Bacterial expression of CRM197: investigation and optimization of gene expression factors for effective production in E. coli.

Cover Page

Cite item

Full Text

Open Access Open Access
Restricted Access Access granted
Restricted Access Subscription or Fee Access

Abstract

CRM197 (Cross Reacting Material 197) is an inactive form of C. diphtheriae exotoxin used as a carrier protein for the development and production of conjugated polysaccharide vaccines and immunotherapeutic drugs. However, the development of these research areas is not possible without an efficient and cost-effective technology to produce CRM197 of the proper quality. In this study, we developed a highly efficient method to produce recombinant CRM197 as a fusion with SUMO protein, yielding more than 3 grams per liter in form of the inclusion bodies. We examined the significant effect of expression vector type, heterologous gene expression conditions and cultivation on its solubility. Using a combination of reduced cultivation temperature and the promoter of the gene encoding the heat shock protein CspA, we achieved an increase in the solubility level of SUMO-CRM197 of more than 30%, with an overall biosynthesis level of more than 2 grams per liter. Coexpression of the target gene with the DsbC disulfide isomerase gene allowed us to obtain the target protein completely in the soluble state with a yield of more than 1.4 grams per liter. The results obtained may become the basis for the development of a promising domestic technology for the production of CRM197.

Full Text

Restricted Access

About the authors

S. O. Rogozhkin

Vyatka State University

Author for correspondence.
Email: usr22574@vyatsu.ru
Russian Federation, Kirov, 610000

A. S. Gerasimov

Vyatka State University

Email: usr22574@vyatsu.ru
Russian Federation, Kirov, 610000

References

  1. Broker M. // Human Vaccine and Immunotherapeutics. 2016. V. 12. № 3. P. 667–669.
  2. Zhou J., Petracca R.// J Tongji Med. Univ. 1999. V. 19. № 4. P. 253–256.
  3. Stefan A., Conti M., Rubboli D., Ravagli L., Presta E., Hochkoeppler A. // J. Biotechnol. 2011. V. 156. № 4. P. 245–252.
  4. Духовлинов И.В., Федорова Е.А., Богомолова Е.Г., Добровольская О.А., Черняева Е.Н., Аль-Шехадат Р.И., Симбирцев. А.С. // Инфекция и иммунитет. 2015. Т. 5. № 1. C. 37–44.
  5. Goffin P., Dewerchin M., De Rop P., Blais N., Dehottay P. // Biotechnol. J. 2017. V. 12. № 7. P. 1–11.
  6. Tarahomjoo S., Bandehpour M., Aghaebrahimian M., Ahangaran S. // Prot. and Pept. Lett. 2022. V. 29. № 4. P. 350–359.
  7. Khodak Y.A. Ryazanova A.Y. Vorobiev I.I., Kovalchuk A.L., Ovechko N.N., Aparin P.G. // BioTech. 2023. V. 12. № 1. P. 1–9.
  8. Патент США. 2015. № US10093704B2.
  9. Sambrook J., Green M.R. Molecular Сloning: a Llaboratory Manual.4th Ed. V. 3. New York: Cold Spring Harbor Laboratory Press, 2012. 1546 p.
  10. Duetz W., Ruedi L., Hermann R., O’Connor K., Buchs J., Witholt B. // Appl. Biotech. Microbiol. 2000. V. 66. № . 6. P. 2641–2646.
  11. Studier W.F. // Protein. Expr. Purif. 2005. V. 41. № 1. P. 207–234.
  12. Zeder-Lutz G., Cherouati N., Reinhart C., Pattus F., Wagner R. // Protein Expr. Purif. 2006. V. 50. № 1. P. 118–127.
  13. Austin B.P., Waugh D.S. // Protein Expr. Purif. 2011. V. 82. № 1. P. 116–124.
  14. Carboni F., Kitowski A., Sorieul C., Veggi D., Marques M.C., Oldrini D. // Chem. Sci. 2022. V. 13. № 8. P. 2440–2449.
  15. Zhao Q., Gao Y., Xiao M., Huang X., Wu X. // Chem. Commun (Camb). 2021. V. 57. № 12. P. 1474–1477.
  16. Xiong A.W., Fang J.M., Ren S., Li W., Wang J, Zhao Y. et al. // Front. Oncol. 2022. V. 5. № 11. P. 1–10.
  17. Conde E., Bertrand R., Balbino B, Bonnefoy J., Stackowicz J, Caillot N. et al. // Nat. Comm. 2021. V. 2574. № 12. P. 1–14.
  18. Rathore A.S., Winkle H. // Nat. Biotech. 2009. V. 27. № 1. P. 26–34.
  19. Герасимов А.С., Рогожкин С.О., Шахова Е.С., Чепурных Т.В., Гороховатский А.Ю., Мышкина Н.М. и др. // Биоорг. химия. 2021. Т. 47. № 5. C. 610–622.
  20. Butt T.R., Edavettal S.C., Hall J.P., Mattern M.R. // Prot. Expr. Purif. 2005. V. 43. № 1. P. 1–9.

Supplementary files

Supplementary Files
Action
1. JATS XML
Download

Copyright (c) 2024 Russian Academy of Sciences