Insights into the synthesis strategies of plant-derived cyclotides

doi:10.1007/s00726-023-03271-8

Review

. 2023 Jun;55(6):713-729.

doi: 10.1007/s00726-023-03271-8. Epub 2023 May 4.

Insights into the synthesis strategies of plant-derived cyclotides

Thao N T Ho¹, Son H Pham¹, Linh T T Nguyen², Ha T Nguyen^{3

4}, Luan T Nguyen^{3

4}, Tien T Dang⁵

Affiliations

¹ Institute of Applied Materials Science, Vietnam Academy of Science and Technology, 1B TL29, District 12, Ho Chi Minh City, Viet Nam.
² Department of Chemistry, Ho Chi Minh City University of Education, 280 An Duong Vuong Street, District 5, Ho Chi Minh City, Viet Nam.
³ National Key Laboratory of Polymer and Composite Materials, Department of Energy Materials, Faculty of Materials Technology, Ho Chi Minh City University of Technology (HCMUT), 268 Ly Thuong Kiet Street, District 10, Ho Chi Minh City, Viet Nam.
⁴ Vietnam National University Ho Chi Minh City, Linh Trung Ward, Thu Duc District, Ho Chi Minh City, Viet Nam.
⁵ Institute of Applied Materials Science, Vietnam Academy of Science and Technology, 1B TL29, District 12, Ho Chi Minh City, Viet Nam. dttien@iams.vast.vn.

PMID: 37142771
DOI: 10.1007/s00726-023-03271-8

Review

Insights into the synthesis strategies of plant-derived cyclotides

Thao N T Ho et al. Amino Acids. 2023 Jun.

. 2023 Jun;55(6):713-729.

doi: 10.1007/s00726-023-03271-8. Epub 2023 May 4.

Authors

Thao N T Ho¹, Son H Pham¹, Linh T T Nguyen², Ha T Nguyen^{3

4}, Luan T Nguyen^{3

4}, Tien T Dang⁵

Affiliations

¹ Institute of Applied Materials Science, Vietnam Academy of Science and Technology, 1B TL29, District 12, Ho Chi Minh City, Viet Nam.
² Department of Chemistry, Ho Chi Minh City University of Education, 280 An Duong Vuong Street, District 5, Ho Chi Minh City, Viet Nam.
³ National Key Laboratory of Polymer and Composite Materials, Department of Energy Materials, Faculty of Materials Technology, Ho Chi Minh City University of Technology (HCMUT), 268 Ly Thuong Kiet Street, District 10, Ho Chi Minh City, Viet Nam.
⁴ Vietnam National University Ho Chi Minh City, Linh Trung Ward, Thu Duc District, Ho Chi Minh City, Viet Nam.
⁵ Institute of Applied Materials Science, Vietnam Academy of Science and Technology, 1B TL29, District 12, Ho Chi Minh City, Viet Nam. dttien@iams.vast.vn.

PMID: 37142771
DOI: 10.1007/s00726-023-03271-8

Abstract

Cyclotides are plant peptides characterized with a head-to-tail cyclized backbone and three interlocking disulfide bonds, known as a cyclic cysteine knot. Despite the variations in cyclotides peptide sequences, this core structure is conserved, underlying their most useful feature: stability against thermal and chemical breakdown. Cyclotides are the only natural peptides known to date that are orally bioavailable and able to cross cell membranes. Cyclotides also display bioactivities that have been exploited and expanded to develop as potential therapeutic reagents for a wide range of conditions (e.g., HIV, inflammatory conditions, multiple sclerosis, etc.). As such, in vitro production of cyclotides is of the utmost importance since it could assist further research on this peptide class, specifically the structure-activity relationship and its mechanism of action. The information obtained could be utilized to assist drug development and optimization. Here, we discuss several strategies for the synthesis of cyclotides using both chemical and biological routes.

Keywords: Chemical synthesis; Cyclotides; In-planta expression; Recombinant expression.

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References

1. Abel-Santos E, Scott CP, Benkovic SJ (2003) Use of inteins for the in vivo production of stable cyclic peptide libraries in E. coli. Methods in molecular biology (Clifton, NJ):281–294
1. Aboye TL, Clark RJ, Burman R, Roig MB, Craik DJ, Göransson U (2011) Interlocking disulfides in circular proteins: toward efficient oxidative folding of cyclotides. Antioxid Redox Signal 14(1):77–86 - DOI - PubMed
1. Aboye T, Kuang Y, Neamati N, Camarero JA (2015) Rapid parallel synthesis of bioactive folded cyclotides by using a tea-bag approach. ChemBioChem 16(5):827–833. https://doi.org/10.1002/cbic.201402691 - DOI - PubMed - PMC
1. Agouridas V, El Mahdi O, Diemer V, Cargoët M, Monbaliu J-CM, Melnyk O (2019) Native chemical ligation and extended methods: mechanisms, catalysis, scope, and limitations. Chem Rev 119(12):7328–7443. https://doi.org/10.1021/acs.chemrev.8b00712 - DOI - PubMed
1. Akcan M, Craik DJ (2013) Synthesis of cyclic disulfide-rich peptides. In: Jensen KJ, Tofteng Shelton P, Pedersen SL (eds) Peptide Synthesis and Applications. Humana Press, Totowa, NJ, pp 89–101. doi: https://doi.org/10.1007/978-1-62703-544-6_6

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[1] Abel-Santos E, Scott CP, Benkovic SJ (2003) Use of inteins for the in vivo production of stable cyclic peptide libraries in E. coli. Methods in molecular biology (Clifton, NJ):281–294

[2] Abel-Santos E, Scott CP, Benkovic SJ (2003) Use of inteins for the in vivo production of stable cyclic peptide libraries in E. coli. Methods in molecular biology (Clifton, NJ):281–294

[3] Aboye TL, Clark RJ, Burman R, Roig MB, Craik DJ, Göransson U (2011) Interlocking disulfides in circular proteins: toward efficient oxidative folding of cyclotides. Antioxid Redox Signal 14(1):77–86 - DOI - PubMed

[4] Aboye TL, Clark RJ, Burman R, Roig MB, Craik DJ, Göransson U (2011) Interlocking disulfides in circular proteins: toward efficient oxidative folding of cyclotides. Antioxid Redox Signal 14(1):77–86 - DOI - PubMed

[5] Aboye T, Kuang Y, Neamati N, Camarero JA (2015) Rapid parallel synthesis of bioactive folded cyclotides by using a tea-bag approach. ChemBioChem 16(5):827–833. https://doi.org/10.1002/cbic.201402691 - DOI - PubMed - PMC

[6] Aboye T, Kuang Y, Neamati N, Camarero JA (2015) Rapid parallel synthesis of bioactive folded cyclotides by using a tea-bag approach. ChemBioChem 16(5):827–833. https://doi.org/10.1002/cbic.201402691 - DOI - PubMed - PMC

[7] Agouridas V, El Mahdi O, Diemer V, Cargoët M, Monbaliu J-CM, Melnyk O (2019) Native chemical ligation and extended methods: mechanisms, catalysis, scope, and limitations. Chem Rev 119(12):7328–7443. https://doi.org/10.1021/acs.chemrev.8b00712 - DOI - PubMed

[8] Agouridas V, El Mahdi O, Diemer V, Cargoët M, Monbaliu J-CM, Melnyk O (2019) Native chemical ligation and extended methods: mechanisms, catalysis, scope, and limitations. Chem Rev 119(12):7328–7443. https://doi.org/10.1021/acs.chemrev.8b00712 - DOI - PubMed

[9] Akcan M, Craik DJ (2013) Synthesis of cyclic disulfide-rich peptides. In: Jensen KJ, Tofteng Shelton P, Pedersen SL (eds) Peptide Synthesis and Applications. Humana Press, Totowa, NJ, pp 89–101. doi: https://doi.org/10.1007/978-1-62703-544-6_6

[10] Akcan M, Craik DJ (2013) Synthesis of cyclic disulfide-rich peptides. In: Jensen KJ, Tofteng Shelton P, Pedersen SL (eds) Peptide Synthesis and Applications. Humana Press, Totowa, NJ, pp 89–101. doi: https://doi.org/10.1007/978-1-62703-544-6_6

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Insights into the synthesis strategies of plant-derived cyclotides

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Insights into the synthesis strategies of plant-derived cyclotides

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