Steven R. Loftus scite author profile

Binding of enzymatic E colicins to the vitamin B12 receptor, BtuB, is the first stage in a cascade of events that culminate in the translocation of the cytotoxic nuclease into the Escherichia coli cytoplasm and release of its tightly bound immunity protein. A dogma of colicin biology is that the toxin coiled-coil connecting its functional domains must unfold or unfurl to span the periplasm, with recent reports claiming this reaction is initiated by receptor binding. We report isothermal titration calorimetry data of BtuB binding the endonuclease toxin ColE9 and a disulfide form (ColE9 S-S ) where unfolding of the coiled-coil is prevented and, as a consequence, the toxin is biologically inactive. Contrary to expectation, the thermodynamics of receptor binding, characterized by large negative values for T⌬S, are identical for the two colicins, arguing against any form of BtuB-induced unfolding. We go on to delineate key features of the ''colicin translocon'' that assembles at the cell surface after BtuB binding by using a complex of histidinetagged Im9 bound to ColE9 S-S . First, we show that the porin OmpF is recruited directly to the BtuB⅐colicin complex to form the translocon. Second, recruitment is through the natively unfolded region of the colicin translocation domain, with this domain likely having two contact points for OmpF. Finally, the immunity protein is not released during its assembly. Our study demonstrates that although colicin unfolding is undoubtedly a prerequisite for E. coli cell death, it must occur after assembly of the translocon.colicin ͉ toxin ͉ outer membrane ͉ translocation ͉ native disorder

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Competitive recruitment of the periplasmic translocation portal TolB by a natively disordered domain of colicin E9

Loftus

Walker

Mate

et al. 2006

Proc. Natl. Acad. Sci. U.S.A.

155

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The natively disordered N-terminal 83-aa translocation (T) domain of E group nuclease colicins recruits OmpF to a colicin-receptor complex in the outer membrane (OM) as well as TolB in the periplasm of Escherichia coli, the latter triggering translocation of the toxin across the OM. We have identified the 16-residue TolB binding epitope in the natively disordered T-domain of the nuclease colicin E9 (ColE9) and solved the crystal structure of the complex. ColE9 folds into a distorted hairpin within a canyon of the six-bladed ␤-propeller of TolB, using two tryptophans to bolt the toxin to the canyon floor and numerous intramolecular hydrogen bonds to stabilize the bound conformation. This mode of binding enables colicin side chains to hydrogen-bond TolB residues in and around the channel that runs through the ␤-propeller and that constitutes the binding site of peptidoglycan-associated lipoprotein (Pal). Pal is a globular binding partner of TolB, and their association is known to be important for OM integrity. The structure is therefore consistent with translocation models wherein the colicin disrupts the TolB-Pal complex causing local instability of the OM as a prelude to toxin import. Intriguingly, Ca 2؉ ions, which bind within the ␤-propeller channel and switch the surface electrostatics from negative to positive, are needed for the negatively charged T-domain to bind TolB with an affinity equivalent to that of Pal and competitively displace it. Our study demonstrates that natively disordered proteins can compete with globular proteins for binding to folded scaffolds but that this can require cofactors such as metal ions to offset unfavorable interactions.native disorder ͉ thermodynamics ͉ toxin

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Structure of TolB in complex with a peptide of the colicin E9 T- domain

Loftus¹,

Walker²,

Mate³

et al. 2006

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Steven R. Loftus

Cell entry mechanism of enzymatic bacterial colicins: Porin recruitment and the thermodynamics of receptor binding

Competitive recruitment of the periplasmic translocation portal TolB by a natively disordered domain of colicin E9

Structure of TolB in complex with a peptide of the colicin E9 T- domain

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