色氨酸微生物吲哚代谢途径在IBD治疗及新药研发中的作用

炎症性肠病(IBD)是一种慢性非特异性肠道炎症,复发性较高。我国IBD发病逐年升高,但发病机制仍不明确,且无根治性药物。近年肠道微生物产生的小分子代谢物逐渐被重视,对调节宿主病理生理状态具有重要作用,其中色氨酸经肠道微生物群代谢产生的吲哚类物质与IBD关系密切。本文就吲哚类物质在IBD中的变化特点、生理功能及药物对吲哚类物质代谢通路的影响进行综述,以便深入了解肠道微生物产生的吲哚类代谢物与IBD的关系,为IBD治疗和新药研发提供新的方向和突破点。

色氨酸微生物代谢产物的肠道免疫调节作用及其机制

肠道微生物参与营养吸收、物质代谢、肠道免疫调节等重要的生理过程,并与多种疾病的发生有关系。作为一种必需氨基酸,色氨酸及其微生物代谢产物包括吲哚和吲哚酸衍生物等在维持肠道稳态方面发挥着重要的作用。芳香烃受体(AhR)通过结合其配体(色氨酸微生物代谢产物)调节肠道免疫,有助于维持肠道免疫平衡。本综述主要阐述色氨酸微生物代谢产物发挥维持肠道免疫平衡、维护肠道健康作用的机制,以期为外源色氨酸预防或治疗肠道炎症反应提供新思路。

淡水壳菜模拟代谢酸对水泥基材料侵蚀机理研究

利用人工配制淡水壳菜代谢酸侵蚀溶液,通过体视显微镜、扫描式电子显微镜、X射线衍射、综合热分析和压汞分析等方法分析侵蚀前后水泥基材料组成与结构的变化,揭示生物侵蚀机理。试验结果表明,侵蚀后水泥基材料表层开裂严重,氢氧化钙含量明显降低,总孔隙率和孔径随侵蚀时间的延长而增大,这将对水泥基材料的整体结构与性能产生不利影响。开展代谢酸对水泥基材料侵蚀机理研究,对水工建筑结构的生物侵蚀破坏研究具有重要的参考价值。

Expression of Recombinant Tryptophan Decarboxylase in Different Subcellular Compartments in Tobacco Plant

The gene encoded for tryptophan decarboxylase (TDC), which is the key enzyme in terpenoil indole alkaloids pathway, was targeted to different subcellular compartments and stably expressed in transgenic tobacco (Nicotiana tabacum L.) plants at the levels detected by Western blot and tryptamine accumulation analysis. It was shown that the TDC was located in subcellular compartments, the chloroplasts and cytosol. The recombinant TDC targeted to chloroplasts and cytosol in tobacco plants was effectively expressed as soluble protein by Western blot analysis and enzymatic assay. The level of tryptamine accumulation in chloroplast was higher than that in cytosol and very low in vacuole and endoplasmic reticulum (ER) to be hardly detected by Western blot analysis. It was indicated that the highest amount of tryptamine was in chloroplasts, lower in endoplasmic reticula and the lowest in vacuoles as compared to those in wild type plants. The TDC targeted to different subcellular compartments of tobacco plants and its expression level were studied by different nucleotide sequences coding signal peptides at 5'-end of tdc gene in order to know the effects of the TDC in compartmentation on its functionality.

Advances in Molecular Mechanism of Microbiological Degradation of Salicylate

Salicylate is a type of pollutant widely and persistently existed in environ- ment. Microbiological degradation of salicylate as one kind of biological remediation methods has the advantages of low cost, good effect and no secondary pollution, and also attracts wide attention both at home and abroad. Currently, many salicy- late-degrading bacteria are isolated and screened, while the molecular mechanism of salicylate metabolism is also worth deep research. The research about molecular mechanism of microorganism degradation was overviewed, various degrading path- ways including catechol meta-cleavage pathway and gentisate pathway were intro- duced, and the latest progress in regulating genes of salicylate degradation was summarized.

Chemical constituents of marine mangrove-derived endophytic fungus Alternaria tenuissima EN-192

A chemical investigation of the ethyl acetate extract of the fermentation broth of Alternaria tenuissima EN- 192, an endophytic fungus obtained from the stems of the marine mangrove plant Rhizophora stylosa, resulted in the isolation of nine known secondary metabolites, including four indole-diterpenoids： penijanthine A （1）, paspaline （2）, paspalinine （3）, and penitrem A （4）; three tricycloalternarene derivatives： tricycloalternarene 3a （5）, tricycloalternarene lb （6）, and tricycloalternarene 2b （7）; and two alternariol congeners： djalonensone （8） and alternariol （9）. The chemical structures of these metabolites were characterized through a combination of detailed spectroscopic analyses and their comparison with reports from the literature. The inhibitory activities of each isolated compound against four bacteria were evaluated and compounds 5 and 8 displayed moderate activity against the aquaculture pathogenic bacterium Vibrio anguillarum, with inhibition zone diameters of 8 and 9 mm, respectively, at 100 gg/disk. To the best of our knowledge, this is the first report on the secondary metabolites of mangrove-derived Alternaria tenuissima and also the first report of the isolation ofindole-diterpenoids from fungal genus Alternaria.

Cloning of ACC Oxidase （ACO） Gene from Dendrobium officinale

Many studies suggest that ethylene plays an important role in regulating metabolite synthesis. Dendrobium plants are traditional Chinese medicine and nowadays its medicinal components are known to be secondary metabolites. In present study, a homolog of ACC oxidase （ACO） gene was isolated from flowers of Dendrobium officinale Kimura et Migo by PCR-method. The obtained cDNA of DoACO is 970 bp long and contains an open reading frame （ORP） encoding a protein with 314 amino acid residues. The DoACO shows high identity to its homologues from other plant species, that has 94.8% closest amino acid sequence of related protein with the ACO from Dendrobium hybrid cultivar. The putative ORP of the obtained sequence could encode a proper protein in respect of molecular weight under T -Lac promoter in E. coli.

Effect of Phenolic Compounds on the Growth and L-Malic Acid Metabolism of Oenococcus oeni

The effect of some phenolic compounds recurrent in wines on technological features of Oenococcus oeni was studied in order to individuate those strains to be utilized as starter in the deacidification of aged red wines. For this purpose, the growth and the L-malic acid metabolism of 100O. oeni strains, previously isolated from different wines, was assayed in a synthetic medium added with ethanol, malic acid and phenol carboxylic （gallic, caffeic, p-coumaric and ferulic） acids or flavonoids （catechin and quercetin） at different concentrations. Results evidenced a different sensitivity of strains to each assayed compound. All the compounds restrained or stimulated the growth of 57 and 11 strains respectively, while no effect was detected on 6 strains. The remaining 26 strains showed a different behaviour： all were restrained by ferulic acid and stimulated by gallic acid and catechin. As for caffeic acid, 17 out of 26 strains were restrained, while 9 strains were stimulated. The main result obtained in this study was the establishment of a relationship between the effect of phenolic compounds on the O. oeni growth and the behaviour of the malolactic fermentation. This study may enrich the selection criteria of strains for the deacidification of aged red wines.

Salt Stress Effects on Germination, Plant Growth and Accumulation of Metabolites in Five Leguminous Plants

The investigation was conducted to determine physiological criteria of early selection for salt tolerant leguminous plants. Plants were subjected to 5 levels of salt stress at the roots （0, 50, 100,150 and 200 mM NaCI）. Results showed that sodium chloride had an underrating effect on growth of stems and seed germination of the species studied. The germination rates of seeds of Glycine max and Phaseolus vulgaris （sensitive glyeophytes） were affected from 3 g/L of NaCl, with critical thresholds at 9 and 12 g/L respectively. In contrast, critical thresholds with Mucunapoggei （facultative halophyte）, Vigna unguiculata （moderately tolerant glycophyte） and P. adenanthus （natural halophyte） was found to be above 21 g/L. The reduction of stems growth rate were not significant in P. adenanthus whereas in M. poggei and V. unguiculata this inhibition was observed just when nutritive solutions were enriched with 200 mM. The lipid contents were reduced in all the species under salt stress, whereas proteins and proline contents in the leaves were substantially increased in tolerant species （M. poggei, P. adenanthus and V. unguiculata）. In contrast, proteins and leaf proline contents were negatively affected by salt concentration to G. max and P. vulgaris. Seed germination, proteins and proline could be used as physiological criteria of early selection for salt tolerant leguminous plants.

Alteration in Biochemical Response in Sesamum indicum upon Different Plant-Pathogen Interactions

Sesamum, an important oil yielding crop suffers a huge loss in its yield due to attack of large number of fungal pathogens. In semi-arid regions Sesamum is mainly affected by two major plant-pathogenic fungus viz. Macrophomina phaseolina and Fusarium oxysporum. The aim of the study was to analyze the metabolic alterations in Sesamum after infection with both pathogens. This accomplished by individually by （the word estimating is not quantitative） the levels of total phenolic compounds and the activities of phenylalanine ammonia lyase （PAL） of one week old plants. The PAL showed high activity in infected plants, revealing the active phase in the synthesis of secondary metabolites in the Sesamum plant after infection. As a consequence, in infected plants the contents of polyphenols along with salicylic acid （SA） considerably exceeded when compared to control plants. This in vivo study of M. phaseolina and F. oxysporum infection reveals the differences of resistance levels in sesame against these two pathogens. These results provide important information regarding the plant-pathogen interactions and also forfor Sesamum improvement programs seeking the adaptation to diverse range of fungal attack along with adverse environmental factors.

Effect of Huanglianjiedu Tang on fever in rats induced by 2, 4-dinitrophenol

OBJECTIVE: To study metabolic characteristics of fever in rats induced by 2, 4-dinitrophenol (DNP) and the effect of Huanglianjiedu Tang (HLJDT) on the fever. METHODS: The urine samples were analyzed by ultra-performance liquid chromatography/electrospray ionization quadruple time-of-flight mass spectrometry (UPLC/ESI-Q-TOF-MS) at the positive ion mode scanning, and experimental data were analyzed by the principal component analysis. RESULTS: Eight potential biomarkers indicating the occurrence and evolvement of fever were determined according to ions in urine samples. Five of them were found increased, while the other three decreased. After HLJDD intervention, the increased five were reduced significantly in high dose group, compared with model group, while the decreased three had no obvious change. Five of the eight biomakers were identified with formyl-5-hy-droxykynurenamine, gentisic acid, aminoadipic acid, phenylacetic acid, L-phenylalanyl-L-hydroxyproline on the basis of MS/MS.These biomarkers are associated with the metabolism of 5-hydroxytryptamine, tyrosine, lysine, phenylalanine and collagen protein, respectively. CONCLUSION: HLJDT had significant effect on DNP-induced fever in rats. The effect was performed possibly by acting on 5-hydroxytryptamine in hypothalamus and some amino acid metabolism. These results suggested that HLJDT relieved fever by acting on multi-targets.