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Protein Sci. 2018 Aug;27(8):1392-1406. doi: 10.1002/pro.3428. Epub 2018 May 3.

Using disruptive insertional mutagenesis to identify the in situ structure-function landscape of the Shigella translocator protein IpaB.

Author information

1
Higuchi Biosciences Center, University of Kansas, Lawrence, Kansas, 66047.
2
Department of Molecular Biosciences, University of Kansas, Lawrence, Kansas, 66045.
3
Department of Biochemistry and Molecular Biophysics, Kansas State University, Manhattan, Kansas, 66506.
4
Protein Structure Laboratory, Del Shankel Structural Biology Center, University of Kansas, Lawrence, KS, 66045.
5
IMCA-CAT, Hauptman-Woodward Medical Research Institute, Argonne, Illinois, 60439.
6
Department of Pharmaceutical Chemistry, University of Kansas, Lawrence, Kansas, 66047.

Abstract

Bacterial type III secretion systems (T3SS) are used to inject proteins into mammalian cells to subvert cellular functions. The Shigella T3SS apparatus (T3SA) is comprised of a basal body, cytoplasmic sorting platform and exposed needle with needle "tip complex" (TC). TC maturation occurs when the translocator protein IpaB is recruited to the needle tip where both IpaD and IpaB control secretion induction. IpaB insertion into the host membrane is the first step of translocon pore formation and secretion induction. We employed disruptive insertional mutagenesis, using bacteriophage T4 lysozyme (T4L), within predicted IpaB loops to show how topological features affect TC functions (secretion control, translocon formation and effector secretion). Insertions within the N-terminal half of IpaB were most likely to result in a loss of steady-state secretion control, however, all but the two that were not recognized by the T3SA retained nearly wild-type hemolysis (translocon formation) and invasiveness levels (effector secretion). In contrast, all but one insertion in the C-terminal half of IpaB maintained secretion control but were impaired for hemolysis and invasion. These nature of the data suggest the latter mutants are defective in a post-secretion event, most likely due to impaired interactions with the second translocator protein IpaC. Intriguingly, only two insertion mutants displayed readily detectable T4L on the bacterial surface. The data create a picture in which the makeup and structure of a functional T3SA TC is highly amenable to physical perturbation, indicating that the tertiary structure of IpaB within the TC is more plastic than previously realized.

KEYWORDS:

IpaB; Shigella; translocon; type III secretion

PMID:
29672980
PMCID:
PMC6153406
DOI:
10.1002/pro.3428
[Indexed for MEDLINE]
Free PMC Article

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