-yl)methyl]benzene-1,2-diol using NMR and mass spectrometry, and STG could be converted to enterolactone and enterodiol by rat intestinal microflora.

Elimination and metabolism of sesamol, a bioactive compound in sesame oil, in rats.

Sesamol, generally regarded as a main antioxidative component in sesame oil, is generated from sesamolin upon roasting of sesame seed or during bleaching process of sesame oil. This investigation studied the bioavailability and excretion of sesamol in Sprague-Dawley rats. After oral administration of sesamol (p.o. 100 mg/kg) to SD rats, the changes in concentration of sesamol were determined in various excreta within 24 h period. Our results showed that sesamol conjugated metabolites were rapidly eliminated from urine and feces in 0-4 h. The majority of intact sesamol glucuronide was excreted in the urine. It is suggested that sesamol conjugated metabolites are primarily eliminated from the plasma via the kidney by active tubular secretion. LC-MS/MS analyses of rat excreta showed that sesamol can be converted to 2-methoxybenzene-1,4-diol and benzene-1,2,4-triol in vivo by rat.

Blazeispirol A from Agaricus blazei fermentation product induces cell death in human hepatoma Hep 3B cells through caspase-dependent and caspase-independent pathways.

Currently, liver cancer is a leading cause of cancer-related death in the world. Hepatocellular carcinoma is the most common type of liver cancer. Previously, it was reported that blazeispirol A (BA) is the most active antihepatoma compound in an ethanolic extract of Agaricus blazei fermentation product. The aim of this study was to understand the antihepatoma mechanism of BA in human liver cancer Hep 3B cells. The results showed that BA inhibited the growth of Hep 3B cells and increased the percentage of cells in sub-G1 phase in a concentration- and time-dependent manner. In addition, BA treatment resulted in DNA fragmentation, caspase-9 and caspase-3 activations, poly(ADP-ribose)polymerase (PARP) degradation, down-regulation of Bcl-2 and Bcl-xL expressions, up-regulation of Bax expression, and disruption of the mitochondrial membrane potential (MMP) in Hep 3B cells. Furthermore, z-VAD-fmk, a caspase inhibitor, did not enhance the viability of BA-treated Hep 3B cells, and BA induced the release of HtrA2/Omi and apoptosis-inducing factor (AIF) from mitochondria into the cytosol. These findings suggested that BA with novel chemopreventive and chemotherapeutic potentials causes both caspase-dependent and caspase-independent cell death in Hep 3B cells.

Effect of fermentation time on antioxidative activities of Ganoderma lucidum broth using leguminous plants as part of the liquid fermentation medium.

Oxidative damage plays an important role in the pathology of human diseases. Ganoderma lucidum, a medicinal fungus, has been used for thousands of years in traditional Oriental medicine. It is reported to have antioxidant functions such as inhibition of lipid peroxidation. The objective of the present study was to investigate the effect of fermentation time on the antioxidative activities of G. lucidum broth filtrate using leguminous plants as part of the liquid fermentation medium. Inhibition of Cu(2+)-induced oxidation of human low-density lipoprotein (LDL), DPPH radical-scavenging activity, total phenolic compounds, isoflavones and protocatechuic acid were measured to evaluate the antioxidant activity of G. lucidum fermentation broth filtrate. Our results showed that black soybean and Astragalus membranaceus improved the antioxidant activity of the G. lucidum fermentation broth filtrate. Protocatechuic acid was identified by LC-MS as the antioxidant compounds whose relative potency of inhibiting LDL oxidation to Trolox is 1.55. Protocatechuic acid showed positive correlation with the antioxidant activity of the fermentation broth filtrate while isoflavones did not contribute to antioxidant activity.