Abstract
We previously identified Treponema pallidum repeat proteins TprC/D, TprF, and TprI as candidate outer membrane proteins (OMPs) and subsequently demonstrated that TprC is not only a rare OMP but also forms trimers and has porin activity. We also reported that TprC contains N- and C-terminal domains (TprC(N) and TprC(C)) orthologous to regions in the major outer sheath protein (MOSP(N) and MOSP(C)) of Treponema denticola and that TprC(C) is solely responsible for β-barrel formation, trimerization, and porin function by the full-length protein. Herein, we show that TprI also possesses bipartite architecture, trimeric structure, and porin function and that the MOSP(C)-like domains of native TprC and TprI are surface-exposed in T. pallidum, whereas their MOSP(N)-like domains are tethered within the periplasm. TprF, which does not contain a MOSP(C)-like domain, lacks amphiphilicity and porin activity, adopts an extended inflexible structure, and, in T. pallidum, is tightly bound to the protoplasmic cylinder. By thermal denaturation, the MOSP(N) and MOSP(C)-like domains of TprC and TprI are highly thermostable, endowing the full-length proteins with impressive conformational stability. When expressed in Escherichia coli with PelB signal sequences, TprC and TprI localize to the outer membrane, adopting bipartite topologies, whereas TprF is periplasmic. We propose that the MOSP(N)-like domains enhance the structural integrity of the cell envelope by anchoring the β-barrels within the periplasm. In addition to being bona fide T. pallidum rare outer membrane proteins, TprC/D and TprI represent a new class of dual function, bipartite bacterial OMP.
Highlights
Treponema pallidum contains a paucity of outer membrane proteins
We reported that TprC contains N- and C-terminal domains (TprCN and TprCC) orthologous to regions in the major outer sheath protein (MOSPN and MOSPC) of Treponema denticola and that TprCC is solely responsible for -barrel formation, trimerization, and porin function by the full-length protein
We show that TprI possesses bipartite architecture, trimeric structure, and porin function and that the MOSPC-like domains of native TprC and TprI are surface-exposed in T. pallidum, whereas their MOSPN-like domains are tethered within the periplasm
Summary
Treponema pallidum contains a paucity of outer membrane proteins. Results: The C-terminal domains of TprC/D and TprI are -barrels with porin function; their N-terminal domains provide periplasmic anchors for the -barrels. We previously identified Treponema pallidum repeat proteins TprC/D, TprF, and TprI as candidate outer membrane proteins (OMPs) and subsequently demonstrated that TprC is a rare OMP and forms trimers and has porin activity. In addition to being bona fide T. pallidum rare outer membrane proteins, TprC/D and TprI represent a new class of dual function, bipartite bacterial OMP. We confirmed the bipartite topology of native TprC and demonstrated that TprI possesses the same dual domain architecture, forms trimers, displays comparable porin activity, and, like TprC, is both surface-exposed and tethered within the periplasm in T. pallidum. Unlike TprC and TprI, native TprF in T. pallidum is entirely periplasmic and tightly bound to the protoplasmic cylinder By thermal denaturation, both the MOSPN-and MOSPC-like domains of TprC and TprI are highly thermostable, endowing their full-length proteins with a high degree of conformational stability. In addition to being bona fide T. pallidum rare outer membrane proteins, TprC/D and I represent a new class of bipartite bacterial outer membrane protein with porin and cell envelope stabilizing functions
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