Abstract
Burkholderia pseudomallei is an intracellular pathogen and the causative agent of melioidosis, a severe disease of humans and animals. One of the virulence factors critical for early stages of infection is the Burkholderia secretion apparatus (Bsa) Type 3 Secretion System (T3SS), a molecular syringe that injects bacterial proteins, called effectors, into eukaryotic cells where they subvert cellular functions to the benefit of the bacteria. Although the Bsa T3SS itself is known to be important for invasion, intracellular replication, and virulence, only a few genuine effector proteins have been identified and the complete repertoire of proteins secreted by the system has not yet been fully characterized. We constructed a mutant lacking bsaP, a homolog of the T3SS “gatekeeper” family of proteins that exert control over the timing and magnitude of effector protein secretion. Mutants lacking BsaP, or the T3SS translocon protein BipD, were observed to hypersecrete the known Bsa effector protein BopE, providing evidence of their role in post-translational control of the Bsa T3SS and representing key reagents for the identification of its secreted substrates. Isobaric Tags for Relative and Absolute Quantification (iTRAQ), a gel-free quantitative proteomics technique, was used to compare the secreted protein profiles of the Bsa T3SS hypersecreting mutants of B. pseudomallei with the isogenic parent strain and a bsaZ mutant incapable of effector protein secretion. Our study provides one of the most comprehensive core secretomes of B. pseudomallei described to date and identified 26 putative Bsa-dependent secreted proteins that may be considered candidate effectors. Two of these proteins, BprD and BapA, were validated as novel effector proteins secreted by the Bsa T3SS of B. pseudomallei.
Highlights
From the ‡The Roslin Institute and Royal (Dick) School of Veterinary Studies, University of Edinburgh, Easter Bush, Midlothian, EH25 9RG, Scotland, UK.; §Dundee Cell Products, James Lindsay Place, Dundee Technopole, Dundee, DD1 5JJ, Scotland, UK
One important virulence factor of B. pseudomallei that has been shown to be important for infection in many other Gram-negative bacteria including pathogenic Escherichia coli, Salmonella, Shigella, and Yersinia, is the Type III Secretion System (T3SS)1 [13,14,15,16]
From this analysis we provide the first evidence of the involvement of both BipD and BsaP in control of known effector/translocator secretion in the Burkholderia Secretion Apparatus (Bsa) Type 3 Secretion System (T3SS)
Summary
T3SS, Type III secretion system; B. pseudomallei, Burkholderia pseudomallei; Bsa, Burkholderia secretion apparatus; iTRAQ, Isobaric tags for relative and absolute quantification; WT, wild-type; CHBP, Cif homolog of Burkholderia pseudomallei; IQR, interquartile range; Cm, chloramphenicol; Amp, ampicillin; Kan, kanamycin; Tet, tetracycline; EPEC, enteropathogenic Escherichia coli; MNGC, multinucleated giant cell. We have shown a 10276 bipD::pDM4 mutant secreted higher levels of the effector protein BopE into the bacterial culture supernatant by Western blot analysis, but it is unknown what effect bipD disruption may have on the secretion of other effectors and translocators [26] Another group of T3SS proteins that have been shown in many systems to be involved in the control of effector and translocator secretion are the so called “gatekeeper” family of proteins, InvE/MxiC/SepL/YopN-TyeA of Salmonella/Shigella/ E. coli/Yersinia, respectively [17]. BsaZ is a homolog of YscU in Yersinia, which forms a key component of the inner membrane ring and is required for a functional T3SS [61] (supplemental Fig. S1) From this analysis we provide the first evidence of the involvement of both BipD and BsaP in control of known effector/translocator secretion in the Bsa T3SS. We have identified 26 candidate effector proteins, including all known Bsa-secreted effectors, of which we show two proteins are novel substrates for secretion by the Bsa T3SS
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