Ferulic acid and its water-soluble derivatives inhibit nitric oxide production and inducible nitric oxide synthase expression in rat primary astrocytes

We recently reported that two water-soluble derivatives of ferulic acid (1-feruloyl glycerol, 1-feruloyl diglycerol) previously developed by our group exhibited protective effects against amyloid-β–induced neurodegeneration in vitro and in vivo. In the current study, we aimed to further understand this process by examining the derivatives’ ability to suppress abnormal activation of astrocytes, the key event of neurodegeneration. We investigated the effects of ferulic acid (FA) derivatives on nitric oxide (NO) production and inducible nitric oxide synthase (iNOS) expression in rat primary astrocytes. The results showed that these compounds inhibited NO production and iNOS expression in a concentration-dependent manner and that the mechanism underlying these effects was the suppression of the nuclear factor-κB pathway. This evidence suggests that FA and its derivatives may be effective neuroprotective agents and could be useful in the treatment of neurodegenerative diseases, such as Alzheimer’s disease and Parkinson’s disease.     

诱导型一氧化氮合酶介导β淀粉样蛋白在体神经毒性

目的：探讨一氧化氮合酶（NOS）及一氧化氮（NO）在β淀粉样蛋白（Aβ）神经毒性和Alzheimer病（AD）发病机制中的介导作用。方法：应用行为学及病理学方法,观察海马注射Aβ1－40对大鼠Y迷宫学习记忆的影响及对局部神经元的损伤作用;观察特异性诱导型一氧化氮合酶（iNOS)抑制剂胍氢酶（AG）及特异性神经元型一氧化氮合酶(nNOS)抑制剂7－硝基吲哚（7－NI）腹腔注射对海马内注射Aβ1－40神经毒性的干预,结果：海马注射Aβ1－40后,大鼠Y迷宫学习记忆能力及海马局部神经元明显受损,特异性iNOS抑制剂AG能够阻止Aβ1－40海马注射对大鼠学习记忆和局部神经元的损伤作用,而特异性nNOS抑制剂7－NI无此干预效应。结论：iNOS/NO参与了在体条件下对Aβ神经毒性的介导,在AD发病机制中具有重要作用。     

节杆菌(Arthrobacter sp.)降解阿魏酸的效能

[背景]蓄积在土壤中的阿魏酸类化感自毒物质对农作物生长产生危害,利用有益微生物分解该类物质是一项有效的治理措施.[目的]从自然界土壤分离获得能高效降解阿魏酸的菌株,并评估典型环境因子对降解效能的影响,以期为该菌在阿魏酸类自毒物质降解领域中的应用提供理论依据.[方法]采用一次性投加高浓度化合物的驯化方法分离筛选得到能有效...     

Regioselectivity of ferulic acid polymerization catalyzed by oxidases

Enzymatic oxidation of ferulic acid catalyzed by oxidases (laccase and peroxidase) was carried out. Ferulic acid was shown to be subjected to oxidative processes leading to the formation of oligomeric and polymeric structures. The polymer formation takes place due to the formation of C_Ar-C_Ar- and C_Ar-O-C_Ar-bonds, as well as due to reactions of opening of the propane chain double bond. Different dynamic conditions of the enzymatic reactions were used to study the effects of conditions on the biosynthesis in vitro of some dehydropolymers: the method of dropwise mixing (endwise polymers) and a single addition (bulk polymers). The chemical structures of the resulting compounds were examined by the methods of IR, ¹H NMR, and ¹³C NMR spectroscopy. Differences in the quantitative ratio of structural fragments in a polymer cause changes in its thermal characteristics.     

Oxidative dimerization of ferulic acid by extracts from Sorghum

Extracts from leaves and first internodes of Sorghum bicolor catalyze the conversion of ferulic acid to a β-β-coupled dimer, the dilactone dimer of ferulic acid. The dilactone is then hydrolyzed, probably non-enzymatically, to a blue fluorescing compound, tentatively identified as a β-β-coupled dimer with at least one lactone ring opened to form a carboxylic acid. Both the initial enzymatic and the subsequent non-enzymatic steps are greater at pH 8 than pH 6. The most active preparation is a crude particulate fraction from leaves obtained by centrifugation at 37000 g; white light increases the amount of dimer formed.     

阿魏酸对脂多糖诱导的小鼠小胶质细胞炎性反应的抑制作用

阿魏酸是川芎、当归等中药的有效成分之一,具有较强的抗氧化活性和抗炎作用。小胶质细胞是脑内常驻的免疫效应细胞,极易被激活而导致脑内发生慢性神经性炎症反应,与阿尔茨海默病等神经退行性疾病的发生发展密切相关。该研究采用脂多糖(LPS)刺激小胶质细胞(BV-2)活化,研究阿魏酸对炎症反应的抑制作用。结果表明,2.5～22.5μg/mL的阿魏酸浓度依赖性的抑制一氧化氮(NO)、前列腺素E2(PGE2)、白介素-1β(IL-1β)等炎症因子的产生,以及一氧化氮合酶(iNOS)、环氧合酶-2(COX-2)蛋白的表达,其作用机制可能与其抑制Toll样受体4(TLR4)表达有关。     

Absorption of ferulic acid from low-alcohol beer

Flavonoids and monophenolic compounds have been well-described over recent years for their properties as antioxidants and scavengers of reactive oxygen and nitrogen species. A number of epidemiological studies implicate a role for flavonoids in reducing the risk of coronary heart disease. In particular, the focus has been on flavonol-rich fruit and vegetables and flavonoid-rich beverages, especially tea and red wine. Mechanisms of protection are unclear since the absorption, distribution, metabolism and elimination of dietary phenolics have not yet been extensively investigated. Here we report the bioavailability of ferulic acid, 4-hydroxy-3-methoxy-cinnamic acid, the major hydroxycinnamate in beer. Studies of the pharmacokinetics of urinary excretion of ferulic acid from low alcohol beer consumption in humans have been undertaken. The results show that ferulic acid is absorbed with a peak time for maximal excretion of ca. 8 h and the mean cumulative amount excreted is 5.8±3.2 mg. These findings are consistent with the uptake of ferulic acid from dietary sources, such as tomatoes, and suggest that ferulic acid is more bioavailable than individual dietary flavonoids and phenolics so far studied.     

Oxygen fixation in the biosynthesis of ferulic acid by green Zea mays

The results of experiments in which seedlings of Zea mays were grown in the light in an atmosphere enriched with oxygen-18 indicate that the hydroxyl and methoxyl oxygen atoms in ferulic acid are derived from molecular oxygen.     

Covalently attached ferulic acid in a proteoglycan from rice bran

A water-soluble proteoglycan, precipitated with ammonium sulfate from the hot-water extract of rice bran, contained ferulic acid, which was liberated by alkaline treatment. Evidence for the linkage between the carboxyl group of ferulic acid and the proteoglycan was obtained by the characterization of ferulic acid hydroxamate after treatment of the proteoglycan with hydroxylamine.     

Microbial production of 4-vinylguaiacol from ferulic acid by Bacillus cereus SAS-3006

Abstract

Ferulic acid is an abundant cinnamic acid derivative found in the plant kingdom. It is a commercially available substrate utilized to produce flavor compounds such as 4-vinylguaiacol (4-VG), vanillin, and vanillic acid. The isolate Bacillus cereus SAS-3006 was screened and selected based on its ability to produce 4-VG upon ferulic acid biotransformation. It was identified based on morphological and physiochemical characteristics and its 16S ribosomal DNA sequence (GenBank accession number: KF699134). A maximum amount (79.4 mg/L) of 4-VG accumulation was observed on the 5th day of incubation when the culture was grown on 2.5 mM ferulic acid as sole carbon source. Further conversion of 4-VG to other intermediates such as vanillin, vanillic acid, protocatechuic acid, acetovanillone, and vanillyl alcohol was not observed. In-vitro conversion of ferulic acid to 4-VG was also studied with cell extracts of B. cereus SAS-3006. The present study provides the first evidence for production of 4-VG as the sole product using B. cereus SAS-3006.     

Metallothionein-3 and neuronal nitric oxide synthase levels in brains from the Tg2576 mouse model of Alzheimer's disease

Using antiserum against the recombinant isoform 3 of mouse brain metallothionein (MT3), the amount of MT3 protein was determined in whole brain homogenates from the Tg2576 transgenic mouse model of Alzheimer's Disease. Twenty-two month old transgenic positive mice showed a 27% decrease of MT3 normalized to the total protein in the extracts compared to same age, control transgenic negative mice. Metallothioneins bind seven molar equivalents of divalent metal ions per mole of protein so metal levels also were measured in these whole brain extracts using inductively coupled plasma atomic absorption (ICP-AA) spectrometry. No significant difference was observed for any metal assayed. Because neuronal nitric oxide synthase (nNOS) is involved in neurodegenerative disease and nitric oxide specifically interacts with MT3, the concentration and total nNOS activity also were evaluated. The transgenic positive mice showed a decrease of 28% in nNOS protein compared to the same age transgenic negative mice. Normalized to the amount of nNOS protein, total NOS activity was higher in the transgenic positive mice. These data showed that protein levels of both MT3 and nNOS were reduced in transgenic positive mice that show many characteristics of Alzheimer's Disease. In vitro studies suggested that MT3 was not a likely candidate for directly affecting nNOS activity in the brain.     

Radiation protection of DNA by ferulic acid under in vitro and in vivo conditions

The effect of ferulic acid was studied on γ-radiation-induced relaxation of plasmid pBR322 DNA and induction of DNA strand breaks in peripheral blood leukocytes and bone marrow cells of mice exposed to whole body γ-radiation. Presence of 0.5 mM ferulic acid significantly inhibited the disappearance of supercoiled (ccc) plasmid pBR322 with a dose modifying factor (DMF) of 2.0. Intraperitoneal administration of different amounts (50, 75 and 100 mg/kg body weight) of ferulic acid 1 h prior to 4 Gy γ-radiation exposure showed dose-dependent decrease in the yield of DNA strands breaks in murine peripheral blood leukocytes and bone marrow cells as evidenced from comet assay. The dose-dependent protection was more pronounced in bone marrow cells than in the blood leukocytes. It was observed that there was a time-dependent disappearance of radiation induced strand breaks in blood leukocytes (as evidenced from comet parameters) following whole body radiation exposure commensuration with DNA repair. Administration of 50 mg/kg body weight of ferulic acid after whole body irradiation of mice resulted disappearance of DNA strand breaks at a faster rate compared to irradiated controls, suggesting enhanced DNA repair in ferulic acid treated animals. (Mol Cell Biochem xxx: 209–217, 2005)     

ZL11n is a novel nitric oxide-releasing derivative of farnesylthiosalicylic acid that induces apoptosis in human hepatoma HepG2 cells via MAPK/mitochondrial pathways

ZL11n is a novel furoxan-based nitric oxide (NO)-releasing derivative of farnesylthiosalicylic acid. In this study, we examined the anticancer effects and the potential mechanism of action of ZL11n in vitro and in vivo. It was found that ZL11n exhibited a favorable, selective cytotoxic effect in the HepG2 cell line. The yield of NO in the ZL11n treated HepG2 cells was much higher than in the control group and the normal human liver L-02 cells. Furthermore, the NO concentration was correlated to the degree of cytotoxicity observed. The ZL11n-induced apoptosis was assessed by Annexin V-FITC/propidium iodide flow cytometry assay. ZL11n triggered the mitochondrial/caspase apoptotic pathway by decreasing mitochondrial membrane potential, cytochrome c release from mitochondrial, and reducing the Bcl-2-to-Bax ratio, in addition to activating the caspase cascade. Simultaneously, we found that ZL11n treatment led to an increase in JNK and ERK1/2 phosphorylation. Furthermore, treatment with SP600125 (a JNK inhibitor) and PD98059 (an ERK1/2 inhibitor) prior to ZL11n treatment was found to significantly reverse ZL11n-induced apoptosis. The in vivo findings also revealed that ZL11n significantly reduced tumor volume and weight in the H₂₂ solid tumor mouse model examined. In short, our findings suggest that ZL11n induced apoptosis through the coordination of the mitochondrial apoptotic pathway (activated by NO) and MAPKs signaling pathway (triggered by JNK or ERK).     

阿魏酸和肉桂酸对杉木种子发芽的效应

杉木〔Ｃｕｎｎｉｎｇｈａｍｉａｌａｎｃｅｏｌａｔａ (Ｌａｍｂ .)Ｈｏｏｋ .〕连栽导致地力衰退问题 ,国内大多从提高土壤肥力和完善栽培制度方面进行研究[1 ] ,对化感自毒物质的毒害作用却注意不够。据报道杉木根桩与周围土壤酚类物质对杉木存在自毒作用[2 ] ,但除酚剂 (乙烯吡咯啉酮Ｋ30 0 )能降低杉木及其林下土壤的这种自毒作用[3 ] ,这暗示杉木叶、根等器官中含有酚类化感物质 ;香草醛 (ｖａｎｉｌｌｉｎ)对杉木幼苗生长也具有毒害作用[4] 。阿魏酸 (ｆｅｒｕｌｉｃａｃｉｄ)、肉桂酸 (ｃｉｎｎａｍｉｃａｃｉｄ)和香草醛同属于化感…     

Binding of ferulic acid to cell walls by peroxidases of Pinus elliottii

Lignin is formed abundantly in the maturing walls of slash pine cambial cells, but very little in slash pine callus cell walls. Peroxidases removed from the cytoplasm of callus or cambial cells with phosphate buffer (soluble peroxidase), from the walls with NACl (ionically bound peroxidase), and from the walls with cellulase (covalently bound peroxidase) differed in their capacity to catalyze bond formation between carbohydrate and ferulic acid or its condensation products. Bond formation per unit of enzyme was highest in the peroxidases of cambium, especially in those attached ionically or covalently to the cell walls. The wall-bound peroxidases also catalyzed the strongest linkages between lignin monomers and carbohydrates as estimated by their resistance to hydrolysis by NaOH.     

Spectroscopic analysis on the interaction of ferulic acid and tetramethylpyrazine with trypsin

The interaction of trypsin with tetramethylpyrazine (TMP) and ferulic acid (FA) was studied using fluorescence, synchronous fluorescence, UV–vis absorption, circular dichroism (CD) and three‐dimensional (3D) fluorescence spectra techniques. Using fluorescence quenching calculations, the bimolecular quenching constant (k_q), apparent quenching constant (K_SV), effective binding constant (K_a) and binding site number (n) were obtained. The distance r between donor and acceptor was found to be 2.049 and 1.281 nm for TMP–trypsin and FA–trypsin complexes. TMP and FA can quench the fluorescence intensity of trypsin by a static quenching procedure. Thermodynamic parameters calculated on the basis of different temperatures revealed that the binding of trypsin to TMP/FA mainly depended on van der Waals' forces and hydrogen bonds. The effect of TMP and FA on the conformation of trypsin was analyzed using synchronous fluorescence, CD, 3D fluorescence spectra and molecular docking studies. Copyright © 2013 John Wiley & Sons, Ltd.     

Biotransformation of ferulic acid to acetovanillone using Rhizopus oryzae

Microbial transformation of ferulic acid to acetovanillone was studied using growing cells of Rhizopus oryzae. Ferulic acid was added to the growing medium (0.5 g L^?1) and incubated for 12 days. The progress of formation of metabolites was monitored by GC and GC-MS after extraction with ethyl acetate. The major metabolite was acetovanillone with minor metabolites formed, such as dihydroferulic acid, coniferyl alcohol and dihydroconiferyl alcohol. Traces of metabolites (≤1–3%), such as vanillin, vanillyl alcohol, vanillic acid and phenyl ethyl alcohol, were also produced. Formation of 4-vinyl guaiacol increased from day 1 (12.4%), reaching a maximum on day 4 (31.7%), and reducing to a minimum on day 12 (3.1%). The formation of acetovanillone increased only from day 2 onward, and reached a maximum (49.2%) on day 12. The optimum concentration of ferulic acid to be added into the medium was found to be only 0.5 g L^?1, as any increase in concentration (0.75 and 1.0 g L^?1) precipitated the precursor, resulting in no further degradation.     

Biotransformation of ferulic acid to acetovanillone using Rhizopus oryzae

Microbial transformation of ferulic acid to acetovanillone was studied using growing cells of Rhizopus oryzae. Ferulic acid was added to the growing medium (0.5 g L^-1) and incubated for 12 days. The progress of formation of metabolites was monitored by GC and GC-MS after extraction with ethyl acetate. The major metabolite was acetovanillone with minor metabolites formed, such as dihydroferulic acid, coniferyl alcohol and dihydroconiferyl alcohol. Traces of metabolites (≤1-3%), such as vanillin, vanillyl alcohol, vanillic acid and phenyl ethyl alcohol, were also produced. Formation of 4-vinyl guaiacol increased from day 1 (12.4%), reaching a maximum on day 4 (31.7%), and reducing to a minimum on day 12 (3.1%). The formation of acetovanillone increased only from day 2 onward, and reached a maximum (49.2%) on day 12. The optimum concentration of ferulic acid to be added into the medium was found to be only 0.5 g L^-1, as any increase in concentration (0.75 and 1.0 g L^-1) precipitated the precursor, resulting in no further degradation.     

Neuronal nitric oxide synthase contributes to chronic stress-induced depression by suppressing hippocampal neurogenesis

Increasing evidence suggests that depression may be associated with a lack of hippocampal neurogenesis. It is well established that neuronal nitric oxide synthase (nNOS)-derived NO exerts a negative control on the hippocampal neurogenesis. Using genetic and pharmacological methods, we investigated the roles of nNOS in depression induced by chronic mild stress (CMS) in mice. Hippocampal nNOS over-expression was first observed 4 days and remained elevated 21 and 56 days after exposure to CMS. The mice exposed to CMS exhibited behavioral changes typical of depression, and impaired neurogenesis in the hippocampus. The CMS-induced behavioral despair and hippocampal neurogenesis impairment were prevented and reversed in the null mutant mice lacking nNOS gene (nNOS−/−) and in the mice receiving nNOS inhibitor. Disrupting hippocampal neurogenesis blocked the antidepressant effect of nNOS inhibition. Moreover, nNOS−/− mice exhibited antidepressant-like properties. Our findings suggest that nNOS over-expression in the hippocampus is essential for chronic stress-induced depression and inhibiting nNOS signaling in brain may represent a novel approach for the treatment of depressive disorders.     

Insights into the binding of ferulic acid to the thermally treated xanthine oxidase

Ferulic acid (FA) is a biologically active compound used as an additive in the food industry, and possesses a wide range of therapeutic effects for treating different health problems. The interaction between FA and bovine xanthine oxidase (XOD) has been investigated by means of fluorescence spectroscopy methods. The numbers of binding sites and the binding constants were estimated at various temperatures and the results indicated the existence of one specific FA binding site of XOD. Detailed information on the interaction between molecules gathered after performing in silico molecular docking indicated the accommodation of the FA molecule in a XOD binding pocket, in close vicinity to the active site residues. The formation of the XOD–FA complex causes the quenching of protein fluorescence. The process followed a static mechanism at lower temperatures, and a dynamic mechanism at higher temperatures. The thermodynamic parameters calculated on the basis of different temperatures revealed that the association between FA and XOD is a spontaneous process driven by enthalpy and dominated by hydrogen bonding and van der Waals interaction. The results of synchronous fluorescence and 3D fluorescence spectra showed that the conformation of protein was altered in the presence of FA. Copyright © 2016 John Wiley & Sons, Ltd.