Abstract
BackgroundIn recent years, the industrial workhorse Corynebacterium glutamicum has gained increasing interest as a host organism for the secretory production of heterologous proteins. Generally, the yield of a target protein in the culture supernatant depends on a multitude of interdependent biological and bioprocess parameters which have to be optimized. So far, the monitoring of such optimization processes depends on the availability of a direct assay for the respective target protein that can be handled also in high throughput approaches. Since simple assays, such as standard enzymatic activity assays, are not always at hand, the availability of a general protein secretion biosensor is highly desirable.ResultsHigh level secretion of proteins via the Sec protein export pathway leads to secretion stress, a phenomenon that is thought to be caused by the accumulation of incompletely or misfolded proteins at the membrane-cell envelope interface. We have analyzed the transcriptional responses of C. glutamicum to the secretory production of two different heterologous proteins and found that, in both cases, the expression of the gene encoding a homologue of the extracytosolic HtrA protease was highly upregulated. Based on this finding, a C. glutamicum Sec secretion biosensor strain was constructed in which the htrA gene on the chromosome was replaced by the eyfp gene. The fluorescence of the resulting reporter strain responded to the secretion of different heterologous proteins (cutinase from Fusarium solani pisi and alkaline phosphatase PhoA from Escherichia coli) in a dose-dependent manner. In addition, three differently efficient signal peptides for the secretory production of the cutinase could be differentiated by the biosensor signal. Furthermore, we have shown that an efficient signal peptide can be separated from a poor signal peptide by using the biosensor signal of the respective cells in fluorescence activated cell sorting experiments.ConclusionsWe have succeeded in the construction of a C. glutamicum biosensor strain that allows for the monitoring of Sec-dependent secretion of heterologous proteins in a dose-dependent manner, independent of a direct assay for the desired target protein.
Highlights
In recent years, the industrial workhorse Corynebacterium glutamicum has gained increasing interest as a host organism for the secretory production of heterologous proteins
Identification of Sec secretion stress‐responsive genes in C. glutamicum For the identification of Sec secretion stress-responsive genes in C. glutamicum, two heterologous secretory model precursor proteins, i.e. a cutinase from the fungus F. solani pisi fused to the B. subtilis NprE signal peptide [10] and the α-amylase AmyE from B. subtilis containing its authentic signal peptide [21] and a carboxyl-terminal His6-tag were used
To differentiate the cellular responses that are caused by the expression of a heterologous protein per se from those that are caused by the secretion of the protein across the cytoplasmic membrane, we included C. glutamicum cells that expressed a signal peptide-less and cytosolic variant (Additional file 1: Figure S1) of the H is6-tagged AmyE protein (ΔSP-AmyE) in our microarray analyses
Summary
The industrial workhorse Corynebacterium glutamicum has gained increasing interest as a host organism for the secretory production of heterologous proteins. The monitoring of such optimization processes depends on the availability of a direct assay for the respective target protein that can be handled in high throughput approaches. Since simple assays, such as standard enzymatic activity assays, are not always at hand, the availability of a general protein secretion biosensor is highly desirable. The secreted proteins of interest are proteolytically stable and are present in a very high relative purity in the respective fermentation media [5]
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