Escherichia coli Can Adapt Its Protein Translocation Machinery for Enhanced Periplasmic Recombinant Protein Production

Alexandros Karyolaimos,Rageia Elfageih,Susanne Sievers,Katharina Riedel,Minia Antelo-Varela,Jan-Willem De Gier,Dörte Becher,Katarzyna Magdalena Dolata,Anna Mestre Borras

doi:10.3389/fbioe.2019.00465

Alexandros Karyolaimos, Rageia Elfageih + Show 7 more

Open Access

https://doi.org/10.3389/fbioe.2019.00465

Copy DOI

Abstract

Recently, we engineered a tunable rhamnose promoter-based setup for the production of recombinant proteins in E. coli. This setup enabled us to show that being able to precisely set the production rate of a secretory recombinant protein is critical to enhance protein production yields in the periplasm. It is assumed that precisely setting the production rate of a secretory recombinant protein is required to harmonize its production rate with the protein translocation capacity of the cell. Here, using proteome analysis we show that enhancing periplasmic production of human Growth Hormone (hGH) using the tunable rhamnose promoter-based setup is accompanied by increased accumulation levels of at least three key players in protein translocation; the peripheral motor of the Sec-translocon (SecA), leader peptidase (LepB), and the cytoplasmic membrane protein integrase/chaperone (YidC). Thus, enhancing periplasmic hGH production leads to increased Sec-translocon capacity, increased capacity to cleave signal peptides from secretory proteins and an increased capacity of an alternative membrane protein biogenesis pathway, which frees up Sec-translocon capacity for protein secretion. When cells with enhanced periplasmic hGH production yields were harvested and subsequently cultured in the absence of inducer, SecA, LepB, and YidC levels went down again. This indicates that when using the tunable rhamnose-promoter system to enhance the production of a protein in the periplasm, E. coli can adapt its protein translocation machinery for enhanced recombinant protein production in the periplasm.

Highlights

The bacterium Escherichia coli is widely used for the production of recombinant proteins (Rosano et al, 2019)
Our observations indicate that enhancing the periplasmic production of human Growth Hormone (hGH) leads to the enhanced protein translocation capacity of the cell and there seems to be a correlation between periplasmic hGH production yields and the increase in accumulation levels of components involved in protein translocation
We have shown that enhancing the production of a recombinant protein in the periplasm of E. coli by rhamnose promoter-based production rate screening can lead to increased accumulation levels of at least three key players in protein translocation, SecA, LepB, and YidC

Summary

Introduction

The bacterium Escherichia coli is widely used for the production of recombinant proteins (Rosano et al, 2019). The bottlenecks associated with guiding recombinant proteins across the cytoplasmic membrane can negatively affect protein production yields in the periplasm (Baneyx and Mujacic, 2004; De Geyter et al, 2016). To target a recombinant protein to the periplasm, it is usually fused at the N-terminus to a signal peptide guiding it to the Sectranslocon (Crane and Randall, 2017; Tsirigotaki et al, 2017). The Sec-translocon mediates the translocation of secretory proteins across the cytoplasmic membrane and the insertion of membrane proteins into the cytoplasmic membrane (Crane and Randall, 2017; Tsirigotaki et al, 2017). The cytoplasmic membrane protein integrase/chaperone YidC can assist the biogenesis of cytoplasmic membrane proteins in conjunction with the Sec-translocon as well as an independent entity (Kuhn et al, 2017)

Methods

Results

Conclusion