Essential Role of Non-Conserved α4-His178 in Stabilizing the α4-α5 Hairpin and Biotoxicity of the Cry4Aa Mosquitocidal Protein.

Background: Bacillus thuringiensis Cry toxins are well known for their insecticidal properties, primarily through the formation of ion-leakage pores via α4-α5 hairpins. His178 in helix 4 of the Cry4Aa mosquito-active toxin has been suggested to play a crucial role in its biotoxicity.

Objective: This study aimed to investigate the functional importance of Cry4Aa-His178 through experimental and computational analyses.

Efficient Production and Purification of Bioactive E50-52-Class IIa Peptidic Bacteriocin Is Achieved through Fusion with the Catalytic Domain of Lysostaphin-Class III Bacteriocin.

E50-52, a class IIa-peptidic bacteriocin produced by a strain of , has broad-spectrum antimicrobial activity against various foodborne pathogens. However, effective utilization of the E50-52 has been limited by low production yields and challenges associated with separation and purification of this 39-amino acid antimicrobial peptide. In this study, we have successfully produced a biologically active recombinant form of E50-52 by fusing it with the 16-kDa catalytic domain of lysostaphin-class III bacteriocin (LssCAT), which resulted in high-yield production.

Optimized high-yield preparation of alkaline-solubilizable crystalline inclusion of the Bacillus thuringiensis Cry4Aa δ-endotoxin expressed in Escherichia coli.

The native Cry4Aa δ-endotoxin produced exclusively in Bacillus thuringiensis during sporulation as a ∼130-kDa inactive protoxin is confined within the parasporal crystalline inclusion that dissolves at alkaline pH in the midgut lumen of mosquito larvae. Here, the recombinant Cry4Aa toxin over-expressed in Escherichia coli at 30 °C as an alkaline-solubilizable inclusion was found inevitably lost during isolation from the cell lysate (pH ∼6.5) of which host cells were pre-suspended in distilled water (pH ∼5.

Two Recombinant Bacteriocins, Rhamnosin and Lysostaphin, Show Synergistic Anticancer Activity Against Gemcitabine-Resistant Cholangiocarcinoma Cell Lines.

Cholangiocarcinoma (CCA), a bile duct cancer with a high mortality rate, has a poor prognosis due to its highly invasive and drug-resistant phenotypes. More effective and selective therapies are urgently needed. Bacteriocins are broad-spectrum antimicrobial peptides/proteins produced by bacterial strains to compete with other bacteria.

Conserved loop residues-Tyr and Asn near the catalytic site of the lysostaphin endopeptidase are essential for staphylolytic activity toward pentaglycine binding and catalysis.

Lysostaphin endopeptidase cleaves pentaglycine cross-bridges found in staphylococcal cell-wall peptidoglycans and proves very effective in combatting methicillin-resistant Staphylococcus aureus. Here, we revealed the functional importance of two loop residues, Tyr in loop 1 and Asn in loop 4, which are highly conserved among the M23 endopeptidase family and are found close to the Zn-coordinating active site. Detailed analyses of the binding groove architecture together with protein-ligand docking showed that these two loop residues potentially interact with the docked ligand-pentaglycine.

Cry4Aa and Cry4Ba Mosquito-Active Toxins Utilize Different Domains in Binding to a Particular ALP Isoform: A Functional Toxin Receptor Implicating Differential Actions on Target Larvae.

The three-domain Cry4Aa toxin produced from subsp. was previously shown to be much more toxic to mosquito larvae than its closely related toxin-Cry4Ba. The interaction of these two individual toxins with target receptors on susceptible larval midgut cells is likely to be the critical determinant in their differential toxicity.

Complete structure elucidation of a functional form of the Bacillus thuringiensis Cry4Ba δ-endotoxin: Insights into toxin-induced transmembrane pore architecture.

The insecticidal nature of Cry δ-endotoxins produced by Bacillus thuringiensis is generally attributed to their ability to form transmembrane pores, causing lysis of target insect cells. Previously, the truncated tertiary structure of the chymotrypsin-treated Cry4Ba toxin lacking the N-terminal helices-α1 and α2 was reported. To elucidate a more complete functional structure, a 65-kDa trypsin-activated form of the Cry4Ba-R203Q mutant toxin was thus generated for X-ray crystallography by eliminating the Arg-tryptic cleavage site.

Cry4Ba Insecticidal ToxinExploits Leu in Its C-Terminal Domain to Interact with a Target Receptor- Membrane-Bound Alkaline Phosphatase.

In addition to the receptor-binding domain (DII), the C-terminal domain (DIII) of three-domain Cry insecticidal δ-endotoxins from has been implicated in target insect specificity, yet its precise mechanistic role remains unclear. Here, the 21 kDa high-purity isolated DIII fragment derived from the Cry4Ba mosquito-specific toxin was achieved via optimized preparative FPLC, allowing direct rendering analyses for binding characteristics toward its target receptor- membrane-bound alkaline phosphatase (Aa-mALP). Binding analysis via dotblotting revealed that the Cry4Ba-DIII truncate was capable of specific binding to nitrocellulose-bound Aa-mALP, with a binding signal comparable to its 65 kDa Cry4Ba-R203Q full-length toxin.

His in the pore-lining α4 of the Bacillus thuringiensis Cry4Aa δ-endotoxin is crucial for structural arrangements of the α4-α5 transmembrane hairpin and hence biotoxicity.

One proposed toxic mechanism of Bacillus thuringiensis Cry δ-endotoxins involves pore formation in target membranes by the α4-α5 transmembrane hairpin constituting their pore-forming domain. Here, nine selected charged and uncharged polar residues in the pore-lining α4 of the Cry4Aa mosquito-active toxin were substituted with Ala. All mutant toxins, i.

N-Terminally Added Tag Selectively Enhances Heterologous Expression of VacA Cytotoxin Variants from Helicobacter pylori.

Background: Gastric pathogen Helicobacter pylori secretes VacA cytotoxin displaying a high degree of polymorphic variations of which the highest VacA pathogenicity correlates with m1-type variant followed by VacA-m2.

Objective: To comparatively evaluate expression in Escherichia coli of the mature VacA variants (m1- and m2-types) and their 33- and 55/59-kDa domains fused with His tag at N- or C-terminus.

Methods: All VacA clones expressed in E.

Preferential modification of CyaA-hemolysin by CyaC-acyltransferase through the catalytic Ser-His dyad in esterolysis of palmitoyl-donor substrate devoid of acyl carrier proteins.

We previously demonstrated that the ~130-kDa CyaA-hemolysin domain (CyaA-Hly) from Bordetella pertussis co-expressed with CyaC-acyltransferase in Escherichia coli was acylated at Lys and thus activated its hemolytic activity. Here, attempts were made to provide greater insights into such toxin activation via fatty-acyl modification by CyaC-acyltransferase. Non-acylated CyaA-Hly (NA/CyaA-Hly) and CyaC were separately expressed in E.

Optimized high-purity protein preparation of biologically active recombinant VacA cytotoxin variants from Helicobacter pylori.

Vacuolating cytotoxin A (VacA) is a highly polymorphic virulence protein produced by the human gastric pathogen Helicobacter pylori which can cause gastritis, peptic ulcer and gastric cancer. Here, we present an optimized protein preparation of the mature full-length VacA variants (m1-and m2-types) and their 33-kDa N-terminal and 55/59-kDa C-terminal domains as biologically active recombinant proteins fused with an N-terminal His tag. All recombinant VacA constructs were over-expressed in Escherichia coli as insoluble inclusions which were soluble when phosphate buffer (pH 7.

Molecular Insights into Zn Inhibition of the Antibacterial Endopeptidase Lysostaphin from .

Background: Mature lysostaphin (~28-kDa Lss) from Staphylococcus simulans proves effective in killing methicillin-resistant Staphylococcus aureus (MRSA) which is endemic in hospitals worldwide. Lss is Zn-dependent endopeptidase, but its bacteriolytic activity could be affected by exogenously added Zn.

Objective: To gain greater insights into structural and functional impacts of Znand Nion Lss-induced bioactivity.

The C-Terminal Domain of the Cry4Ba Mosquito-Specific Toxin Serves as a Potential Membrane Anchor.

Although the C-terminal domain (DIII) of three-domain Cry insecticidal toxins from has been implicated in various biological functions, its exact role still remains to be elucidated. Here, the 21-kDa isolated DIII fragment of the 65-kDa Cry4Ba mosquito-specific toxin was analyzed for its binding characteristics toward lipid-bilayer membranes. When the highly-purified Cry4Ba-DIII protein was structurally verified by attenuated total reflection Fourier transform infrared (ATR-FTIR) spectroscopy, it revealed the presence of a distinct β-sheet structure, corresponding to its structure embodied in the Cry4Ba crystal structure.

Purification and characterization of the antibacterial peptidase lysostaphin from Staphylococcus simulans: Adverse influence of Zn on bacteriolytic activity.

Lysostaphin, a bacteriolytic toxin from Staphylococcus simulans, is a Zn-dependent endopeptidase that cleaves pentaglycine cross-bridges found in peptidoglycan of certain Staphylococci. Here, we have investigated a critical influence of Zn ions on lysostaphin-induced bioactivity. Initially, we succeeded in producing a large amount with high purity of the 28-kDa His-tagged mature lysostaphin via soluble expression in Escherichia coli and subsequent purification via immobilized-Ni affinity chromatography (IMAC).

Structural requirement of the hydrophobic region of the Bordetella pertussis CyaA-hemolysin for functional association with CyaC-acyltransferase in toxin acylation.

Previously, we demonstrated that the ∼130-kDa CyaA-hemolysin (CyaA-Hly, Met-Arg) from Bordetella pertussis was palmitoylated at Lys when co-expressed with CyaC-acyltransferase in Escherichia coli, and thus activated its hemolytic activity. Here, further investigation on a possible requirement of the N-terminal hydrophobic region (HP, Met-Leu) for toxin acylation was performed. The ∼100-kDa RTX (Repeat-in-ToXin) fragment (CyaA-RTX, Ala-Arg) containing the Lys-acylation region (AR, Ala-Gln), but lacking HP, was co-produced with CyaC in E.

Contributions of the Hydrophobic Helix 2 of the Bordetella pertussis CyaA-hemolysin to Membrane Permeabilization.

Background: Adenylate cyclase (CyaA) is one of the major virulence factors of Bordetella pertussis that plays a key role in whooping cough pathogenesis. A putative transmembrane helical hairpin (α2-loop-α3), encompassing residues 529-594 of CyaA hemolysin (CyaA-Hly) domain, was previously proposed to be crucially involved in hemolytic activity against target erythrocytes.

Objective: The main objective of this study was to gain more insight into membrane permeabilization of this toxin.

A Helicobacter pylori Vacuolating Cytotoxin A: Mouse DHFR Fusion Protein Triggers Dye Release from Liposomes.

The membrane perturbing action of the VacA toxin from Helicobacter pylori is responsible for vacuole formation in intracellular compartments and the induction of apoptosis. The VacA toxin contains 2 major domains, p33 and p55, which are involved in receptor binding and membrane pore formation, respectively. Improved methodologies for VacA purification and assays are urgently needed for further detailed investigations on the mechanism of action of this significant virulence factor.

Functional Contributions of Positive Charges in the Pore-Lining Helix 3 of the Bordetella pertussis CyaA-Hemolysin to Hemolytic Activity and Ion-Channel Opening.

The Bordetella pertussis CyaA-hemolysin (CyaA-Hly) domain was previously demonstrated to be an important determinant for hemolysis against target erythrocytes and ion-channel formation in planar lipid bilayers (PLBs). Here, net-charge variations in the pore-lining helix of thirteen related RTX cytolysins including CyaA-Hly were revealed by amino acid sequence alignments, reflecting their different degrees of hemolytic activity. To analyze possible functional effects of net-charge alterations on hemolytic activity and channel formation of CyaA-Hly, specific mutations were made at Gln or Glu in its pore-lining α3 of which both residues are highly conserved Lys in the three highly active RTX cytolysins (i.

Zn-dependent autocatalytic activity of the Bordetella pertussis CyaA-hemolysin.

Proteolytic degradation of the ∼100-kDa isolated RTX (Repeat-in-ToXin) subdomain (CyaA-RTX) of the Bordetella pertussis CyaA-hemolysin (CyaA-Hly) was evidently detected upon solely-prolonged incubation. Here, a truncated CyaA-Hly fragment (CyaA-HP/BI) containing hydrophobic and acylation regions connected with the first RTX block (BI) was constructed as a putative precursor for investigating its potential autocatalysis. The 70-kDa His-tagged CyaA-HP/BI fragment which was over-expressed in Escherichia coli as insoluble aggregate was entirely solubilized with 4 M urea.

Acylation of the Bordetella pertussis CyaA-hemolysin: Functional implications for efficient membrane insertion and pore formation.

Previously, the ~130-kDa CyaA-hemolysin domain (CyaA-Hly) from Bordetella pertussis co-expressed with CyaC-acyltransferase in Escherichia coli was demonstrated to be palmitoylated at Lys and thus activated its hemolytic activity against target erythrocytes. Here, we report the functional importance of Lys-palmitoylation for membrane insertion and pore formation of CyaA-Hly. Intrinsic fluorescence emissions of both non-acylated CyaA-Hly (NA/CyaA-Hly) and CyaA-Hly were indistinguishable, suggesting no severe conformational change upon acylation at Lys.

Structural Characterization of Humanized Nanobodies with Neutralizing Activity against the Bordetella pertussis CyaA-Hemolysin: Implications for a Potential Epitope of Toxin-Protective Antigen.

Previously, the 126-kDa CyaA-hemolysin (CyaA-Hly) fragment cloned from Bordetella pertussis--the causative agent of whooping cough--and functionally expressed in Escherichia coli was revealed as a key determinant for CyaA-mediated hemolysis against target erythrocytes. Here, phagemid-transfected E. coli clones producing nanobodies capable of binding to CyaA-Hly were selected from a humanized-camel VH/VHH phage-display library.

Importance of Thr(328) and Thr(369) for functional maintenance of two receptor-binding β-hairpins of the Bacillus thuringiensis Cry4Ba toxin: Implications for synergistic interactions with Cyt2Aa2.

Bacillus thuringiensis Cry4Ba mosquito-active toxin was previously shown to utilize two critical loop-residues, Tyr(332) and Phe(364) which are respectively located in β2-β3 and β4-β5 loops, for synergistic interactions with its alternative receptor-Cyt2Aa2. Here, structural analysis of the Cry4Ba-receptor-binding domain revealed that its N-terminal subdomain encompasses β2-β3 and β4-β5 hairpins which are stabilized by inter-hairpin hydrogen bonding between Thr(328) in β2 and Thr(369) in β5. Functional importance of these two side-chains was demonstrated by single-Ala substitutions (T328A and T369A), adversely affecting toxin activity against Aedes aegypti larvae.

Functional importance of the Gly cluster in transmembrane helix 2 of the Bordetella pertussis CyaA-hemolysin: Implications for toxin oligomerization and pore formation.

Adenylate cyclase-hemolysin (CyaA) is a major virulence factor of Bordetella pertussis causing whooping cough in humans. We previously showed that two transmembrane helices (α2 and α3) in the hemolysin domain (CyaA-Hly) are crucially involved in hemolytic activity. Here, PCR-based substitutions were employed to investigate a potential involvement in hemolysis of a series of four Gly residues (Gly(530), Gly(533), Gly(537) and Gly(544)) which map onto one face of a helical wheel plot of pore-lining helix 2.