The relative localization patterns of class B penicillin-binding proteins
Pbp2x and Pbp2b were used as positional indicators of septal and peripheral
(side-wall-like) peptidoglycan (PG) synthesis, respectively, in the midcell
regions of Streptococcus pneumoniae cells at different stages
of division. We confirm that Pbp2x and Pbp2b are essential in the strain D39
genetic background, which differs from that of laboratory strains. We show that
Pbp2b, like Pbp2x and class A Pbp1a, follows a different localization pattern
than FtsZ and remains at division septa after FtsZ reappears at the equators of
daughter cells. Pulse-experiments with fluorescent D-amino acids (FDAAs) were
performed in wild-type cells and in cells in which Pbp2x activity was
preferentially inhibited by methicillin or Pbp2x amount was depleted. These
experiments show that Pbp2x activity separates from that of other PBPs to the
centers of constricting septa in mid-to-late divisional cells resolved by
high-resolution 3D-SIM microscopy. Dual-protein and protein-fluorescent
vancomycin 2D and 3D-SIM immunofluorescence microscopy (IFM) of cells at
different division stages corroborate that Pbp2x separates to the centers of
septa surrounded by an adjacent constricting ring containing Pbp2b, Pbp1a, and
regulators, StkP and MreC. The separate localization of Pbp2x suggests
distinctive roles in completing septal PG synthesis and remodeling.
Summary
Bacterial cell shapes are manifestations of programs carried out by multi-protein machines that synthesize and remodel the peptidoglycan (PG) mesh and other polymers surrounding cells. GpsB protein is conserved in low-GC Gram-positive bacteria and is not essential in rod-shaped Bacillus subtilis, where it plays a role in shuttling penicillin binding proteins (PBPs) between septal side-wall sites of PG synthesis. In contrast, we report here that GpsB is essential in ellipsoid-shaped, ovococcal Streptococcus pneumoniae (pneumococcus), and depletion of GpsB leads to formation of elongated, enlarged cells containing unsegregated nucleoids and multiple, unconstricted rings of fluorescent-vancomycin staining, and eventual lysis. These phenotypes are similar to those caused by selective inhibition of Pbp2x by methicillin that prevents septal PG synthesis. Dual-protein 2D and 3D-SIM (structured illumination) immunofluorescence microscopy (IFM) showed that GpsB and FtsZ have overlapping, but not identical, patterns of localization during cell division and that multiple, unconstricted rings of division proteins FtsZ, Pbp2x, Pbp1a, and MreC are in elongated cells depleted of GpsB. These patterns suggest that GpsB, like Pbp2x, mediates septal ring closure. This first dual-protein 3D-SIM IFM analysis also revealed separate positioning of Pbp2x and Pbp1a in constricting septa, consistent with two separable PG synthesis machines.
The peptidoglycan cell wall is a common target for antibiotic therapy but its structure and assembly are only partially understood. Peptidoglycan synthesis requires a suite of penicillin-binding proteins (PBPs), the individual roles of which are difficult to determine because each enzyme is often dispensable for growth perhaps due to functional redundancy. To address this challenge, we sought to generate tools that would enable selective examination of a subset of PBPs. We designed and synthesized fluorescent and biotin derivatives of the β-lactam-containing antibiotic cephalosporin C. These probes facilitated specific in vivo labeling of active PBPs in both Bacillus subtilis PY79 and an unencapsulated derivative of D39 Streptococcus pneumoniae. Microscopy and gel-based analysis indicated that the cephalosporin C-based probes are more selective than BOCILLIN-FL, a commercially available penicillin V analog, which labels all PBPs. Dual labeling of live cells performed by saturation of cephalosporin C-susceptible PBPs followed by tagging of the remaining PBP population with BOCILLIN-FL demonstrated that the two sets of PBPs are not co-localized. This suggests that even PBPs that are located at a particular site (e.g., septum) are not all intermixed, but rather that PBP subpopulations are discretely localized. Accordingly, the Ceph C probes represent new tools to explore a subset of PBPs and have the potential to facilitate a deeper understand of the roles of this critical class of proteins.
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