Biocatalytic cascades enable manufacture of the macrocyclic peptide enlicitide

IF 45.8 1区综合性期刊 Q1 MULTIDISCIPLINARY SCIENCES

Science Pub Date : 2026-05-07 DOI:10.1126/science.aed8713

Artis Klapars, Anna Fryszkowska, Stephanie Galanie, Omer Ad, Ellen Y. Aguilera, Nnamdi Akporji, Chihui An, Stephanus Axnanda, Tewoderos M. Ayele, Richard S. Ayikpoe, Rodell C. Barrientos, Matthew R. Bauerle, Marc R. Becker, Kevin M. Belyk, Lisa Bereznitski, Jackson K. B. Cahn, Karla Camacho Soto, Louis-Charles Campeau, Kevin R. Campos, Anagha Chandra, Hsieh Yao Darryl Chang, Mengbin Chen, Zhiwei Chen, Wai Ling Cheung-Lee, Cheol K. Chung, Stephanie W. Chun, Sarah S. Co, Ryan D. Cohen, Stephen M. Dalby, Guilherme Dal Poggetto, Truc Do, Spencer D. Dreher, Riki J. Drout, Noah P. Dunham, Yi Fan, Ryan M. Flessner, Jacob H. Forstater, Scott P. France, Janaka C. Gamekkanda, Donald R. Gauthier Jr., Agnieszka A. Gil, Jacob W. Greenwood, Noel Ha, Holst M. Halsey, Xinxin Han, Michael Hartmann, Clara Hartmanshenn, Yu He, Edgar Hernandez, Kaori Hiraga, Hsing-I Ho, Cynthia M. Hong, Alan Hruza, Hang Hu, Kari Hullen, Alan M. Hyde, Tetsuji Itoh, Chey M. Jones, Woo-Ok Jung, Kanan Kanuga, James Levi Knippel, Joshua N. Kolev, Jongrock Kong, Birgit Kosjek, Sara Koynov, Michael H. Kress, Bharath Krishnamurthi, Jeffrey T. Kuethe, Thomas T. Kwok, Alfred Y. Lee, Joshua Lee, Qiuhan Li, Shasha Li, Jing Liao, Wenjun Liu, Gurpreet Longia, Emma Madrigal, Peter E. Maligres, Kevin M. Maloney, Erin L. McCarthy, John A. McIntosh, Samaneh Mesbahi-Vasey, Margaret Miller, Mansi Modi, Jeffrey C. Moore, Debopreeti Mukherjee, Grant S. Murphy, Jennifer Victoriano Obligacion, Weilan Pan, Julia Parzecki, Anisha Patel, Teng Peng, Byron K. Peters, Tiffany Piou, Carlos A. Pons Siepermann, Christopher K. Prier, Akasha K. Purohit, Yangzhong Qin, Erik L. Regalado, Mikhail Reibarkh, Nelo R. Rivera, Sandra A. Robaire, Lee Robison, Syamantak Roy, Rebecca T. Ruck, Katie A. Rykaczewski, Christopher H. Schuster, Erica L. Schwalm, Andrew N. Singh, Eric Sirota, Alexandra C. Sun, Weijuan Tang, David A. Thaisrivongs, Nimisha Thakur, Weidong Tong, Van Truong, Ryan Tsoi, Qiang Tu, Ben W. H. Turnbull, Ophelia Ukaegbu, David A. Vargas, Juan E. Velasquez, Deeptak Verma, Heather Wang, Tao Wang, Xiao Wang, Ying Wang, Zhixun Wang, Matthew S. Winston, Chunyu Wu, Brian M. Wyvratt, Kai-Jiong Xiao, Yingju Xu, Jia-Xuan Yan, Hao Yang, Victoria Zhang, Yongqian Zhang, Michelle Zheng, Wendy Zhong

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引用次数: 0

Abstract

Historically, many compelling therapeutic targets have been accessible only by injectable biologic drugs. Macrocyclic peptides, such as the proprotein convertase subtilisin/kexin type 9 inhibitor enlicitide for the treatment of atherosclerotic cardiovascular disease, are beginning to unlock these targets to orally administered therapies to enable broader patient access. We report the convergent biocatalytic assembly of enlicitide from simple building blocks enabled by a suite of engineered enzymes to catalyze selective peptide fragment formation, coupling, and macrocyclization in a protecting group–free manner. Together with efficient crystallizations that obviate the need for chromatography, this approach reduces the number of steps by greater than half compared with prior state-of-the-art methods, addressing long-standing synthetic challenges and offering a sustainable blueprint for the scalable development of complex peptide therapeutics.

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生物催化级联可以制造大环肽烯醛酸酯

从历史上看，许多引人注目的治疗靶点只能通过注射生物药物来实现。大环肽，如用于治疗动脉粥样硬化性心血管疾病的蛋白转化酶枯草杆菌素/ keexin 9型抑制剂enlicicitide，正开始将这些靶点解锁为口服治疗，从而使更广泛的患者获得治疗。我们报道了一组工程酶在无保护基团的情况下催化选择性肽片段形成、偶联和大环化的聚合生物催化组装。再加上有效的结晶，避免了对色谱的需要，与之前的最先进的方法相比，这种方法减少了一半以上的步骤，解决了长期存在的合成挑战，并为复杂肽治疗的可扩展开发提供了可持续的蓝图。

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来源期刊

Science 综合性期刊-综合性期刊

CiteScore

61.10

自引率

0.90%

发文量

审稿时长

2.1 months

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