Heterologous expression of the Mycobacterium tuberculosis gene encoding antigen 85A in Corynebacterium glutamicum

Salim, Karima; Haedens, Vicki; Content, Jean; Leblon, Gérard; Huygen, Kris

doi:10.1128/aem.63.11.4392-4400.1997

Cited by 44 publications

(18 citation statements)

References 54 publications

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“…For unclear reasons, transposon mutagenesis has generated only an antigen 85C-deficient mutant but not the other expected antigen 85A-and 85B-deficient mutants (Jackson et al, 1999). Thanks to the isolation and characterization of a csp1-inactivated mutant strain and the previous success of the heterologous expression of antigen 85A in C. glutamicum (Salim et al, 1997), we expressed the different antigens 85 in the csp1-inactivated mutant strain in order to identify the in vivo acceptors of the mycoloyl residues transferred by the various antigens 85. Expression of antigens 85A, 85B and 85C in the csp1-inactivated mutant strain restored the cell wall-bound corynomycolate content and the cell wall permeability to small hydrophilic substances; this mycoloyltransferase function was expected because, like the mycobacterial antigens 85, the recombinant antigen 85A has been shown to be biologically active and its signal peptide has been shown to be cleaved off at the predicted site (Salim et al, 1997).…”

Section: Discussionmentioning

confidence: 99%

“…Thanks to the existence of the CGL2022 mutant strain with an inactivated csp1 gene and the recent demonstration of the heterologous expression of the mycobacterial antigen 85A in C. glutamicum (Salim et al, 1997), the nature of the in vivo acceptors of the various mycobacterial mycoloyltransferase antigens 85 complex was investigated using appropriate C. glutamicum±E. coli shuttle plasmids containing the various fbp genes.…”

Section: Complementation Of the Csp1-inactivated Mutant By Fbp Genesmentioning

confidence: 99%

“…Interestingly, a csp1-disrupted mutant of C. glutamicum has been generated (Joliff et al, 1992), providing a clue in the investigation of the in vivo function of the putative corynomycoloyltransferase PS1. Furthermore, heterologous expression of antigen 85A in C. glutamicum demonstrated the secretion of the mycobacterial antigen in corynebacteria (Salim et al, 1997), facilitating the identification of the in vivo acceptors of the mycoloyltransferase activity of the individual antigen 85 by expressing the various antigens 85 in the csp1-disrupted mutant. Accordingly, we investigated the consequences of the disruption of the csp1 gene on the cell envelope structure and on the permeability of the mutant and the effects of the overexpression of PS1 and truncated forms of the protein, as well as that of the various antigens 85, in order to establish the in vivo functions of the corresponding gene products in the transfer of corynomycoloyl residues.…”

Section: Introductionmentioning

confidence: 99%

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Characterization of the in vivo acceptors of the mycoloyl residues transferred by the corynebacterial PS1 and the related mycobacterial antigens 85

Puech

Bayan

Salim

et al. 2000

Molecular Microbiology

103

130

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SummaryMycolic acids, long-chain (C 70 ±C 90 ) a-alkyl, bhydroxy fatty acids, are characteristic cell envelope components of mycobacteria; similar but shorterchain substances occur in corynebacteria and related taxa. These compounds apparently play an important role in the physiology of these bacteria. The deduced N-terminal region of PS1, one of the two major secreted proteins of Corynebacterium glutamicum encoded by the csp1 gene, is similar to the antigens 85 complex of Mycobacterium tuberculosis which has been shown to be associated in vitro with a mycoloyltransferase activity onto trehalose. Overexpression of PS1 in the wild-type strain of C. glutamicum suggested the implication of the protein in the transfer of corynomycolates, evidenced by an increase esterification of the cell wall arabinogalactan with corynomycolic acid residues and an accumulation of trehalose dicorynomycolates. Overexpression of truncated forms of PS1 demonstrated that the crucial region for transfer activity of the protein involves all the region of homology with antigens 85. To establish the putative mycoloyltransferase activity of PS1, a csp1-inactivated mutant of C. glutamicum was biochemically characterized. Inactivation of the gene resulted in: (i) a 50% decrease in the cell wall corynomycolate content; (ii) the alteration of the permeability of the C. glutamicum cell envelope; (iii) the decrease of the trehalose dicorynomycolate content; (iv) the accumulation of trehalose monocorynomycolate; and (v) the appearance of a glycolipid identified as 6-corynomycoloylglucose. Complementation of the mutant by the csp1 gene fully restored the wild-type phenotype. Finally, a mycoloyltransferase assay established that PS1 possesses a trehalose mycoloyltransferase activity. To define the in vivo function of antigens 85, the csp1-inactivated mutant was complemented with the fbpA, fbpB or fbpC genes. Complementation with the different fbp genes restored the normal cell wall corynomycolate content and permeability, but did not affect either the fate of trehalose corynomycolates or the occurrence of glucose corynomycolate. Thus, PS1 is one of the enzymes that transfer corynomycoloyl residues onto both the cell wall arabinogalactan and trehalose monocorynomycolate, whereas in the whole bacterium the mycobacterial antigens 85A, 85B and 85C can transfer mycolates only onto the cell wall acceptor in C. glutamicum.

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Section: Discussionmentioning

confidence: 99%

Section: Complementation Of the Csp1-inactivated Mutant By Fbp Genesmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

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Characterization of the in vivo acceptors of the mycoloyl residues transferred by the corynebacterial PS1 and the related mycobacterial antigens 85

Puech

Bayan

Salim

et al. 2000

Molecular Microbiology

103

130

View full text Add to dashboard Cite

show abstract

“…[17][18][19] Particularly, C. glutamicum is a generally recognized as safe (GRAS) strain; hence, it is suitable for the display of viral antigens, which can be used as oral vaccines. [20,21] For the display of proteins on the surface of C. glutamicum, several anchoring motifs have been used, including NCgl1221, NCgl0933 (Porin B, PorB), PorC from C. glutamicum, and PgsA of Bacillus subtilis. [18,19,[22][23][24] However, similar to most other bacterial hosts, the choice of anchoring motifs is crucial for the display efficiency in C. glutamicum.…”

Section: Introductionmentioning

confidence: 99%

Development of a Potential Protein Display Platform in Corynebacterium glutamicum Using Mycolic Acid Layer Protein, NCgl1337, as an Anchoring Motif

Choi

Yim

Jeong

2017

Biotechnology Journal

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In the cell surface display, the choice of host cell and anchoring motif are the most crucial for the efficient display of passenger proteins. Corynebacterium glutamicum has mycolic acid layer in outer membrane and the use of protein in the mycolic acid layer as an anchoring motif can provide a potential platform for surface display in C. glutamicum. All 19 mycolic acid layer proteins of C. glutamicum are analyzed, and two proteins, NCgl0535 and NCgl1337, which have a signal peptide and predicted O-mycoloylation site, are selected as anchoring motifs candidates. Among them, NCgl1337, which shows better expression with higher display efficiency, is chosen as a potential anchoring motif. Two forms of the NCgl1337 anchoring motif, a full-length (1-324 amino acids) and a short-length (1-50 amino acids) containing only signal peptide and O-mycoloylation site, are constructed and their abilities for surface display are examined using two protein models, endoxylanase from Streptomyces coelicolor and α-amylase from Streptococcus bovis. For both model proteins, the short-length NCgl1337 anchoring motif exhibits higher yield of protein display on the surface of C. glutamicum than the full-length NCgl1337. Finally, with C. glutamicum displaying α-amylase, a batch fermentation is performed for the production of l-lysine from starch degradation, and a production of l-lysine as high as 10.8 ± 0.92 g L was achieved after 18 h of culture.

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“…Also, expression of heterologous proteins such as B. subtilis protease subtilisin has been achieved in corynebacteria using vector pEP2 [10]. The gene encoding ¢bronectin binding protein 85A of Mycobacterium tuberculosis has also been expressed in C. glutamicum using pBL1 replicon based vectors containing tac promoter of E. coli or endogenous cspB gene promoter [11]. It was reported earlier by Morinaga et al [12] that common E. coli promoters such as lacUV5, tac and trp function very well in Brevibacterium lactofermentum.…”

Section: Introductionmentioning

confidence: 99%

Construction of fusion vectors of corynebacteria: expression of glutathione-S-transferase fusion protein in Corynebacterium acetoacidophilum ATCC 21476

Srivastava

2002

FEMS Microbiology Letters

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A series of fusion vectors containing glutathione-S-transferase (GST) were constructed by inserting GST fusion cassette of Escherichia coli vectors pGEX4T-1, -2 and -3 in corynebacterial vector pBK2. Efficient expression of GST driven by inducible tac promoter of E. coli was observed in Corynebacterium acetoacidophilum. Fusion of enhanced green fluorescent protein (EGFP) and streptokinase genes in this vector resulted in the synthesis of both the fusion proteins. The ability of this recombinant organism to produce several-fold more of the product in the extracellular medium than in the intracellular space would make this system quite attractive as far as the downstream processing of the product is concerned. ß

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Heterologous expression of the Mycobacterium tuberculosis gene encoding antigen 85A in Corynebacterium glutamicum

Cited by 44 publications

References 54 publications

Characterization of the in vivo acceptors of the mycoloyl residues transferred by the corynebacterial PS1 and the related mycobacterial antigens 85

Characterization of the in vivo acceptors of the mycoloyl residues transferred by the corynebacterial PS1 and the related mycobacterial antigens 85

Development of a Potential Protein Display Platform in Corynebacterium glutamicum Using Mycolic Acid Layer Protein, NCgl1337, as an Anchoring Motif

Construction of fusion vectors of corynebacteria: expression of glutathione-S-transferase fusion protein in Corynebacterium acetoacidophilum ATCC 21476

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