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韧革菌素(Vibralactone)是从韧革菌科Stereaceae真菌中分离得到的具有β-内酯双环骨架结构的天然产物。该化合物具有良好的胰脂肪酶抑制活性,具有开发成为新型减肥药物的潜力。其独特的结构特征和良好的生物活性,引起了国内外学者的广泛关注。文章总结了韧革菌素类化合物的化学结构、生物活性及其化学和生物合成的研究进展,并基于现有的研究基础,对韧革菌素生物合成和应用前景及潜在的技术突破进行了讨论和展望。将为韧革菌素类化合物在医药研发、化学合成和生物合成领域的研究提供重要参考。
Abstract:Vibralactone is a natural product isolated from a fungus of the species Stereaceae to have a β-fused bicyclic lactone backbone structure. This compound is known to have a good inhibitory activity against the pancreatic lipase, indicating its potential value for development of a newtype obesity drug. It has attracted extensive attention from experts and scholars around the world because of its unique structural features and good biological activity. This paper summarizes the advances of research on the chemical structure and synthesis, biological activity and biosynthesis of vibralactone and its analogues as well. Basing on the current results and research foundation, we also carry out discussions together with future prospects in the development and application as well as potential technological breakthroughs of vibralactone biosynthesis in this review, which should provide available references for the drug exploration, chemical synthesis and biosynthesis of this substance and its derivatives.
[1]郭正堂.中国韧革菌(Ⅲ)[J].植物研究,1987, 7(3):85-112.
[2] Hopmann C, Kurz M, Mueller G, et al. Percyquinnin, a process for its production and its use as a pharmaceutical:EP20010929453[P]. US. 2003. EP1274698.
[3] Liu D Z, Wang F, Liao T G, et al. Vibralactone:A Lipase inhibitor with an unusual fused β-lactone produced by cultures of the basidiomycete Boreostereum vibrans[J]. Organic Letters, 2006, 8(25):5749-5752.
[4]周稚凡.毛韧革菌(Stereum hirsutum FP-91666)代谢产物调控及生物合成初探[D].昆明:西南林业大学,2017.
[5] Jiang M Y, Wang F, Yang X L, et al. Derivatives of vibralactone from cultures of the basidiomycete Boreostereum vibrans[J]. Chemical and Pharmaceutical Bulletin, 2008, 56(9):1286-1288.
[6] Jiang M Y, Zhang L, Dong Z J, et al. Vibralactones D-F from cultures of the basidiomycete Boreostereum vibrans[J]. Chemical and Pharmaceutical Bulletin, 2010, 58(1):113-116.
[7] Chen H P, Jiang M Y, Zhao Z Z, et al. Vibralactone biogenesis-associated analogues from submerged cultures of the Fungus Boreostereum vibrans[J]. Natural Products and Bioprospecting, 2018, 8(1):37-45.
[8] Kang H S, Kim J P. Ostalactones A-C, β-and ε-lactones with lipase inhibitory activity from the cultured basidiomycete Stereum ostrea[J]. Journal of Natural Products, 2016, 79(12):3148-3151.
[9] Liang Y, Li Q, Wei M S, et al. Structurally diverse vibralactones produced by the fungus Stereum hirsutum[J]. Bioorganic Chemistry, 2020, 99:103760.
[10] Wang G Q, Wei K, Feng T, et al. Vibralactones G-J from cultures of the basidiomycete Boreostereum vibrans[J]. Journal of Asian Natural Products Research, 2012,14(2):115-120.
[11] Chen H P, Zhao Z Z, Yin R H, et al. Six new vibralactone derivatives from cultures of the fungus Boreostereum vibrans[J]. Natural Products and Bioprospecting, 2014, 4(5):271-276.
[12] Wang G Q, Wei K, Zhang L, et al. Three new vibralactonerelated compounds from cultures of basidiomycete Boreostereum vibrans[J]. Journal of Asian Natural Products Research,2014, 16(5):447-452.
[13] Schwenk D, Brandt P, Blanchette R A, et al. Unexpected metabolic versatility in a combined fungal fomannoxin/vibralactone biosynthesis[J]. Journal of Natural Products, 2016,79(5):1407-1414.
[14] Yamada T, Matsuda M, Seki M, et al. Sterepinic acids A-C,New carboxylic acids produced by a marine alga-derived fungus[J]. Molecules(Basel, Switzerland), 2018, 23(6):1336.
[15] Kobayashi S, Tamanoi H, Hasegawa Y, et al. Divergent synthesis of bioactive resorcinols isolated from the fruiting bodies of Hericium erinaceum:Total syntheses of Hericenones A, B, and I, Hericenols B-D, and Erinacerins A and B[J].Journal of Organic Chemistry, 2014, 79(11):5227-5238.
[16] Aqueveque P, Céspedes C L, Alarcón J, et al. Antifungal activities of extracts produced by liquid fermentations of Chilean Stereum species against Botrytis cinerea(grey mould agent)[J]. Crop Protection, 2016, 89:95-100.
[17] Zeiler E, Braun N, B?ttcher T, et al. Vibralactone as a tool to study the activity and structure of the ClpP1P2 complex from listeria monocytogenes[J]. Angewandte Chemie International Edition, 2011, 50(46):11001-11004.
[18] Zhou Q, Snider B B. Synthesis of (+/-)-and (-)-vibralactone and vibralactone C[J]. The Journal of Organic Chemistry, 2008, 73(20):8049-8056.
[19] Leeder A J, Heap R J, Brown L J, et al. A short diastereoselective total synthesis of (±)-vibralactone[J]. Organic Letters, 2016, 18(23):5971-5973.
[20] Nistanaki S K, Boralsky L A, Pan R D, et al. A concise total synthesis of (±)-vibralactone[J]. Angewandte Chemie International, 2019, 58(6):1724-1726.
[21]杨彦龙.褐盖韧革菌中混源萜类化合物的生物合成研究[D].北京:中国科学院大学,2016.
[22] Zhao P J, Yang Y L, Du L, et al. Elucidating the biosynthetic pathway for vibralactone:a pancreatic lipase inhibitor with a fused bicyclic β-lactone[J]. Angewandte Chemie,2013, 52(8):2298-2302.
[23] Yang Y L, Zhou H, Du G, et al. A Monooxygenase from Boreostereum vibrans catalyzes oxidative decarboxylation in a divergent vibralactone biosynthesis pathway[J]. Angewandte Chemie, 2016, 55(18):5463-5466.
[24]冯克娜,杨彦龙,许宇星,等.基于蛋白质组学分离和鉴定韧革菌素环合酶[C]//中国生物化学与分子生物学会.中国生物化学与分子生物学会第十二届全国会员代表大会暨2018年全国学术会议摘要集.重庆:[出版社不详],2018:1.
[25] Feng K N, Yang Y L, Xu Y X, et al. A hydrolase-catalyzed cyclization forms the fused bicyclic β-lactone in vibralactone[J]. Angewandte Chemie International, 2020, 59(18):7209-7213.
[26] Feng K N, Zhang Y, Zhang M F, et al. A flavin-monooxygenase catalyzing oxepinone formation and the complete biosynthesis of vibralactone[J]. Nature Communications,2023, 14(1):3436.
[27] Mellows G, Mantle P G, Feline T C, et al. Sesquiterpenoid metabolites from Stereum complicatum[J]. Phytochemistry,1973, 12(11):2717-2720.
[28] Hadváry P, Lengsfeld H, Wolfer H. Inhibition of pancreatic lipase in vitro by the covalent inhibitor tetrahydrolipstatin[J]. Biochemical Journal, 1988, 256(2):357-361.
基本信息:
DOI:10.13341/j.jfr.2024.1711
中图分类号:Q936
引用信息:
[1]闫新元,张璇,段应策等.韧革菌素类化合物结构特征、生物活性及生物合成研究进展[J].菌物研究,2025,23(02):141-150.DOI:10.13341/j.jfr.2024.1711.
基金信息:
中央高校基本科研业务专项资金项目(2572023AW40); 泰山学者专家计划项目(tsqn2021030130)