Keya Sau scite author profile

FKBP22, a protein expressed by Escherichia coli, possesses PPIase (peptidyl-prolyl cis-trans isomerase) activity, binds FK506 (an immunosuppressive drug), and shares homology with Legionella Mip (a virulence factor) and its related proteins. To understand the domain structure and the folding-unfolding mechanism of Mip-like proteins, we investigated a recombinant E. coli FKBP22 (His-FKBP22) as a model protein. Limited proteolysis indicated that His-FKBP22 harbors an N-terminal domain (NTD), a C-terminal domain (CTD), and a long flexible region linking the two domains. His-FKBP22, NTD(+) (NTD with the entire flexible region), and CTD(+) (CTD with a truncated flexible region) were unfolded by a two-state mechanism in the presence of urea. Urea induced the swelling of dimeric His-FKBP22 molecules at the pretransition state but dissociated it at the early transition state. In contrast, guanidine hydrochloride (GdnCl)-induced equilibrium unfolding of His-FKBP22 or NTD(+) and CTD(+) seemed to follow three-step and two-step mechanisms, respectively. Interestingly, the intermediate formed during the unfolding of His-FKBP22 with GdnCl was not a molten globule but was thought to be composed of the partially unfolded dimeric as well as various multimeric His-FKBP22 molecules. Dimeric His-FKBP22 did not dissociate gradually with increasing concentrations of GdnCl. Very low GdnCl concentrations also had little effect on the molecular dimensions of His-FKBP22. Unfolding with either denaturant was found to be reversible, as refolding of the unfolded His-FKBP22 completely, or nearly completely, restored the structure and function of the protein. Additionally, denaturation of His-FKBP22 appeared to begin at the CTD(+).

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The Antifungal Drug Amphotericin B Promotes Inflammatory Cytokine Release by a Toll-like Receptor- and CD14-dependent Mechanism

Mambula

Latz

et al. 2003

Journal of Biological Chemistry

195

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Amphotericin B is the most effective drug for treating many life-threatening fungal infections. Amphotericin B administration is limited by infusion-related toxicity, including fever and chills, an effect postulated to result from proinflammatory cytokine production by innate immune cells. Because amphotericin B is a microbial product, we hypothesized that it stimulates immune cells via Toll-like receptors (TLRs) and CD14. We show here that amphotericin B induces signal transduction and inflammatory cytokine release from cells expressing TLR2 and CD14. Primary murine macrophages and human cell lines expressing TLR2, CD14, and the adapter protein MyD88 responded to amphotericin B with NF-B-dependent reporter activity and cytokine release, whereas cells deficient in any of these failed to respond. Cells mutated in TLR4 were less responsive to amphotericin B stimulation than cells expressing normal TLR4. These data demonstrate that TLR2 and CD14 are required for amphotericin B-dependent inflammatory stimulation of innate immune cells and that TLR4 may also provide stimulation of these cells. Our results provide a putative molecular basis for inflammatory responses elicited by amphotericin B and suggest strategies to eliminate the acute toxicity of this drug.

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A staphylococcal anti-sigma factor possesses a single-domain, carries different denaturant-sensitive regions and unfolds via two intermediates

et al. 2018

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RsbW, an anti-sigma factor possessing kinase activity, is expressed by many Gram-positive bacteria including Staphylococcus aureus. To obtain clues about the domain structure and the folding-unfolding mechanism of RsbW, we have elaborately studied rRsbW, a recombinant S. aureus RsbW. Sequence analysis of the protein fragments, generated by the limited proteolysis of rRsbW, has proposed it to be a single-domain protein. The unfolding of rRsbW in the presence of GdnCl or urea was completely reversible in nature and occurred through the formation of at least two intermediates. The structure, shape, and the surface hydrophobicity of no intermediate completely matches with those of other intermediates or the native rRsbW. Interestingly, one of the intermediates, formed in the presence of less GdnCl concentrations, has a molten globule-like structure. Conversely, all of the intermediates, like native rRsbW, exist as dimers in aqueous solution. The putative molten globule and the urea-generated intermediates also have retained some kinase activity. Additionally, the putative ATP binding site/catalytic site of rRsbW shows higher denaturant sensitivity than the tentative dimerization region of this enzyme.

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Identification and characterization of a cyclosporin binding cyclophillin from Staphylococcus aureus Newman

et al. 2017

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Cyclophilins, a class of peptidyl-prolyl cis-trans isomerase (PPIase) enzymes, are inhibited by cyclosporin A (CsA), an immunosuppressive drug. Staphylococcus aureus Newman, a pathogenic bacterium, carries a gene for encoding a putative cyclophilin (SaCyp). SaCyp shows significant homology with other cyclophilins at the sequence level. A three-dimensional model structure of SaCyp harbors a binding site for CsA. To verify whether SaCyp possesses both the PPIase activity and the CsA binding ability, we have purified and investigated a recombinant SaCyp (rCyp) using various in vitro tools. Our RNase T1 refolding assay indicates that rCyp has a substantial extent of PPIase activity. rCyp that exists as a monomer in the aqueous solution is truly a cyclophilin as its catalytic activity specifically shows sensitivity to CsA. rCyp appears to bind CsA with a reasonably high affinity. Additional investigations reveal that binding of CsA to rCyp alters its structure and shape to some extent. Both rCyp and rCyp-CsA are unfolded via the formation of at least one intermediate in the presence of guanidine hydrochloride. Unfolding study also indicates that there is substantial extent of thermodynamic stabilization of rCyp in the presence of CsA as well. The data suggest that rCyp may be exploited to screen the new antimicrobial agents in the future.

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Keya Sau

Toll-like Receptor (TLR) Signaling in Response toAspergillus fumigatus

Domain Structure and Denaturation of a Dimeric Mip-like Peptidyl-Prolyl cis–trans Isomerase from Escherichia coli

The Antifungal Drug Amphotericin B Promotes Inflammatory Cytokine Release by a Toll-like Receptor- and CD14-dependent Mechanism

A staphylococcal anti-sigma factor possesses a single-domain, carries different denaturant-sensitive regions and unfolds via two intermediates

Identification and characterization of a cyclosporin binding cyclophillin from Staphylococcus aureus Newman

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