法尼醇对白念珠菌作用的研究进展

摘要/Abstract

摘要： 法尼醇是白念珠菌重要的群体感应分子，它参与抑制白念珠菌的出芽及生物膜形成，并且一定浓度的法尼醇可抑制白念珠菌的生长及诱导凋亡。本文主要综述法尼醇对白念珠菌的生物膜形成、形态转换、生长及活性、耐药性、凋亡反应及氧化应激反应的作用及其相关机制的研究进展。

中图分类号:

R781

花荣曹雪姣吴亚娟魏昕. 法尼醇对白念珠菌作用的研究进展[J]. , 2015, 6(1): 27-30.

[1]Lass-Fl?rl C.The changing face of epidemiology of invasive fungal disease in Europe[J].Mycoses,2009,52(3):197-205.
[2]Hornby JM1, Jensen EC, Lisec AD, et al .Quorum sensing in the dimorphic fungus Candida albicans is mediated by farnesol[J].Appl Environ Microbiol,2001,67(7):2982-2992.
[3]Ramage G1, Saville SP, Wickes BL, et al .Inhibition of Candida albicans biofilm formation by farnesol, a quorum-sensing molecule[J].Appl Environ Microbiol,2002,68(11):5459-5463.
[4] 钱芳, 魏昕, 许雯倩, 等.XTT减低法检测法尼醇对白念珠菌生物被膜的抑制作用[J].口腔生物医学,2014,5(2):81-84.
[5]Yu LH, Wei X, Ma M, et al .Possible inhibitory molecular mechanism of farnesol on the development of fluconazole resistance in Candida albicans biofilm[J].Antimicrob Agents Chemother,2012,56(2):770-775.
[6]Katragkou A1, McCarthy M2, Alexander EL3, et al.In vitro interactions between farnesol and fluconazole, amphotericin B or micafungin against Candida albicans biofilms[J].J Antimicrob Chemother,2015,70(2):470-478.
[7]Nagy G1, Hennig GW, Petrenyi K, et al .Time-lapse video microscopy and image analysis of adherence and growth patterns of Candida albicans strains[J].Appl Microbiol Biotechnol,2014,98(11):5185-5194.
[8]Mosel DD1, Dumitru R, Hornby JM, et al.Farnesol concentrations required to block germ tube formation in Candida albicans in the presence and absence of serum[J].Appl Environ Microbiol,2005,71(8):4938-4940.
[9]Cao YY1, Cao YB, Xu Z, et al.cDNA microarray analysis of differential gene expression in Candida albicans biofilm exposed to farnesol[J].Antimicrob Agents Chemother,2005,49(2):584-589.
[10]Cho T1, Aoyama T, Toyoda M,et al .Transcriptional changes in Candida albicans Genes by both farnesol and high cell density at an early stage of morphogenesis in N-acetyl-D-glucosamine medium[J].Nihon Ishinkin Gakkai Zasshi,2007,48(4):159-167.
[11]谭军艳, 张琰, 虞丽华, 等.Tyrosol和Farnesol对白念珠菌生物被膜形成作用的基因表达谱研究[J].中华微生物学和免疫学杂志,2013,33(4):258-264.
[12]Román E1, Alonso-Monge R, Gong Q, et al .The Cek1 MAPK is a short-lived protein regulated by quorum sensing in the fungal pathogen Candida albicans[J].FEMS Yeast Res,2009,9(6):942-955.
[13]Sato T1, Watanabe T, Mikami T, et al .Farnesol, a morphogenetic autoregulatory substance in the dimorphic fungus Candida albicans, inhibits hyphae growth through suppression of a mitogen-activated protein kinase cascade[J].Biol Pharm Bull,2004,27(5):751-752.
[14]Davis-Hanna A1, Piispanen AE, Stateva LI, et al .Farnesol and dodecanol effects on the Candida albicans Ras1-cAMP signalling pathway and the regulation of morphogenesis[J].Mol Microbiol,2008,67(1):47-62.
[15]Hall RA1, Turner KJ, Chaloupka J, et al .The quorum-sensing molecules farnesol/homoserine lactone and dodecanol operate via distinct modes of action in Candida albicans[J].Eukaryotic Cell,2011,10(8):1034-1042.
[16]Piispanen AE1, Bonnefoi O, Carden S, et al.Roles of Ras1 membrane localization during Candida albicans hyphal growth and farnesol response[J].Eukaryot Cell,2011,10(11):1473-1484.
[17]Langford ML1, Hargarten JC, Patefield KD, et al.Candida albicans Czf1 and Efg1 coordinate the response to farnesol during quorum sensing, white-opaque thermal dimorphism, and cell death[J].Eukaryot Cell,2013,12(9):1281-1292.
[18]Lu Y1, Su C, Unoje O, et al.Quorum sensing controls hyphal initiation in Candida albicans through Ubr1-mediated protein degradation[J].Proc Natl Acad Sci U S A,2014,111(5):1975-1980.
[19]Kruppa M1, Krom BP, Chauhan N, et al.The two-component signal transduction protein Chk1p regulates quorum sensing in Candida albicans[J].Eukaryot Cell,2004,3(4):1062-1065.
[20]Kebaara BW1, Langford ML, Navarathna DH, et al .Candida albicans Tup1 is involved in farnesol-mediated inhibition of filamentous-growth induction[J].Eukaryot Cell,2008,7(6):980-987.
[21]Lindsay AK1, Deveau A, Piispanen AE, et al .Farnesol and cyclic AMP signaling effects on the hypha-to-yeast transition in Candida albicans[J].Eukaryot Cell,2012,11(10):1219-1225.
[22]Piispanen AE1, Grahl N, Hollomon JM, et al .Regulated proteolysis of Candida albicans Ras1 is involved in morphogenesis and quorum sensing regulation[J].Mol Microbiol,2013,89(1):166-178.
[23]Han TL1, Cannon RD, Villas-B?as SG.The metabolic response of Candida albicans to farnesol under hyphae-inducing conditions[J].FEMS Yeast Res,2012,12(8):879-889.
[24]Raut JS1, Shinde RB, Chauhan NM, et al.Terpenoids of plant origin inhibit morphogenesis, adhesion, and biofilm formation by Candida albicans[J].Biofouling,2013,29(1):87-96.
[25]Verstrepen KJ1, Klis FM.Flocculation, adhesion and biofilm formation in yeasts[J].Mol Microbiol,2006,60(1):5-15.
[26]Décanis N1, Tazi N, Correia A, et al .Farnesol, a fungal quorum-sensing molecule triggers Candida albicans morphological changes by downregulating the expression of different secreted aspartyl proteinase genes[J].Open Microbiol J,2011,5:119-126.
[27]Langford ML1, Atkin AL, Nickerson KW.Cellular interactions of farnesol, a quorum-sensing molecule produced by Candida albicans[J].Future Microbiol,2009,4(10):1353-1362.
[28]Shirtliff ME, Krom BP, Meijering RA, et al.Farnesol-induced apoptosis in Candida albicans[J].Antimicrob Agents Chemother,2009,53(6):2392-2401.
[29]Langford ML1, Hasim S, Nickerson KW,et al.Activity and toxicity of farnesol towards Candida albicans are dependent on growth conditions[J].Antimicrob Agents Chemother,2010,54(2):940-942.
[30]Uppuluri P1, Mekala S, Chaffin WL.Farnesol-mediated inhibition of Candida albicans yeast growth and rescue by a diacylglycerol analogue[J].Yeast,2007,24(8):681-693.
[31]Westwater C1, Balish E, Schofield DA.Candida albicans-conditioned medium protects yeast cells from oxidative stress: a possible link between quorum sensing and oxidative stress resistance[J].Eukaryot Cell,2005,4(10):1654-1661.
[32]Zhu J1, Krom BP, Sanglard D, et al.Farnesol-induced apoptosis in Candida albicans is mediated by Cdr1-p extrusion and depletion of intracellular glutathione[J].PLoS One,2011,6(12):e28830-.
[33]Léger T1, Garcia C1, Ounissi M1, et al.The Metacaspase (Mca1p) has a Dual Role in Farnesol-induced Apoptosis in Candida albicans[J].Mol Cell Proteomics,2015,14(1):93-108.
[34]Sharma M1, Prasad R.The quorum-sensing molecule farnesol is a modulator of drug efflux mediated by ABC multidrug transporters and synergizes with drugs in Candida albicans[J].Antimicrob Agents Chemother,2011,55(10):4834-4843.
[35]Cordeiro RA1, Teixeira CE, Brilhante RS, et al.Minimum inhibitory concentrations of amphotericin B, azoles and caspofungin against Candida species are reduced by farnesol[J].Med Mycol,2013,51(1):53-59.
[36]Lorenz MC1, Bender JA, Fink GR.Transcriptional response of Candida albicans upon internalization by macrophages[J].Eukaryot Cell,2004,3(5):1076-1087.
[37]Frohner IE1, Bourgeois C, Yatsyk K, et al.Candida albicans cell surface superoxide dismutases degrade host-derived reactive oxygen species to escape innate immune surveillance[J].Mol Microbiol,2009,71(1):240-252.
[38]García-Mendoza A1, Liébana J, Castillo AM, et al.Evaluation of the capacity of oral streptococci to produce hydrogen peroxide[J].J Med Microbiol,1993,39(6):434-439.
[39]Ryan CS1, Kleinberg I.Bacteria in human mouths involved in the production and utilization of hydrogen peroxide[J].Arch Oral Biol,1995,40(8):753-763.
[40]Smith DA1, Nicholls S, Morgan BA, et al.A conserved stress-activated protein kinase regulates a core stress response in the human pathogen Candida albicans[J].Mol Biol Cell,2004,15(9):4179-4190.
[41]Deveau A1, Piispanen AE, Jackson AA, et al.Farnesol induces hydrogen peroxide resistance in Candida albicans yeast by inhibiting the Ras-cyclic AMP signaling pathway[J].Eukaryot Cell,2010,9(4):569-577.
[42]Cáp M1, Váchová L, Palková Z.Reactive oxygen species in the signaling and adaptation of multicellular microbial communities[J].Oxid Med Cell Longev,2012,2012:976753-.

法尼醇对白念珠菌作用的研究进展

The effect of farnesol on candida albicans-a review

可视化

摘要/Abstract

引用本文

使用本文

参考文献

相关文章 14

编辑推荐

Metrics

本文评价

[1]	王里媛周红艳梅予锋. 酪蛋白磷酸肽-无定形磷酸钙再矿化作用的研究进展[J]. , 2019, 10(1): 51-53.
[2]	范瑞瑞李欣聪刘玉孙卫斌郭婷. 聚己内酯/Ⅰ型胶原/氟磷灰石复合支架的制备及生物相容性研究[J]. , 2019, 10(1): 12-16.
[3]	刘歆婵侯玉帛王柳然于维先宫琳周延民. 牙龈卟啉单胞菌脂多糖对成骨细胞EphA4基因表达的调控[J]. , 2017, 8(1): 25-27.
[4]	冯馨仪温玉洁喻丽葛颂. 牙周膜来源细胞膜片在牙周再生中的应用研究进展[J]. , 2016, 7(2): 104-107.
[5]	达静姝陈武. 脱细胞真皮基质在牙周膜龈手术中的应用[J]. , 2015, 6(1): 45-49.
[6]	刘晨晨张光东. 不同树脂在陈旧性树脂表面微拉伸强度的比较研究[J]. , 2014, 5(4): 196-198.
[7]	马江敏周婷君张世玉莫雪垠杨菁菁范媛. STIM1在口腔扁平苔藓患者中表达的研究[J]. , 2014, 5(2): 62-65.
[8]	章善朱庆萍. Er:YAG激光对根面牙本质与玻璃离子间抗剪切强度的影响[J]. , 2014, 5(2): 91-94.
[9]	张浩葛久禹. 渗透树脂的渗透和老化性能及对显微硬度影响的研究进展[J]. , 2014, 5(1): 42-45.
[10]	汤楚华牛忠英. Th17细胞相关因子在口腔免疫系统中的作用[J]. , 2014, 5(1): 30-33.
[11]	郝媛媛刘文静李刚吴友农. 慢性牙周炎是影响全身健康的危险因素[J]. , 2013, 4(2): 103-106.
[12]	王燃单婧马江敏周婷君范媛. 少突胶质细胞谱系基因－髓鞘碱性蛋白在口腔扁平苔藓组织中的表达[J]. , 2013, 4(1): 11-14.
[13]	赵伟罗岚黄敏汪志君雷浪李艳芬闫福华. 不同组织来源单核/巨噬细胞对伴放线放线杆菌吞噬能力的比较研究[J]. , 2012, 3(4): 169-172.
[14]	韩永战吴友农. 关于上-下标牙位记录法[J]. , 2012, 3(3): 149-150.