Based on a mechanism analogous to the serine/threonine ligation, the aspartic acid ligation, which is facilitated by the γ-amino alcohol based ligation and oxidation, is developed and applied to the synthesis of cycl...Based on a mechanism analogous to the serine/threonine ligation, the aspartic acid ligation, which is facilitated by the γ-amino alcohol based ligation and oxidation, is developed and applied to the synthesis of cyclic peptides. The γ-hydroxyl group triggers the ring-chain tautomerization via a 6-endo-trig process,while the δ-hydroxyl group facilitates the oxidative cleavage of the vicinal diol to give carboxylic acid.展开更多
Affinity reagents are important tools in the biological sciences for understanding biological processes and for studying protein expression, localization and interactions. However, traditional affinity reagents such a...Affinity reagents are important tools in the biological sciences for understanding biological processes and for studying protein expression, localization and interactions. However, traditional affinity reagents such as antibodies(and their fragments) and non-immunoglobulin(non-Ig) scaffold binders, usually suffer from problems of poor cellular uptake efficiency, high production cost, and low structural stability. This leads to rapid development of small antibody-like affinity reagents such as scaffold-free cyclic and multicyclic peptides, which usually have 5-30 amino acid residues, thus lying between non-Ig scaffolds and small molecules in size. In this mini-review, we highlight the recent development in mono-and multi-cyclic peptide mimics of antibodies, including cyclic peptide affinity reagents that have been developed for use in antibody-like applications, novel synthetic strategies for multicyclic peptides, and promising peptide library screening platforms. We also provide a perspective on the future development in multicyclic peptide mimics of antibodies.展开更多
The modification and functionalization of peptides is of great significance in modern biotechnology and drug development. Here we report a highly reactive Michael-type warhead for the covalently modification of cystei...The modification and functionalization of peptides is of great significance in modern biotechnology and drug development. Here we report a highly reactive Michael-type warhead for the covalently modification of cysteine on peptide and protein. By installing a vinyl group onto a methionine residue of peptide,the produced vinyl sulfonium can be efficiently nucleophilic added by appropriate cysteine residue of this peptide, and thus yield a cyclized peptide. This peptide cyclization strategy was proven to exhibit improved cell penetration and good stability. Moreover, a peptide ligand bearing vinyl sulfonium could covalently bind to the cysteine in the target protein, indicating the potential of vinyl sulfonium as a novel warhead for developing covalent peptide inhibitor.展开更多
P-113 is a fragment of natural occurring peptide Histatin 5 found in human saliva. This peptide exhibited broad spectrum of antibacterial and antifungal biological activities. In this study, bifunctional P-113 peptide...P-113 is a fragment of natural occurring peptide Histatin 5 found in human saliva. This peptide exhibited broad spectrum of antibacterial and antifungal biological activities. In this study, bifunctional P-113 peptides 2–5 were designed as Sortase A substrates and synthesized by solid support peptide synthesis,where the N-terminus were equipped with glycine and its analogues, and C-terminus were extended with LPETGGS, respectively. Under Sortase A catalyzed condition, head to tail cyclization products 7–10were afforded in yields from 76% to 93%. The conformation insights of linear peptides 2–5 and cyclic analogues 7–10 in aqueous buffers and in trifluroethanol(TFE) analyzed by circular dichroism(CD)suggested that a-helix structures were produced progressively in hydrophobic environment independent of the cyclization, which displayed the similar behavior as parent peptide P-113.展开更多
基金supported by the Research Grants Council (Nos. 17309616, C6009-15G) of Hong KongThe National Science Foundation of China (Nos. 21672180, 91753101)the Area of Excellence Scheme of the University of Grants Committee of Hong Kong (No. AoE/P-705/16)
文摘Based on a mechanism analogous to the serine/threonine ligation, the aspartic acid ligation, which is facilitated by the γ-amino alcohol based ligation and oxidation, is developed and applied to the synthesis of cyclic peptides. The γ-hydroxyl group triggers the ring-chain tautomerization via a 6-endo-trig process,while the δ-hydroxyl group facilitates the oxidative cleavage of the vicinal diol to give carboxylic acid.
基金the financial support from the National Natural Science Foundation of China(No.21475109)the Program for Changjiang Scholars and Innovative Research Team in University(No. IRT13036)the Foundation for Innovative Research Groups of the National Natural Science Foundation of China(No. 21521004)
文摘Affinity reagents are important tools in the biological sciences for understanding biological processes and for studying protein expression, localization and interactions. However, traditional affinity reagents such as antibodies(and their fragments) and non-immunoglobulin(non-Ig) scaffold binders, usually suffer from problems of poor cellular uptake efficiency, high production cost, and low structural stability. This leads to rapid development of small antibody-like affinity reagents such as scaffold-free cyclic and multicyclic peptides, which usually have 5-30 amino acid residues, thus lying between non-Ig scaffolds and small molecules in size. In this mini-review, we highlight the recent development in mono-and multi-cyclic peptide mimics of antibodies, including cyclic peptide affinity reagents that have been developed for use in antibody-like applications, novel synthetic strategies for multicyclic peptides, and promising peptide library screening platforms. We also provide a perspective on the future development in multicyclic peptide mimics of antibodies.
基金financial support from the National Key Research and Development Program"Synthetic Biology"Key Special Project of China (No. 2018YFA0902504)the China Postdoctoral Science Foundation (No. 2021M690220)+7 种基金the National Natural Science Foundation of China (Nos. 21778009 and21977010)the Natural Science Foundation of Guangdong Province(Nos. 2019A1515110487, 2020A1515010522 and 2019A1515111184)the Shenzhen Science and Technology Innovation Committee (Nos. JCYJ20180507181527112, JCYJ20180508152213145, and JCYJ20170817172023838)the Foundation for Basic and Applied Research of Guangdong Province (No. 2019A1515110489)Guangdong Medical Science Foundation (No. A2021413)financial support from Beijing National Laboratory of Molecular Science Open Grant (No. BNLMS20160112)Shenzhen-Hong Kong Institute of Brain Science-Shenzhen Fundamental Research Institutions (No. 2019SHIBS0004)supported by the high-performance computing platform of Peking University。
文摘The modification and functionalization of peptides is of great significance in modern biotechnology and drug development. Here we report a highly reactive Michael-type warhead for the covalently modification of cysteine on peptide and protein. By installing a vinyl group onto a methionine residue of peptide,the produced vinyl sulfonium can be efficiently nucleophilic added by appropriate cysteine residue of this peptide, and thus yield a cyclized peptide. This peptide cyclization strategy was proven to exhibit improved cell penetration and good stability. Moreover, a peptide ligand bearing vinyl sulfonium could covalently bind to the cysteine in the target protein, indicating the potential of vinyl sulfonium as a novel warhead for developing covalent peptide inhibitor.
基金supported by the National Natural Science Foundation of China(No.21472070)the Project for Jiangsu Scientific and Technological Innovation Team+2 种基金Fund for Jiangsu Distinguished Professorship ProgramProject Funded by the Priority Academic Program Development of Jiangsu Higher Education Institutions,the 111 Project(No.111-2-06)the Jiangsu province“Collaborative Innovation Center for Advanced Industrial Fermentation”industry development program
文摘P-113 is a fragment of natural occurring peptide Histatin 5 found in human saliva. This peptide exhibited broad spectrum of antibacterial and antifungal biological activities. In this study, bifunctional P-113 peptides 2–5 were designed as Sortase A substrates and synthesized by solid support peptide synthesis,where the N-terminus were equipped with glycine and its analogues, and C-terminus were extended with LPETGGS, respectively. Under Sortase A catalyzed condition, head to tail cyclization products 7–10were afforded in yields from 76% to 93%. The conformation insights of linear peptides 2–5 and cyclic analogues 7–10 in aqueous buffers and in trifluroethanol(TFE) analyzed by circular dichroism(CD)suggested that a-helix structures were produced progressively in hydrophobic environment independent of the cyclization, which displayed the similar behavior as parent peptide P-113.
