颗粒活性炭吸附去除尿中药活性化合物(PhACs)

研究了多组分背景下2种煤质颗粒状活性炭D1220、R08S对人尿中4种药活性化合物(PhACs)(1 mg/L)——苯扎贝特(BEZ)、卡马西平(CAR)、布洛芬(IBU)和美托洛尔(MET)——的吸附去除。结果表明,D1220(R08S)对4种PhAC的吸附均符合Freundlich等温式,均为优惠吸附;D1220(R08S)对各PhAC的吸附作用强弱顺序为BEZ>CAR>MET>IBU(BEZ>CAR>IBU>MET);PhACs平衡浓度小于3.01(0.91)μg/L时,D1220(R08S)对4种PhACs中的BEZ的吸附性能最好,平衡浓度大于3.01(1.93)μg/L时,D1220(R08S)则对MET的吸附性能最好;活性炭投加量为2 g/L时,D1220(R08S)对4种PhAC的去除率均在88%以上;总体吸附性能D1220优于R08S。

“一珠一化合物”组合化学方法筛选抗万古霉素耐药菌活性化合物

目的寻找新的抗万古霉素耐药菌活性化合物。方法首次采用固相法合成了分别用生物素 (Biotin)和12 5I标记的D Ala D Lactate和D Ala D Ala探针化合物以及 18个结构限定性的多肽和多肽衍生物化学库 ,并建立了“一珠一化合物”组合正交筛选实验方法。结果发现了一个新的体外抑制低水平万古霉素耐药菌的化合物 (Enterococcusfaecalis,ATCC 5 12 99,MIC值为 17 5mg/L)。该化合物对万古霉素敏感菌菌株的抑制活性为MIC 6 2 5mg/L (Staphylococcusaurreus ,ATCC 2 5 92 3)。结论“一珠一化合物”

植物内生菌中抗耐药微生物活性成分的研究进展

随着抗生素不合理应用所引发的细菌耐药性逐年增多,细菌耐药已经成为全世界都面临的严重问题。面对日益严峻的细菌耐药性问题,除了合理规范的使用抗生素,寻找新的抗微生物药物无疑是解决该问题的重要举措。植物内生菌作为一种新型亟待开发的微生物资源,其丰富的微生物和次级代谢产物多样性为寻找新型抗耐药微生物活性物质提供了可能,显示出极具潜力的研究开发价值。就近年来植物内生菌中抗耐药微生物活性成分的研究进展进行综述,以期为新型抗耐药微生物药物的研究提供参考。

Determination of anthraquinone prodrug and its hydrolytically active compounds using RP-HPLC

In order to study the hydrolytic characterization of an anti-inflammatory prodrug （ RI-1 ） in vitro, an effective, accurate and reliable method for the simultaneous determination of the prodrug and its two hydrolytic active compounds is developed using reverse phase high-performance liquid chromatography （RP-HPLC）. The chromatographic separation is performed on an ODS-2 C18 column （250 mm × 4. 6 mm, 5.0 μm particle size） with a simple elution program. The mobile phase is V（ methanol） ： V（0. 1% phosphoric acid solution） =90：10 （adjust pH to 2. 3）. A wavelength of 225 nm and a mobile phase flow rate of 1.0 mL/min are utilized for the quantitative analysis. Excellent linear behaviors over the investigated concentration ranges are observed with values of R2 higher than 0. 999 for all the analytes. The validated method is successfully applied to the simultaneous determination of the prodrug and its active components can be used to detect hydrolytic characterization in vitro.

Selenium Distribution Pattern, Antineoplastic and Immunostimulatory Activities of a Novel Organoselenium Compound Eb

Aim To study the distribution pattern, antineoplastic activity and immunocompetence of a novel organoselenium compound Eb and investigate its in vivo antineoplastic potential. Methods Eb was administered to Kunming mice (dosage, 0.1 g·kg^(-1)·d^(-1)) intragastrically for 7 successive days. The contents of selenium in heart, liver, spleen, kidneys, lungs, stomach, brain, muscle, and bone were determined by fluorometric method on the eighth day. MTT assay was used to study tumor growth inhibition of Eb in vitro, and lymphocyte transformation, hemolysin formation and phagocytosis assay were used to study its immunocompetence. Results After 7 days′ administration of Eb, the tissue contents of sele-(nium) in liver, spleen, lungs, kidneys, and bone of mice increased, especially those in liver and spleen increased significan-tly, compared with controls; but no significant changes of such contents were found in muscle, heart, brain, and stomach. Eb demonstrated inhibitory effects on human Bel-7402, BGC-823, and Calu-3 cancer cell lines in vitro. Eb also showed ability to enhance lymphocyte transformation and serum hemolysin formation in vitro and increase the phagocytosis of macrophages. Conclusion The validated antitumor and immunostimulatory activities of Eb suggest a hypothesis that Eb may behave as a biological response modifier when used as an antitumor agent. Eb is worthy of further study in developing a new antineoplastic and immunity enhancing agent in the light of its antitumor activity, immunocompetence and specific distribution in liver, lungs, kidneys, bone, and spleen.

3D Photo-Fabrication for Tissue Engineering and Drug Delivery

The most promising strategies in tissue engineering involve the integration of a triad of biomaterials, living cells, and biologically active molecules to engineer synthetic environments that closely mimic the healing milieu present in human tissues, and that stimulate tissue repair and regeneration. To be clinically effective, these environments must replicate, as closely as possible, the main characteristics of the native extracellular matrix(ECM) on a cellular and subcellular scale. Photo-fabrication techniques have already been used to generate 3D environments with precise architectures and heterogeneous composition, through a multi-layer procedure involving the selective photocrosslinking reaction of a light-sensitive prepolymer. Cells and therapeutic molecules can be included in the initial hydrogel precursor solution, and processed into 3D constructs. Recently, photofabrication has also been explored to dynamically modulate hydrogel features in real time, providing enhanced control of cell fate and delivery of bioactive compounds. This paper focuses on the use of 3D photo-fabrication techniques to produce advanced constructs for tissue regeneration and drug delivery applications. State-of-the-art photo-fabrication techniques are described, with emphasis on the operating principles and biofabrication strategies to create spatially controlled patterns of cells and bioactive factors. Considering its fast processing, spatiotemporal control, high resolution, and accuracy, photo-fabrication is assuming a critical role in the design of sophisticated 3D constructs. This technology is capable of providing appropriate environments for tissue regeneration, and regulating the spatiotemporal delivery of therapeutics.

Ethnobotany, Pharmacology and Chemistry of Medicinal Orchids from Veracruz

Orchidaceae is a large family of 1,260 species in Mexico, of which 433 grow in the state of Veracruz, Mexico. Although economically important in horticulture because of the beauty of their flowers, researches have done little work regarding their medicinal properties. This paper aimed to present the results of ethnobotanical, pharmacological and active compounds research on Veracruz medicinal orchids. The ethnobotanical information was obtained by consulting the Atlas of the Mexican Traditional Medicine Plants, Veracruz Medicinal Flora Database （CITRO-UV project） and through field work in the Nahuatl community of Cuautlajapa, Veracruz. To obtain pharmacological and active compounds information of registered species, a search was carded out through MEDLINE （USA National Library of Medicine Journal Citation database）. Twelve medicinal orchids were recorded for Veracruz, i.e., Epidendrum chlorocorymbos Schltr., Habenaria floribunda Lindl., Isochillus latibracteatus A. Rich. ＆ Galeotti, lsochillus major Schltdl. ＆ Cham., Mormodes maculata var. unicolor （Hook.） L. O. Williams, Oestlundia luteorosea （A. Rich. ＆ Galeotti） W. E. Higgins, Oncidium ascendens Lindl., Scaphyglottis fasciculata Hook., Sobralia macrantha Lindl., Spiranthes eriophora （Rob. ＆ Greenm.）, Stanhopea oculata （G. Lodd.） Lindl. and Vanilla planifolia Andrews. Only two species have been investigated in terms of their pharmacology and active compounds. Also, information for another five species closely related to already identified ones was obtained. Given the relative poverty of current information on the topic, this paper demonstrates the need to further study the ethnobotanical, pharmacological and chemical aspects of the region＇s medicinal orchids.

Network pharmacology-based strategy to investigate harmacological mechanisms of Isodon serra(Maxim.)Hara for treatment of inflammatory

Widely distributed in plants,ent-kaurane diterpenoids could reduce the incidence of inflammatory.The most important active ingredient of Isodon serra(Maxim.)Hara is ent-kaurane diterpenoids,which contribute to the anti-inflammatory pharmacological effects of Isodon serra.However,the ingredients,the active compounds,drug targets,inflammatory targets and exact molecular mechanism of Isodon serra in treating inflammatory are still unclear.The purpose of this study was to use the method of network pharmacological analysis to find the active compounds in Isodon serra.These active compounds match the library of ent-kaurane diterpenoids compounds we established,and we find all the eligible ent-kaurane diterpenoids compounds.Isodon serra related and anti-inflammatory targets were found and then combined to get intersection,which represented potential anti-inflammatory targets of active compounds in Isodon serra.Moreover,anti-inflammatory targets and active compounds targets protein-protein interaction network were merged to get the protein-protein interaction network intersection and core genes in anti-inflammatory target protein-protein interaction network.For the anti-inflammatory targets of Isodon serra,Gene Ontology(GO)and Kyoto Encyclopedia of Genes and Genomes(KEGG)pathway analysis were executed to confirm gene functions of Isodon serra in antagonizing inflammation.Finally,TCMSP analysis identified 10 active compounds out of 48 ent-kaurane.The pathway analysis showed enrichment for different pathways like AGE-RAGE signaling pathway in diabetic complications,small cell lung cancer and human cytomegalovirus infection,which were all connected to inflammatory.On the whole,the proposed method clearly identified the ent-kaurane diterpenoids of Isodon serra and the results gave the active compounds of Isodon serra for the first time.The combining use of the qualitative analysis of traditional Chinese medicine(TCM)and network pharmacological methods could discover potential drug targets and reveal the biological process of TCM,which would open up a new approach in the study of TCM in future.

Recent advances in biosynthesis of bioactive compounds in traditional Chinese medicinal plants

Plants synthesize and accumulate large amount of specialized （or secondary） metabolites also known as natural products, which provide a rich source for modem pharmacy. In China, plants have been used in traditional medicine for thousands of years. Recent development of molecular biology, genomics and functional genomics as well as high-throughput analytical chemical technologies has greatly promoted the research on medicinal plants. In this article, we review recent advances in the elucidation of biosynthesis of specialized metabolites in medicinal plants, including phenylpropanoids, terpenoids and alkaloids. Th- ese natural products may share a common upstream path- way to form a limited numbers of common precursors, but are characteristic in distinct modifications leading to highly variable structures. Although this review is focused on traditional Chinese medicine, other plants with a great medicinal interest or potential are also discussed. Under- standing of their biosynthesis processes is critical for producing these highly value molecules at large scale and low cost in microbes and will benefit to not only human health but also plant resource conservation.

Pharmacological activity of Mentha longifolia and its phytoconstituents

Current paper reviews the pharmacological activities, therapeutic indications and phytochemicals of M. longifolia. This herb has been consumed traditionally for the treatment of various diseases, including gastrointestinal disorders, respiratory disorders, infectious diseases, inflammatory diseases, as well as menstrual disorders. In the modern era, various pharmacological activities have been confirmed for M. longifolia, such as anti-parasitic, antimicrobial, anti-insect, antimutagenic, antinociceptive, anti-inflammatory, antioxidant, keratoprotective, hepatoprotective, anti-diarrhea, and spasmolytic effects. The plant showed therapeutic benefits in irritable bowel syndrome, amenorrhea and oligomenorrhea, and oxidative stress-associated diseases as well. A vast variety of natural components such as flavonoids, phenolic acids, cinnamates, ceramides, sesquiterpenes, terpenes, and terpenoids have been suggested to be responsible for the pharmacological action of M. longifolia. These natural products can be considered as novel medicinal sources for developing new drugs. Further investigations to explore therapeutic efficacy, tolerability,and pharmaceutical properties of M. longifolia phytochemical agents are recommended.