Abstract
BackgroundGlycosylation is one of the most abundant posttranslational polypeptide chain modification in nature. Although carbohydrate modification of protein antigens from many microbial pathogens constitutes important components of B cell epitopes, the role in T cell immunity is not completely understood. There is growing evidence about the importance of these modifications in host bacteria interactions in tuberculosis. It is known, that the sugars present in some Mycobacterium tuberculosis glycoproteins play an important role in both humoral and cellular immune response against the pathogen. Since this modification is lost in the recombinant proteins expressed in Escherichia coli, it is fundamental to search for host bacteria with the capacity to modify the foreign proteins. Amongst the bacteria that are likely to have this possibility are some members of Rhodococcus genus which are Gram-positive bacteria, with high GC-content and genetically very close related to M. tuberculosis.ResultsIn this work, apa, pstS1 and lprG genes that coding for M. tuberculosis glycoproteins were cloned and expressed in Rhodococcus erythropolis. All recombinant proteins were mannosylated as demonstrated by their interaction with mannose binding lectin Concanavalin A. In addition, as native proteins recombinants Apa and PstS1 were secreted to the culture medium in contrast with LprG that was retained in the cell wall.ConclusionsTogether these results, point out R. erythropolis, as a new host for expression of M. tuberculosis glycoproteins.
Highlights
Glycosylation is one of the most abundant posttranslational polypeptide chain modification in nature
We investigated the feasibility of R. erythropolis as a host for the recombinant production of M. tuberculosis glycoproteins, Apa and the lipoglycoproteins PstS1 and LprG
Expression and purification of rRhoApa rRhoApa was expressed from either R. erythropolis transformed with pTip-QC1-apa or pNit-QC1apa vectors
Summary
Glycosylation is one of the most abundant posttranslational polypeptide chain modification in nature. Studies of the role of M. tuberculosis molecules involved in host bacteria interactions identified a number of immunodominant mycobacterial proteins which undergo a process of posttranslational modifications such as glycosylation, lipoylation and methylation that provide important immunological properties [2,3,4,5,6,7]. These proteins are leading candidates for vaccine development. Only a few M. tuberculosis proteins with posttranslational modifications have been expressed in Mycobacterium
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