炭疽杆菌表面四糖抗原全合成的研究进展

黄蕾; 许克寒; 吴俊琪; 姚阔; 俞世冲; 吴秋业

doi:10.3969/j.issn.1006-0111.2015.06.001

留言板

尊敬的读者、作者、审稿人, 关于本刊的投稿、审稿、编辑和出版的任何问题, 您可以本页添加留言。我们将尽快给您答复。谢谢您的支持!

姓名
邮箱
手机号码
标题
留言内容
验证码

x 关闭永久关闭

《药学实践与服务》杂志目前不收取审稿费、版面费、加急费等费用，如收到邮件声称是编辑部X编辑，要求加作者微信的，请谨防财产损失！编辑部用于作者校对时绑定微信的邮件通过yxsjzzs@163.com发送，标题是《药学实践与服务》XML数字出版服务微信绑定，请区分开。

炭疽杆菌表面四糖抗原全合成的研究进展

黄蕾, 许克寒, 吴俊琪, 姚阔, 俞世冲, 吴秋业

文章导航 > 药学实践与服务 > 2015 > 33(6): 481-485,569

黄蕾, 许克寒, 吴俊琪, 姚阔, 俞世冲, 吴秋业. 炭疽杆菌表面四糖抗原全合成的研究进展[J]. 药学实践与服务, 2015, 33(6): 481-485,569. doi: 10.3969/j.issn.1006-0111.2015.06.001

引用本文:

HUANG Lei, XU Kehan, WU Junqi, YAO Kuo, YU Shichong, WU Qiuye. Research progress in the synthesis of antigen Bacillus anthracis tetrasaccharide[J]. Journal of Pharmaceutical Practice and Service, 2015, 33(6): 481-485,569. doi: 10.3969/j.issn.1006-0111.2015.06.001

Citation:

HUANG Lei, XU Kehan, WU Junqi, YAO Kuo, YU Shichong, WU Qiuye. Research progress in the synthesis of antigen Bacillus anthracis tetrasaccharide[J]. Journal of Pharmaceutical Practice and Service, 2015, 33(6): 481-485,569. doi: 10.3969/j.issn.1006-0111.2015.06.001

炭疽杆菌表面四糖抗原全合成的研究进展

doi: 10.3969/j.issn.1006-0111.2015.06.001

第二军医大学药学院有机化学教研室, 上海 200433

基金项目: 国家科技重大专项(No.2012ZX09502001-005,2011ZXJ09201-012);国家自然科学基金青年项目(No.21202200);第二军医大学药学院大学生科研训练计划项目

Research progress in the synthesis of antigen Bacillus anthracis tetrasaccharide

Department of Organic Chemistry, School of Pharmacy, Second Military Medical University, Shanghai 200433, China

摘要: 炭疽是由炭疽杆菌引起的人畜共患的传染病。炭疽杆菌属于需氧芽孢杆菌属,为G⁺菌,其病原体是芽孢。炭疽芽孢最外层含有特定结构的四糖抗原,可用于制备糖缀合物疫苗,诱导免疫反应。综述近10年来文献报道对炭疽四糖化学合成的研究进展,并结合国内外最新研究成果介绍各条制备路线,比较各种方法的主要优缺点。
- 炭疽四糖 /
- 糖基化 /
- 化学合成
Abstract: Objective Anthrax is an anthropozoonosis caused by the bacterium Bacillus anthracis. Bacillus anthracis is an aerobic, spore-forming, rod-shaped bacterium, which infects human through ingestion or inhalation of the spores. The exosporium of spores of Bacillus anthracis contains tetrasaccharide antigen with specific chemical structure, which can be used in preparation of glycoconjugates vaccines, inducing an immune response. This paper reviewed articles in the last decade that reported research advances in chemical synthesis of anthrax tetrasaccharide, presented the methods for synthesis, and compared the advantages and limitations among different methods.
- anthrax tetrasaccharide /
- glycosylation /
- chemosynthesis

[1]	Mock M, Fouet A. Anthrax[J]. Annu Rev Microbiol, 2001,55:647-671.
[2]	Nicholson WL, Munakata N, Horneck G, et al. Resistance of Bacillus endospores to extreme terrestrial and extraterrestrial environments[J]. MMBR, 2000,64(3):548-572.
[3]	Bouzianas DG. Current and future medical approaches to combat the anthrax threat[J]. J Med Chem, 2010,53(11):4305-4331.
[4]	Turnbull PC. Current status of immunization against anthrax: old vaccines may be here to stay for a while[J]. Curr Opin Infect Dis, 2000,13(2):113-120.
[5]	Roy R. New trends in carbohydrate-based vaccines[J]. Drug Discov Today: Techn, 2004,1(3):327-336.
[6]	Hecht ML, Stallforth P, Silva DV, et al. Recent advances in carbohydrate-based vaccines[J]. Curr Opin Chem Biol, 2009,13(3):354-359.
[7]	Schofield L, Hewitt MC, Evans K, et al. Synthetic GPI as a candidate anti-toxic vaccine in a model of malaria[J]. Nature, 2002,418(6899):785-789.
[8]	Verez-Bencomo V, Fernandez-Santana V, Hardy E,et al. A synthetic conjugate polysaccharide vaccine against Haemophilus influenzae type b[J]. Science, 2004,305(5683):522-525.
[9]	Daubenspeck JM, Zeng H, Chen P,et al. Novel oligosaccharide side chains of the collagen-like region of BclA, the major glycoprotein of the Bacillus anthracis exosporium[J]. J Biolog Chem, 2004,279(30):30945-30953.
[10]	Wong CH. Carbohydrate-based drug discovery[M]. New York: Wiley-VCH Verlag GmbH, 2003:45-50.
[11]	Werz DB, Seeberger PH. Total synthesis of antigen Bacillus anthracis tetrasaccharide-creation of an anthrax vaccine candidate[J]. Angew Chem Int Edit, 2005,44(39):6315-6318.
[12]	Adamo R, Saksena R, Kovac P. Synthesis of the beta anomer of the spacer-equipped tetrasaccharide side chain of the major glycoprotein of the Bacillus anthracis exosporium[J]. Carbohydr Res, 2005,340(17):2579-2582.
[13]	Adamo R, Saksena R, Kovac P. Studies towards a conjugate vaccine for anthrax: synthesis of the tetrasaccharide side chain of the Bacillus anthracis exosporium[J]. Helv Chim Acta, 2006,89(6):1075-1089.
[14]	Guo H, O'Doherty GA. De novo asymmetric synthesis of the anthrax tetrasaccharide by a palladium-catalyzed glycosylation reaction[J]. Angew Chem Int Edit, 2007,46(27):5206-5208.
[15]	Guo H, O'Doherty GA. De novo asymmetric synthesis of anthrax tetrasaccharide and related tetrasaccharide[J]. J Organ Chem, 2008,73(14):5211-5220.
[16]	Crich D, Vinogradova O. Synthesis of the antigenic tetrasaccharide side chain from the major glycoprotein of Bacillus anthracis exosporium[J]. J Organ Chem, 2007,72(17):6513-6520.
[17]	Wang Y, Liang X, Wang PF. Concise synthesis of Bacillus anthracis exosporium tetrasaccharide via two-stage activation of allyl glycosyl donor strategy[J]. Tetrahedr Lett, 2011,52(30):3912-3915.
[18]	Milhomme O, Dhénin SG, Djedaini-Pilard F, et al. Synthetic studies toward the anthrax tetrasaccharide: alternative synthesis of this antigen[J]. Carbohydr Res, 2012,356:115-131.
[19]	Milhomme O, Kohler SM, Ropartz D, et al. Synthesis and immunochemical evaluation of a non-methylated disaccharide analogue of the anthrax tetrasaccharide[J]. Organ Biomolecul Chem, 2012,10(42):8524-8532.

[1]	魏莱, 董国强, 盛春泉. 靶向SARS-CoV-2主蛋白酶的PROTAC设计、合成与蛋白降解活性研究 . 药学实践与服务, 2025, 43(5): 1-8. doi: 10.12206/j.issn.2097-2024.202503063
[2]	施乔, 韩贵焱, 张俊腾, 刘娜. 新型Hsp90抑制剂的设计合成及其抗真菌和抗肿瘤活性研究 . 药学实践与服务, 2025, 43(3): 124-135. doi: 10.12206/j.issn.2097-2024.202501019
[3]	李惠萍, 陈璐, 张琪金, 黄宝康. 紫苏叶挥发油成分的生物合成、含量测定及生物活性研究进展 . 药学实践与服务, 2025, 43(): 1-6. doi: 10.12206/j.issn.2097-2024.202412058
[4]	卢熠菲, 宋佳, 沈红霞, 赵庆杰. 新型苦参碱衍生物的设计合成与体外抗炎活性研究 . 药学实践与服务, 2025, 43(): 1-8. doi: 10.12206/j.issn.2097-2024.202503005
[5]	吴若南, 汤文敏, 高林, 吴岳林, 罗川, 缪震元. RRx-001衍生物的合成和抗肿瘤活性研究 . 药学实践与服务, 2025, 43(): 1-5. doi: 10.12206/j.issn.2097-2024.202408053
[6]	徐尧, 马春辉, 李志勇. 高血压对大鼠心血管纤维化及sFRP2表达的影响 . 药学实践与服务, 2025, 43(4): 180-184. doi: 10.12206/j.issn.2097-2024.202409055
[7]	段禹, 刘爱军. 活血化瘀法治疗血管性痴呆的研究进展 . 药学实践与服务, 2025, 43(4): 151-155, 173. doi: 10.12206/j.issn.2097-2024.202408045
[8]	周丽城, 欧已铭, 王园. 玉米须黄酮化学成分与药理作用研究进展 . 药学实践与服务, 2025, 43(2): 51-58. doi: 10.12206/j.issn.2097-2024.202309037
[9]	王文涛, 高兴, 赵凤平, 郑灿辉, 陈新. 异硒唑酮类化合物在疾病治疗中的作用和化学合成方法研究 . 药学实践与服务, 2025, 43(): 1-7. doi: 10.12206/j.issn.2097-2024.202308064
[10]	陈炳辰, 王思真, 郭贝贝, 杨峰. 紫杉醇棕榈酸酯的合成及其脂质体的制备与处方研究 . 药学实践与服务, 2024, 42(9): 379-384, 410. doi: 10.12206/j.issn.2097-2024.202404062
[11]	邹思, 吴岩斌, 吴锦忠, 吴建国, 黄家兴. 虎奶菇菌核多糖功能化纳米硒抗疲劳功效研究 . 药学实践与服务, 2024, 42(10): 426-432. doi: 10.12206/j.issn.2097-2024.202206072

点击查看大图

计量

文章访问数: 3526
HTML全文浏览量: 286
PDF下载量: 445
被引次数: 0

炭疽杆菌表面四糖抗原全合成的研究进展

doi: 10.3969/j.issn.1006-0111.2015.06.001

第二军医大学药学院有机化学教研室, 上海 200433

基金项目: 国家科技重大专项(No.2012ZX09502001-005,2011ZXJ09201-012);国家自然科学基金青年项目(No.21202200);第二军医大学药学院大学生科研训练计划项目

收稿日期: 2014-04-03
修回日期: 2014-07-11

关键词:

炭疽四糖 /

糖基化 /

化学合成

摘要: 炭疽是由炭疽杆菌引起的人畜共患的传染病。炭疽杆菌属于需氧芽孢杆菌属,为G⁺菌,其病原体是芽孢。炭疽芽孢最外层含有特定结构的四糖抗原,可用于制备糖缀合物疫苗,诱导免疫反应。综述近10年来文献报道对炭疽四糖化学合成的研究进展,并结合国内外最新研究成果介绍各条制备路线,比较各种方法的主要优缺点。