Your search keyword '"RTX toxin"' showing total 35 results

1. Modification of the RTX domain cap by acyl chains of adapted length rules the formation of functional hemolysin pores.

Author

Lepesheva, Anna, Grobarcikova, Michaela, Osickova, Adriana, Jurnecka, David, Knoblochova, Sarka, Cizkova, Monika, Osicka, Radim, Sebo, Peter, and Masin, Jiri

Subjects

*ADENYLATE cyclase, *ACYLTRANSFERASES, *INTEGRINS, *MYRISTOYLATION, *TOXINS

Abstract

The acylated pore-forming R epeats in T o X in (RTX) cytolysins α-hemolysin (HlyA) and adenylate cyclase toxin (CyaA) preferentially bind to β 2 integrins of myeloid leukocytes but can also promiscuously bind and permeabilize cells lacking the β 2 integrins. We constructed a HlyA 1 – 563 /CyaA 860 – 1706 chimera that was acylated either by the toxin-activating acyltransferase CyaC, using sixteen carbon-long (C16) acyls, or by the HlyC acyltransferase using fourteen carbon-long (C14) acyls. Cytolysin assays with the C16- or C14-acylated HlyA/CyaA chimeric toxin revealed that the RTX domain of CyaA can functionally replace the RTX domain of HlyA only if it is modified by C16-acyls on the Lys983 residue of CyaA. The C16-monoacylated HlyA/CyaA chimera was as pore-forming and cytolytic as native HlyA, whereas the C14-acylated chimera exhibited very low pore-forming activity. Hence, the capacity of the RTX domain of CyaA to support the insertion of the N-terminal pore-forming domain into the target cell membrane, and promote formation of toxin pores, strictly depends on the modification of the Lys983 residue by an acyl chain of adapted length. [Display omitted] • A palmitoylated HlyA/CyaA chimera is as cytolytic as myristoylated HlyA toxin. • Myristoylation (C14-acylation) fails to activate the HlyA/CyaA chimera. • Palmitoylated (C16-acylated) HlyA/CyaA chimera forms HlyA-like pores. • This HlyA/CyaA chimera binds the β 2 integrin CR3 (CD11b/CD18). [ABSTRACT FROM AUTHOR]

Published

2024

2. Catechin-mediated restructuring of a bacterial toxin inhibits activity.

Author

Chang, En Hyung, Huang, Joanne, Lin, Zixiang, and Brown, Angela C.

Subjects

*CATECHIN, *BACTERIAL toxins, *POLYPHENOLS, *TEA analysis, *ANTIBACTERIAL agents, *BACTERICIDES

Abstract

Abstract Background Catechins, polyphenols derived from tea leaves, have been shown to have antibacterial properties, through direct killing of bacteria as well as through inhibition of bacterial toxin activity. In particular, certain catechins have been shown to have bactericidal effects on the oral bacterium, Aggregatibacter actinomycetemcomitans , as well as the ability to inhibit a key virulence factor of this organism, leukotoxin (LtxA). The mechanism of catechin-mediated inhibition of LtxA has not been shown. Methods In this work, we studied the ability of six catechins to inhibit LtxA-mediated cytotoxicity in human white blood cells, using Trypan blue staining, and investigated the mechanism of action using a combination of techniques, including fluorescence and circular dichroism spectroscopy, confocal microscopy, and surface plasmon resonance. Results We found that all the catechins except (−)-catechin inhibited the activity of this protein, with the galloylated catechins having the strongest effect. Pre-incubation of the toxin with the catechins increased the inhibitory action, indicating that the catechins act on the protein, rather than the cell. The secondary structure of LtxA was dramatically altered in the presence of catechin, which resulted in an inhibition of toxin binding to cholesterol, an important initial step in the cytotoxic mechanism of the toxin. Conclusions These results demonstrate that the catechins inhibit LtxA activity by altering its structure to prevent interaction with specific molecules present on the host cell surface. General significance Galloylated catechins modify protein toxin structure, inhibiting the toxin from binding to the requisite molecules on the host cell surface. Graphical abstract Unlabelled Image Highlights • Galloylated catechins alter the structure of A. actinomycetemcomitans leukotoxin. • Galloylated catechins prevent leukotoxin from binding to cholesterol. • Leukotoxin activity is thus greatly inhibited by galloylated catechins. [ABSTRACT FROM AUTHOR]

Published

2019

3. Generation of a recombinant Aggregatibacter actinomycetemcomitans RTX toxin in Escherichia coli.

Author

Balashova, Nataliya, Giannakakis, Alexander, Brown, Angela C., Koufos, Evan, Benz, Roland, Arakawa, Tsutomu, Tang, Hsin-Yao, and Lally, Edward T.

Subjects

*ACTINOBACILLUS actinomycetemcomitans, *ESCHERICHIA coli toxins, *GENETIC recombination, *MICROBIAL virulence, *PERIODONTITIS, *BACTERIA

Abstract

A leukotoxin (LtxA) that is produced by Aggregatibacter actinomycetemcomitans (Aa) is an important virulence determinant in an aggressive form of periodontitis in adolescents. Understanding the function of this protein at the molecular level is critical to elucidating its role in the disease process. To accomplish genetic analysis of the protein structure and relating these observations to toxin function, we have developed an E. coli expression system for the generation and rapid purification of LtxA. Cloning the structural toxin gene, ltxA, from Aa strain JP2 under control of T7 promoter-1 of pCDFDuet-1 vector resulted in expression of a 114 KDa protein which could be easily purified by the presence of a carboxy-terminal engineered double hexahistidine (double–His 6 ) tag and was immunologically reactive with an anti-LtxA monoclonal antibody, but was not cytotoxic. Cloning a second gene, ltxC, an acyltransferase gene, into the vector under control of T7 promoter-2, resulted in expression of the biologically active LtxA. The toxin was extracted from E. coli inclusion bodies, purified by immobilized metal affinity chromatography, and refolded by dialysis. When compared by circular dichroism (CD) spectroscopy analysis, acylated recombinant LtxA has a secondary structure consistent with wt LtxA, while variations in α-helical structure of nonacylated LtxA were observed. No modifications in α-helix were found upon the toxin's binding with liposome-incorporated cholesterol. Our results suggest that pure, biologically active recombinant LtxA can be isolated by a one-step affinity chromatography from E. coli . The toxic and structural properties of the recombinant LtxA are similar to its wt counterpart. [ABSTRACT FROM AUTHOR]

Published

2018

4. Type I secretion system--it takes three and a substrate.

Author

Kanonenberg, Kerstin, Spitz, Olivia, Erenburg, Isabelle N., Beer, Tobias, and Schmitt, Lutz

Subjects

*GRAM-negative bacteria, *BACTERIAL cell walls, *MEMBRANE proteins

Abstract

Type I secretion systems are widespread in Gram-negative bacteria and mediate the one-step translocation of a large variety of proteins serving for diverse purposes, including nutrient acquisition or bacterial virulence. Common to most substrates of type I secretion systems is the presence of a C-terminal secretion sequence that is not cleaved during or after translocation. Furthermore, these protein secretion nanomachineries are always composed of an ABC transporter, a membrane fusion protein, both located in the inner bacterial membrane, and a protein of the outer membrane. These three membrane proteins transiently form a 'tunnel channel' across the periplasmic space in the presence of the substrate. Here we summarize the recent findings with respect to structure, function and application of type I secretion systems. [ABSTRACT FROM AUTHOR]

Published

2018

5. Understanding the Mechanism of Translocation of Adenylate Cyclase Toxin across Biological Membranes.

Author

Ostolaza, Helena, Martín, César, González-Bullón, David, Uribe, Kepa B., and Etxaniz, Asier

Subjects

*ADENYLATE cyclase, *CHROMOSOMAL translocation, *TOXIN metabolism, *BIOLOGICAL membranes, *WHOOPING cough, *BORDETELLA pertussis, *PHAGOCYTES, *CELL death

Abstract

Adenylate cyclase toxin (ACT) is one of the principal virulence factors secreted by the whooping cough causative bacterium Bordetella pertussis, and it has a critical role in colonization of the respiratory tract and establishment of the disease. ACT targets phagocytes via binding to the CD11b/CD18 integrin and delivers its N-terminal adenylate cyclase (AC) domain directly to the cell cytosol, where it catalyzes unregulated conversion of cytosolic ATP into cAMP upon activation by binding to cellular calmodulin. High cAMP levels disrupt bactericidal functions of the immune cells, ultimately leading to cell death. In spite of its relevance in the ACT biology, the mechanism by which its ≈400 amino acid-long AC domain is transported through the target plasma membrane, and is released into the target cytosol, remains enigmatic. This article is devoted to refresh our knowledge on the mechanism of AC translocation across biological membranes. Two models, the so-called "two-step model" and the recently-proposed "toroidal pore model", will be considered. [ABSTRACT FROM AUTHOR]

Published

2017

6. Hemolysin of uropathogenic Escherichia coli: A cloak or a dagger?

Author

Ristow, Laura C. and Welch, Rodney A.

Subjects

*URINARY tract infections, *HEMOLYSIS & hemolysins, *ESCHERICHIA coli diseases, *CYTOTOXINS, *PYELONEPHRITIS, *SEVERITY of illness index

Abstract

Hemolysin from uropathogenic Escherichia coli (UPEC) is a hemolytic and cytotoxic protein active against a broad range of species and cell types. Expression of hemolysin correlates with severity of infection, as up to 78% of UPEC isolates from pyelonephritis cases express hemolysin. Despite decades of research on hemolysin activity, the mechanism of intoxication and the function of hemolysin in UPEC infection remain elusive. Early in vitro research established the role of hemolysin as a lytic protein at high doses. It is hypothesized that hemolysin is secreted at sublytic doses in vivo and recent research has focused on understanding the more subtle effects of hemolysin both i n vitro and in elegant infection models in vivo , including inoculation by micropuncture of individual kidney nephrons. As the field continues to evolve, comparisons of hemolysin function in isolates from a range of UTI infections will be important for delineating the role of this toxin. This article is part of a Special Issue entitled: Pore-Forming Toxins edited by Mauro Dalla Serra and Franco Gambale. [ABSTRACT FROM AUTHOR]

Published

2016

7. Aggregatibacter actinomycetemcomitans leukotoxin induces cytosol acidification in LFA-1 expressing immune cells.

Author

Balashova, N., Dhingra, A., Boesze‐Battaglia, K., and Lally, E.T.

Subjects

*ACTINOBACILLUS actinomycetemcomitans, *LEUKOTOXINS, *CYTOSOL, *ACIDIFICATION, *ACUTE erythroid leukemia, *BIOCHEMISTRY, *CELL death, *CELL lines, *CELL membranes, *CELLS, *GRAM-negative bacteria, *HOMEOSTASIS, *HYDROGEN-ion concentration, *LIPIDS, *LYSOSOMES, *PHENOMENOLOGY, *RESEARCH funding, *TOXINS

Abstract

Studies have suggested that Aggregatibacter actinomycetemcomitans leukotoxin (LtxA) kills human lymphocyte function-associated antigen 1 (LFA-1; CD11a/CD18)-bearing immune cells through a lysosomal-mediated mechanism. Lysosomes are membrane-bound cellular organelles that contain an array of acid hydrolases that are capable of breaking down biomolecules. The lysosomal membrane bilayer confines the pH-sensitive enzymes within an optimal acidic (pH 4.8) environment thereby protecting the slightly basic cytosol (pH 6.8-7.5). In the current study, we have probed the effect of LtxA-induced cytolysis on lysosomal integrity in two different K562 erythroleukemia cell lines. K562-puro/LFA-1 cells were stably transfected with CD11a and CD18 cDNA to express LFA-1 on the cell surface while K562-puro, which does not express LFA-1, served as a control. Following treatment with 100 ng ml(-1) LtxA cells were analyzed by live cell imaging in conjunction with time-lapse confocal microscopy and by flow cytometry. Using a pH-sensitive indicator (pHrodo(®)) we demonstrated that the toxin causes a decrease in the intracellular pH in K562-puro/LFA-1 cells that is noticeable within the first 15 min of treatment. This process correlated with the disappearance of lysosomes in the cytosol as determined by both acridine orange and LysoTracker(®) Red DND-99 staining. These changes were not observed in K562-puro cells or when heat inactivated toxin was added to K562-puro/LFA-1. Our results suggest that LtxA induces lysosomal damage, cytosol acidification, which is followed by cell death in K562-puro/LFA-1 cells. [ABSTRACT FROM AUTHOR]

Published

2016

8. Induction of eryptosis by low concentrations of E. coli alpha-hemolysin.

Author

Velásquez, Fernanda Carrizo, Maté, Sabina, Bakás, Laura, and Herlax, Vanesa

Subjects

*HEMOLYSIS & hemolysins, *CELLULAR signal transduction, *ESCHERICHIA coli, *HOSTS (Biology), *BIOLOGICAL membranes, *APOPTOSIS

Abstract

Uropathogenic strains of Escherichia coli deliver the toxin alpha-hemolysin (HlyA) to optimize the host environment for the spread of infection. It was reported that at high concentrations, the toxin forms pores in eukaryotic membranes, leading to cell lysis, while lower concentrations have appeared to interfere with host–cell-signaling pathways causing cell death by apoptosis. Nevertheless, what is not clear is how often HlyA reaches levels that are high enough to lyse host target cells during the course of an infection. In the present investigation, we demonstrate that a low toxin concentration induces the suicidal death of erythrocytes (eryptosis), the major cell type present in blood. Eryptosis is triggered both by an increment in intracellular calcium and by ceramide. Since we have previously demonstrated that a low concentration of HlyA induces an increase in intraerythrocyte calcium, in the present experiments we have shown that this ion activates calpains, which hydrolyze skeleton proteins such as spectrin, ankyrin, protein 4.1 and the electrophoretic Band-3 species, thus resulting in morphologic changes in the erythrocytes. We furthermore observed that a low toxin concentration induced the activation of endogenous sphingomyelinases that in turn increased the amount of ceramide in erythrocyte membranes. Both spectrin proteolysis and ceramide formation may cause the exposure of phosphatidylserine on the membrane so as to trigger a macrophage engulfment of the erythrocyte. By this means eryptosis may be an advantageous mechanism for removing defective erythrocytes before hemolysis. [ABSTRACT FROM AUTHOR]

Published

2015

9. Genomic and pathogenic characterization of RTX toxin producing Rodentibacter sp. that is closely related to Rodentibacter haemolyticus.

Author

Sasaki, Hiraku, Ueshiba, Hidehiro, Yanagisawa, Naoko, Itoh, Yuta, Ishikawa, Hiroki, Shigenaga, Ayako, Benga, Laurentiu, and Ike, Fumio

Subjects

*COLONIES (Biology), *AMINO acid sequence, *LABORATORY rodents, *INFECTION prevention, *LOG-rank test

Abstract

Rodentibacter spp. are opportunistic pathogens that are often isolated from the upper respiratory tracts of laboratory rodents. In particular, R. pneumotropicus and R. heylii require considerable caution in rodent colonies, as they cause lethal pneumonia in rodents. A new species, R. haemolyticus , has recently been classified in the genus, and a very closely related strain, Rodentibacter sp. strain JRC, has been isolated in Japan. This study focused on strain JRC by performing genomic and pathogenic analyses. Draft genome sequencing of strain JRC identified several genes coding for putative virulent proteins, including hemolysin and adhesin. Furthermore, we found a new RTX (repeats-in-structural toxin) toxin gene in the genome, which was predicted to produce a critical virulence factor (RTXIA) similar to Enterobacteriaceae. The concentrated culture supernatant containing RTX toxin (RTXIA) showed cytotoxicity toward RAW264.7 cells. Pre-incubation with anti-CD11a attenuated the cytolysis, suggesting that the concentrated culture supernatant containing RTXIA is cell surface LFA-1 mediated cytolysin. Experimental infection of strain JRC intranasally with 5 female BALB/c- Rag2 −/− mice showed 60% lethality and was not significantly different from those of R. pneumotropicus ATCC 35149T using the log-rank test. Combined with our finding that RTXIA has an almost identical amino acid sequence (98% identity) to that of R. haemolyticus 1625/19T, these results strongly suggest that RTXIA-producing strain JRC (and related R. haemolyticus) is pathogenic to immunodeficient rodents, and both agents should be excluded in laboratory rodent colonies. • Rodentibacter sp. strain JRC and R. haemolyticus RTX toxin, which was similar to that produced by Enterobacteriaceae , was predicted an important virulence factor. • Concentrated culture supernatant containing RTX toxin cytolysis was attenuated by pre-incubation with anti-CD11a neutralizing antibody, suggesting that Rodentibacter sp. RTX toxin induces cell surface LFA-1 mediated cytolysins. • Experimental infection of Rodentibacter sp. intranasally with BALB/C- Rag2 −/− mice showed 60% lethality and was not significantly different from that of R. pneumotropicus type strain ATCC 35149T using the log-rank test. • RTX toxin producing Rodentibacter sp. strain JRC is one of agents that requires infection prevention in laboratory rodent colonies as well as R. haemolyticus. [ABSTRACT FROM AUTHOR]

Published

2022

10. AvxA, a composite serine-protease-RTX toxin of Avibacterium paragallinarum

Author

Küng, Eliane and Frey, Joachim

Subjects

*SERINE proteinases, *MICROBIAL virulence, *IMMUNIZATION, *CELL-mediated cytotoxicity, *SERUM, *SEROTYPES, *RECOMBINANT microbial toxins, *ETIOLOGY of diseases

Abstract

Abstract: Avibacterium paragallinarum, the etiological agent of infectious coryza in chicken, was found to encode a bivalent serine-protease – RTX-porin toxin named AvxA. This toxin is encoded on a classical RTX operon structure with the activator gene avxC, the structural serin-protease-RTX toxin gene avxA, and the genes for a proper type I secretion system avxBD. AvxA is activated by the product of the avxC gene, secreted by the avxBD specified type I secretion system and proteolytically processed leaving a 95kDa RTX moiety that is found in culture supernatants of A. paragallinarum serovars A, B and C. The RTX moiety of AvxA (AvxA-RTX) is cytotoxic against the avian macrophage like cell line HD11 but not against bovine macrophage cell line BoMac. Purified IgG from hyper-immune rabbit anti-AvxA-RTX serum made by immunization with recombinant AvxA-RTX from a serotype A strain fully neutralizes the cytotoxic activity of recombinant active AvxA-RTX and of A. paragallinarum serotypes A, B and C. This indicates that AvxA is a common major virulence attribute of all A. paragallinarum serotypes. [Copyright &y& Elsevier]

Published

2013

11. A Bacterial RTX Toxin Causes Programmed Necrotic Cell Death Through Calcium-Mediated Mitochondrial Dysfunction.

Author

Kim, Young Ran, Lee, Shee Eun, Kang, In-Chol, Nam, Kwang Il, Choy, Hyon E., and Rhee, Joon Haeng

Subjects

*APOPTOSIS, *MITOCHONDRIAL pathology, *VIBRIO vulnificus, *HELA cells, *CONFOCAL microscopy, *IMMUNOBLOTTING

Abstract

Vibrio vulnificus, a halophilic estuarine bacterium causing fatal septicemia and necrotic wound infection, is highly cytotoxic to eukaryotic cells. We have reported that RtxA1 toxin kills host cells only after they come into contact with bacteria and plays an essential role in the pathogenesis of V. vulnificus. This study was performed to elucidate the mechanism by which the RtxA1 toxin mediates the death of HeLa cells. By using confocal microscopy and immunoblot analysis, we show that the 501-kDa RtxA1 toxin is processed into 2 fragments after its secretion into host cells. The largerN-terminal fragment (RtxA1-N; approximately 370 kDa) remained at the host cell membrane, whereas the smaller C-terminal fragment (RtxA1-C; approximately 130 kDa) was internalized into the host cell cytoplasm. RtxA1-N is believed to polymerize and form pores at the host cell membrane and to induce an increase in necrotic volume related to calcium. The RtxA1 toxin caused an increase in the intracellular Ca2+ concentration and the subsequent activation of JNK. The cell death mechanism occurred via calcium-dependent mitochondrial pathways, which caused calcium sequestration in the mitochondria, accompanied by irreversible mitochondrial membrane dysfunction and adenosine triphosphate depletion, and was later accompanied by the disruption of the integrity of the plasma membrane. [ABSTRACT FROM AUTHOR]

Published

2013

12. Brief heat treatment causes a structural change and enhances cytotoxicity of the Escherichia coli α-hemolysin.

Author

Aulik, Nicole A., Atapattu, Dhammika N., Czuprynski, Charles J., and McCaslin, Darrel R.

Subjects

*CELL-mediated cytotoxicity, *ESCHERICHIA coli diseases, *HEAT treatment, *MICROBIAL virulence, *EXOTOXIN, *GRAM-negative bacteria, *PROTEIN-protein interactions

Abstract

α-Hemolysin (HLY) is an important virulence factor for uropathogenic Escherichia coli. HLY is a member of the RTX family of exotoxins secreted by a number of Gram-negative bacteria. Recently, it was reported that a related RTX toxin, the Mannheimia haemolytica leukotoxin, exhibits increased cytotoxicity following brief heat treatment. In this article, we show that brief heat treatment (1 min at 100°C) increases cytotoxicity of HLY for human bladder cells, kidney epithelial cells (A498) and neutrophils. Heat treatment also increased hemolysis of human red blood cells (RBCs). Furthermore, heat treatment of previously inactived HLY restored its cytotoxicity. Heat-activated and native HLY both required glycophorin A to lyse RBCs. Native and heat-activated HLY appeared to bind equally well to the surface of A498 cells; although, Western blot analyses demonstrated binding to different proteins on the surface. Confocal microscopy revealed that heat-activated HLY bound more extensively to internal structures of permeabilized A498 cells than did native HLY. Several lines of spectroscopic evidence demonstrate irreversible changes in the structure of heat activated compared to native HLY. We show changes in secondary structure, increased exposure of tryptophan residues to the aqueous environment, an increase in molecular dimension and an increase in hydrophobic surface area. These properties are among the most common characteristics described for the molten globule state, first identified as an intermediate in protein folding. We hypothesize that brief heat treatment of HLY causes a conformational change leading to significant differences in protein-protein interactions that result in increased cytotoxicity for target cells. [ABSTRACT FROM AUTHOR]

Published

2013

13. Gangliosides Block Aggregatibacter Actinomycetemcomitans Leukotoxin (LtxA)-Mediated Hemolysis.

Author

Forman, Michael S., Nishikubo, Jason B., Han, Rebecca K., Le, Amy, Balashova, Nataliya V., and Kachlany, Scott C.

Subjects

*GANGLIOSIDES, *HEMOLYSIS & hemolysins, *ERYTHROCYTES, *LEUCOCYTES, *ANTIGENS, *CARBOHYDRATES, *TOXINS, *CELL-mediated cytotoxicity, *SUGARS

Abstract

Aggregatibacter actinomycetemcomitans is an oral pathogen and etiologic agent of localized aggressive periodontitis. The bacterium is also a cardiovascular pathogen causing infective endocarditis. A. actinomycetemcomitans produces leukotoxin (LtxA), an important virulence factor that targets white blood cells (WBCs) and plays a role in immune evasion during disease. The functional receptor for LtxA on WBCs is leukocyte function antigen-1 (LFA-1), a β-2 integrin that is modified with N-linked carbohydrates. Interaction between toxin and receptor leads to cell death. We recently discovered that LtxA can also lyse red blood cells (RBCs) and hemolysis may be important for pathogenesis of A. actinomycetemcomitans. In this study, we further investigated how LtxA might recognize and lyse RBCs. We found that, in contrast to a related toxin, E. coli ?-hemolysin, LtxA does not recognize glycophorin on RBCs. However, gangliosides were able to completely block LtxA-mediated hemolysis. Furthermore, LtxA did not show a preference for any individual ganglioside. LtxA also bound to ganglioside-rich C6 rat glioma cells, but did not kill them. Interaction between LtxA and C6 cells could be blocked by gangliosides with no apparent specificity. Gangliosides were only partially effective at preventing LtxA-mediated cytotoxicity of WBCs, and the effect was only observed when a high ratio of ganglioside:LtxA was used over a short incubation period. Based on the results presented here, we suggest that because of the similarity between N-linked sugars on LFA-1 and the structures of gangliosides, LtxA may have acquired the ability to lyse RBCs. [ABSTRACT FROM AUTHOR]

Published

2010

14. Resveratrol modulates RTX toxin-induced cytotoxicity through interference in adhesion and toxin production

Author

Kim, Jong Ro, Cha, Mi Hye, Oh, Dool-Ri, Oh, Won Keun, Rhee, Joon Haeng, and Kim, Young Ran

Subjects

*RESVERATROL, *TOXINS, *CELL-mediated cytotoxicity, *CELL adhesion, *VIBRIO vulnificus, *HOST-parasite relationships, *LABORATORY mice, *THERAPEUTICS

Abstract

Abstract: Host–parasite contact is a prerequisite for the acute cytotoxicity of Vibrio vulnificus, which is mediated primarily by RtxA1, a repeat in toxin (RTX) toxin. We found that resveratrol (at 10 or 30μM), a natural polyphenol, protected HeLa cells from V. vulnificus cytotoxicity. To further characterize the underlying mechanism, the effect of resveratrol was investigated at the level of the host–microbe interactions. We studied the effects of resveratrol on adhesion, motility, cytotoxicity, and RtxA1 toxin expression of V. vulnificus. In addition, the effect of resveratrol on mouse mortality caused by V. vulnificus was investigated. Resveratrol inhibited V. vulnificus motility and the microbe adhesion to host cells, critical virulence traits for many bacteria. Resveratrol also down-regulated the expression of RtxA1 toxin at the transcriptional level and thereby protected the host cells from becoming rounded and damaged. In addition, resveratrol (20mg/kg) protected CD-1 mice from V. vulnificus infection. Taken together, these results suggest that resveratrol, a modulator of host–microbe interactions, has potential for development as a new paradigm drug to treat infectious diseases. [Copyright &y& Elsevier]

Published

2010

15. Identification and characterization of novel phosphate regulon genes, ecs0540– ecs0544, in Escherichia coli O157:H7.

Author

Yoshida, Yusuke, Sugiyama, Shinichiro, Oyamada, Tomoya, Yokoyama, Katsushi, and Makino, Kozo

Subjects

*PHOSPHATES, *ESCHERICHIA coli, *BIOINFORMATICS, *CHROMOSOMES, *PROMOTERS (Genetics)

Abstract

In response to environmental phosphate limitation, the transcriptional activator PhoB of Escherichia coli ( E. coli) activates transcription of the phosphate regulon ( pho regulon) genes that are involved in phosphate utilization. At least 31 of pho regulon genes have been identified and well characterized in E. coli by numerous studies using non-pathogenic K-12 derivative strains. In this study, we searched for PhoB-regulated promoters from a lacZ-fused genomic library of the E. coli O157:H7 Sakai in an attempt to find novel pho regulon genes in the strain. A promoter region located upstream of a gene cluster ( ecs0540– ecs0544) that mapped within one of the strain-specific chromosomal regions of the E. coli O157:H7 was identified. By further in vivo analysis with various subclones of the 5′-flanking region, it was suggested that the ecs0540 transcription was regulated by at least two promoters, an upstream PhoB-regulated promoter and a downstream constitutive promoter. S1 mapping and footprinting experiments revealed two transcription start sites and a sequence similar to the consensus sequence of PhoB binding, respectively. Bioinformatic analysis of the ecs0540– ecs0544 genes showed that these genes were highly homologous to the Escherichia fergusonii ( E. fergusonii) siiCA- DA operon encoding a 718 kDa giant protein (SiiEA) and its cognate type I secretion system. In addition, a highly repetitive region and motifs that are shared among RTX (repeats in toxin) toxin family were found in the amino acid sequence of these giant proteins. Our finding is the first example of a member of the pho regulon identified in the O157:H7 strain-specific chromosomal region. [ABSTRACT FROM AUTHOR]

Published

2010

16. Construction and characterization of rtxA and rtxC mutants of auxotrophic O139 Vibrio cholerae

Author

Cheong, Tan Gim, Chan, Melissa, Kurunathan, Sinniah, Ali, Syed Atif, ZiNing, Tan, Zainuddin, Zainul Fadziruddin, Lalitha, Pattabhiraman, and Ravichandran, Manickam

Subjects

*VIBRIO cholerae, *GRAM-negative bacteria, *DIARRHEA, *TOXINS, *ENTEROTOXINS, *TIGHT junctions, *VACCINES, *BACTERIAL cell walls, *BACTERIAL genetics

Abstract

Abstract: Vibrio cholerae is a Gram-negative bacterium that causes diarrheal disease. V. cholerae O1 and O139 serogroups are toxigenic and are known to cause epidemic cholera. These serogroups produce cholera toxin and other accessory toxins such as accessory cholera enterotoxin, zonula occludens toxin, and multifunctional, autoprocessing repeat in toxin (MARTX). In the present study, we incorporated mutated rtxA and rtxC genes that encode MARTX toxin into the existing aminolevulinic acid (ALA) auxotrophic vaccine candidate VCUSM2 of V. cholerae O139 serogroup. The rtxC mutant was named VCUSM9 and the rtxC/rtxA mutant was named VCUSM10. VCUSM9 and VCUSM10 were able to colonize intestinal cells well, compared with the parent vaccine strain, and produced no fluid accumulation in a rabbit ileal loop model. Cell rounding and western blotting assays indicated that mutation of the rtxC gene alone (VCUSM9 strain) did not abolish MARTX toxicity. However mutation of both the rtxA and rtxC genes (VCUSM10) completely abolished MARTX toxicity. Thus we have produced a new, less reactogenic, auxotrophic rtxC/rtxA mutated vaccine candidate against O139 V. cholerae. [Copyright &y& Elsevier]

Published

2010

17. Putative identification of an amphipathic α-helical sequence in hemolysin of Escherichia coli (HlyA) involved in transmembrane pore formation.

Author

Valeva, Angela, Siegel, Isabel, Wylenzek, Mark, Wassenaar, Trudy M., Weis, Silvia, Heinz, Natalia, Schmitt, Robert, Fischer, Christina, Reinartz, Ricarda, Bhakdi, Sucharit, and Walev, Iwan

Subjects

*ESCHERICHIA coli, *HEMOLYSIS & hemolysins, *PROTEINS, *MUTAGENESIS, *FLUORESCENCE spectroscopy

Abstract

Escherichia coli hemolysin is a pore-forming protein belonging to the RTX toxin family. Cysteine scanning mutagenesis was performed to characterize the putative pore-forming domain of the molecule. A single cysteine residue was introduced at 48 positions within the sequence spanning residues 170–400 and labeled with the polarity-sensitive dye badan. Spectrofluorimetric analyses indicated that several amino acids in this domain are inserted into the lipid bilayer during pore formation. An amphipathic α-helix spanning residues 272–298 was identified that may line the aqueous pore. The importance of this sequence was highlighted by the introduction of two prolines at positions 284 and 287. Disruption of the helix structure did not affect binding properties, but totally abolished the hemolytic activity of the molecule. [ABSTRACT FROM AUTHOR]

Published

2008

18. Evaluation of immunogenicity and protective efficacy of Actinobacillus pleuropneumoniae HB04C− mutant lacking a drug resistance marker in the pigs

Author

Bei, Weicheng, He, Qigai, Zhou, Rui, Yan, Lin, Huang, Hongliang, and Chen, Huanchun

Subjects

*PREVENTIVE medicine, *DRUG resistance, *INTRAMUSCULAR injections

Abstract

Abstract: Previously, we reported the construction and characterization of a genetically defined Actinobacillus pleuropneumoniae (A. pleuropneumoniae) apxIIC gene mutant, HB04C−, which conferred protection to mice against infection with A. pleuropneumoniae. In this study, we further evaluated HB04C− for safety and its ability to elicit protective immunity in pigs. It was demonstrated that a dose of 2×108 CFU HB04C− was safe to the pigs via intranasal or intramuscular injection. Immunization with a dose of 2×108 HB04C− by both intranasal and intramuscular routine could yield equal protective efficacy and elicited significant protection against experiment challenge with homologous or heterologous serotypes of a virulent A. pleuropneumonia. Taken together, HB04C− might serve as a promising vaccine candidate against infection with A. pleuropneumoniae. [Copyright &y& Elsevier]

Published

2007

19. Identification and characterization of complete RTX operons in Moraxella bovoculi and Moraxella ovis

Author

Angelos, John A., Ball, Louise M., and Hess, John F.

Subjects

*GENES, *GENETIC transcription, *CORNEA diseases, *CONJUNCTIVITIS

Abstract

Abstract: To determine if Moraxella bovoculi (M. bovoculi), a recently characterized coccoid Moraxella that was isolated from the eyes of calves affected with infectious bovine keratoconjunctivitis (IBK), and Moraxella ovis (M. ovis), originally isolated from sheep with conjunctivitis, possessed genes encoding RTX proteins, genomic DNA was amplified with oligonucleotide primers targeting RTX operon genes of Moraxella bovis (M. bovis). Complete classical RTX operons composed of RTXCABD genes closely linked to a putative secretion accessory protein encoding gene (tolC) were identified in M. bovoculi and M. ovis and were designated mbvCABDtolC and movCABDtolC, respectively. These genes were closely related to M. bovis mbxCABDtolC. Polyclonal rabbit antiserum against the carboxy terminus of M. bovoculi MbvA neutralized hemolytic activity of both M. bovoculi and M. ovis; this antiserum did not neutralize the hemolytic activity of M. bovis. M. bovoculi and M. ovis possess genes that encode proteins related to pathogenic factors of M. bovis. [Copyright &y& Elsevier]

Published

2007

20. Construction and immunogencity of a Δ apxIC/Δ apxIIC double mutant of Actinobacillus pleuropneumoniae serovar 1.

Author

Lin, Liwen, Bei, Weicheng, Sha, Yonggang, Liu, Jinlin, Guo, Yi, Liu, Weihong, Tu, Shuxin, He, Qigai, and Chen, Huanchun

Subjects

*BIOCHEMISTRY, *ACTINOBACILLUS, *BIOCHEMICAL toxicology, *IMMUNOLOGY, *ANTIGEN-antibody reactions

Abstract

The apxIC and apxIIC genes of the Actinobacillus pleuropneumoniae serovar 1 strain SLW01, encoding the ApxI- and ApxII-activating proteins, respectively, were deleted successively by a method involving sucrose counterselection. The resulting strain, SLW03, contained no foreign DNA and could secrete unactivated ApxIA and ApxIIA RTX toxins with complete antigenicity. Strain SLW03 was attenuated at least 1000-fold in Balb/C mice and caused no adverse effects in pigs at doses of up to 1 × 109 CFU mL−1. SLW03 was able to induce a significant immune response and provide complete protection from clinical signs upon homologous (serovar 1) and heterologous (serovar 9) challenge of A. pleuropneumoniae. Pigs vaccinated via the intranasal (i.n.) route had significantly higher serum titers and fewer pulmonary lesions than pigs vaccinated via the intramuscular route postchallenge. These results suggest that the mutant strain SLW03 could be used as a candidate live vaccine that can induce reliable cross-serovar protection following i.n. immunization. [ABSTRACT FROM AUTHOR]

Published

2007

21. Anaerobiosis, growth phase and Actinobacillus pleuropneumoniae RTX toxin production

Author

Jarma, Erika, Corradino, Gregory, and Regassa, Laura B.

Subjects

*TOXINS, *ANAEROBIOSIS, *METABOLISM, *ACTINOBACILLUS

Abstract

Actinobacillus pleuropneumoniae is the causative agent of an economically significant form of porcine pleuropneumonia. This bacterium produces four distinct RTX toxins (ApxI–ApxIV) that play a key role in its pathogenesis, but further characterization of these hemolytic toxins is needed to identify the environmental signals and genes that affect their production during infection. In this report, we examined the effect of oxygen limitation on the production of ApxI and ApxII, the two RTX toxins that are produced by all highly virulent strains in North America. Batch cultures of ApxI- and ApxII-producing strains were grown in heart infusion broth supplemented with NAD, and samples were prepared throughout the growth curve. We compared batch cultures with normal oxygen levels to those that were maintained in an oxygen-depleted state. ApxI and ApxII hemolytic activity were nearly identical under both growth conditions. The level of toxin activity was confirmed by examination of extracellular ApxI concentrations and apxII mRNA levels. In addition, toxin activity examined on blood agar plates grown aerobically or anaerobically showed no significant difference. These results have important implications for the disease state where high-density growth is likely to result in local anaerobic or microaerophilic environments. [Copyright &y& Elsevier]

Published

2004

22. Both ApxI and ApxII of Actinobacillus pleuropneumoniae serotype 1 are necessary for full virulence

Author

Boekema, Bouke K.H.L., Kamp, Elbarte M., Smits, Mari A., Smith, Hilde E., and Stockhofe-Zurwieden, Norbert

Subjects

*ACTINOBACILLUS, *LUNG diseases, *PROKARYOTES, *BRUCELLACEAE

Abstract

Most serotypes of A. pleuropneumoniae produce more than one toxin in vivo. To determine the value of the production of more than one toxin in the development of disease, we tested the pathogenicity of isogenic strains of A. pleuropneumoniae serotype 1 that are mutated in the toxin genes apxIA and/or apxIIA or in the transport genes apxIBD. Bacteria mutated in both apxIA and apxIIA, or in apxIBD, were unable to induce pathological lesions, thereby confirming the conclusion that ApxI and ApxII are essential for the pathogenesis of pleuropneumonia. Infection with isogenic strains lacking either ApxI or ApxII did not consistently lead to pleuropneumonia unlike the parent strain S4074. ApxII seemed at least as important as ApxI for the development of clinical and pathological symptoms. Only one of the four pigs inoculated with a mutant strain unable to produce ApxII developed mild pneumonia whereas two out of the three pigs inoculated with a mutant strain unable to produce ApxI developed more severe lesions. The results indicate that both ApxI and ApxII of A. pleuropneumoniae serotype 1 are necessary for full virulence. [Copyright &y& Elsevier]

Published

2004

23. Growth phase mediated regulation of the Actinobacillus pleuropneumoniae ApxI and ApxII toxins

Author

Jarma, Erika and Regassa, Laura B.

Subjects

*ACTINOBACILLUS, *PLEUROPNEUMONIA, *GENE expression, *MESSENGER RNA

Abstract

Actinobacillus pleuropneumoniae is the causative agent of porcine pleuropneumonia, a highly contagious and often fatal respiratory tract disease of pigs. The Apx toxins are primary virulence factors of this pathogen, with ApxI and ApxII being produced by all highly virulent strains in North America. Further characterization of these hemolytic toxins is needed to fully understand their role in disease and elucidate the environmental signals and genes that affect their production during infection. Many bacteria regulate genes in response to growth phase, and in this report we examined the effect of growth phase on ApxI and ApxII gene expression. Batch cultures of ApxI- and ApxII-producing strains were grown in heart infusion broth supplemented with β-NAD, and samples were prepared throughout the growth curve. Maximal gene expression occurred in late exponential or early stationary phase, as indicated by a peak in apx mRNA concentration in Northern blot analysis. The amount of accumulated Apx protein and Apx hemolytic activity confirmed this increase in gene expression. These findings suggest a novel transcriptional regulatory mechanism that enhances Apx gene expression under in vitro conditions of high cell density and/or slow growth rate. [Copyright &y& Elsevier]

Published

2004

24. Localization of linear cytotoxic and pro-apoptotic epitopes in RTX toxin ApxIII of Actinobacillus pleuropneumoniae

Author

Seah, J.N. and Kwang, J.

Subjects

*ANTINEOPLASTIC agents, *ACTINOBACILLUS, *NEUTROPHILS, *CALCIUM-binding proteins

Abstract

RTX toxin ApxIII secreted by Actinobacillus pleuropneumoniae affects porcine pulmonary alveolar macrophages and neutrophils. The distribution of ApxIII linear cytotixic and pro-apoptotic determinants was characterized by neutrophil protection assay, DNA fragmentation and caspase-3 activity using antisera produced against its N-terminus, hydrophobic domain, activation domain, calcium-binding domain and C-terminal half. Neutralization of ApxIII cytotoxicity and pro-apoptotic acitivities was found in antisera raised against its N- and C-termini whereas ApxIII activation domain-specific antiserum expressed cytotoxic-neutralizing activity. No neutralizing activities were detected in antisera against other structural domains of ApxIII suggesting that the putative linear cytotoxic and pro-apoptotic determinants of ApxIII were mapped to its terminal domains and activation domains. [Copyright &y& Elsevier]

Published

2004

25. Expression of Actinobacillus pleuropneumonia gene coding for Apx I protein in Escherichia coli

Author

Burdychova, Radka, Rychtera, Milan, Horvath, Radek, Dendis, Milos, and Bartos, Milan

Subjects

*ACTINOBACILLUS, *PROTEINS, *ESCHERICHIA coli, *IMMUNOLOGY

Abstract

This study presents cloning and expression of Actinobacillus pleuropneumoniae Apx I toxin in Escherichia coli expression system to produce fusion protein for the subsequent immunological studies. The gene coding Apx I toxin was amplified from the A. pleuropneumoniae serotype 10 DNA using polymerase chain reaction and cloned to vector under the control of strong, inducible T7 promoter. The presence of insert was confirmed by PCR screening and sequencing after the propagation of recombinant DNA in E. coli cells. The gene coding A. pleuropneumoniae Apx I toxin was extended with a segment to encode a polyhistidine tag linked to its C-terminal sequence allowing a one-step affinity purification of the complex with Ni-NTA resin. Expression of the Apx I coding sequence in E. coli resulted in the formation of insoluble inclusion bodies purified according to a standard purification protocol. The ease of this expression system, the powerful single-step purification and low costs make it possible to produce Apx I in large amounts to further study the role of Apx I in physiological processes. [Copyright &y& Elsevier]

Published

2004

26. Activation and suppression of the proinflammatory immune response by Vibrio cholerae toxins

Author

Fullner Satchell, Karla J.

Subjects

*VIBRIO cholerae, *DIARRHEA, *INFLAMMATION, *DENDRITIC cells

Abstract

Vibrio cholerae induces either non-inflammatory diarrhea or inflammatory gastroenteritis, depending on the presence of cholera toxin, a fluid secretion inducer and a modulator of host immunity. In the absence of cholera toxin, other toxins induce inflammation, resulting in gastroenteritis. Thus, multiple toxins likely affect the safety of live attenuated vaccines. [Copyright &y& Elsevier]

Published

2003

27. Asp-863 is a key residue for calcium-dependent activity of Escherichia coli RTX toxin α-haemolysin

Author

Cortajarena, Aitziber L., Goñi, Félix M., and Ostolaza, Helena

Subjects

*PHOSPHOLIPIDS, *ESCHERICHIA coli

Abstract

α-Haemolysin is a protein toxin secreted by pathogenic strains of Escherichia coli and requires sub-millimolar Ca2+ for optimum lytic activity. As a member of the so-called RTX toxin family it contains a Gly-rich, Asp-rich Ca2+-binding domain, consisting of a series of nonapeptides repeated in tandem. Asp-863 is located immediately after the last-but-one nonapeptide. A mutant in which Asp-863 has been substituted by Gly displays a requirement for Ca2+ that is 100-fold higher than the wild-type. Membrane lytic activity, as well as a conformational change revealed through an increase in intrinsic fluorescence, and the appearance of Ca2+-bound protein monomers resolvable by fast protein liquid chromatography, are all three dependent on Ca2+ concentrations in the 2–20 mM range. Most RTX toxins have an Asp or Glu residue located at a position homologous to Asp-863, thus the key role of this residue for Ca2+ requirements of α-haemolysin may be a general feature of this family of toxins. [Copyright &y& Elsevier]

Published

2003

28. Purification of secreted leukotoxin (LtxA) from Actinobacillus actinomycetemcomitans

Author

Kachlany, Scott C., Fine, Daniel H., and Figurski, David H.

Subjects

*TOXINS, *GRAM-negative bacteria

Abstract

The RTX (repeats in toxin) family of toxins is important in the pathogenesis of many Gram-negative bacteria. The oral and systemic human pathogen Actinobacillus actinomycetemcomitans produces a member of this family known as leukotoxin (LtxA). Previously, we found that LtxA is secreted into culture supernatants of A. actinomycetemcomitans and that this protein is abundant and relatively pure. Here, we report a large-scale method for the isolation and purification of LtxA from culture supernatants of A. actinomycetemcomitans strain JP2. The purification scheme involves ammonium sulfate precipitation of culture supernatants, dialysis, and ultrafiltration to concentrate LtxA to approximately 10 mg/ml. We found that LtxA remained soluble in buffer that contained at least 250 mM NaCl. Purified LtxA was >98% pure and the final preparations were active against HL-60 cells. The entire purification protocol can be completed within 2 days. The ability to readily obtain a large amount of purified leukotoxin should accelerate investigations into the structure and biology of this important virulence factor. [Copyright &y& Elsevier]

Published

2002

29. In vivo covalent cross‐linking of cellular actin by the Vibrio cholerae RTX toxin.

Author

Fullner, Karla Jean and Mekalanos, John J.

Subjects

*VIBRIO cholerae, *ACTIN, *ETIOLOGY of diseases, *EPITHELIAL cells, *TOXINS, *DEPOLYMERIZATION

Abstract

Enteric pathogens often export toxins that elicit diarrhea as a part of the etiology of disease, including toxins that affect cytoskeletal structure. Recently, we discovered that the intestinal pathogen Vibrio cholerae elicits rounding of epithelial cells that is dependent upon a gene we designated rtxA. Here we investigate the association of rtxA with the cell‐rounding effect. We find that V.cholerae exports a large toxin, RTX (repeats‐in‐toxin) toxin, to culture supernatant fluids and that this toxin is responsible for cell rounding. Furthermore, we find that cell rounding is not due to necrosis, suggesting that RTX toxin is not a typical member of the RTX family of pore‐forming toxins. Rather, RTX toxin causes depolymerization of actin stress fibers and covalent cross‐linking of cellular actin into dimers, trimers and higher multimers. This RTX toxin‐specific cross‐linking occurs in cells previously rounded with cytochalasin D, indicating that G‐actin is the toxin target. Although several models explain our observations, our simultaneous detection of actin cross‐linking and depolymerization points toward a novel mechanism of action for RTX toxin, distinguishing it from all other known toxins. [ABSTRACT FROM AUTHOR]

Published

2000

30. In vivo covalent cross-linking of cellular actin by the Vibrio cholerae RTX toxin.

Author

Fullner, Karla Jean and Mekalanos, John J.

Subjects

*ACTIN, *CYTOCHALASINS, *VIBRIO cholerae, *PATHOGENIC microorganisms, *MICROORGANISMS, *MOLECULAR biology, *BIOMOLECULES, *BIOCHEMISTRY

Abstract

Enteric pathogens often export toxins that elicit diarrhea as a part of the etiology of disease, including toxins that affect cytoskeletal structure. Recently, we discovered that the intestinal pathogen Vibrio cholerae elicits rounding of epithelial cells that is dependent upon a gene we designated rt.xA. Here we investigate the association of rtxA with the cell-rounding effect. We find that V.cholerae exports a large toxin, RTX (repeats-in-toxin) toxin, to culture supernatant fluids and that this toxin is responsible for cell rounding. Furthermore, we find that cell rounding is not due to necrosis, suggesting that RTX toxin is not a typical member of the RTX family of pore-forming toxins. Rather, RTX toxin causes depolymerization of actin stress fibers and covalent cross-linking of cellular actin into dimers, trimers and higher multimers. This RTX toxin-specific cross-linking occurs in cells previously rounded with cytochalasin D, indicating that G-actin is the toxin target. Although several models explain our observations, our simultaneous detection of actin cross-linking and depolymerization points toward a novel mechanism of action for RTX toxin, distinguishing it from all other known toxins. [ABSTRACT FROM AUTHOR]

Published

2000

31. Selective Enhancement of the Cell-Permeabilizing Activity of Adenylate Cyclase Toxin Does Not Increase Virulence of Bordetella pertussis.

Author

Holubova, Jana, Juhasz, Attila, Masin, Jiri, Stanek, Ondrej, Jurnecka, David, Osickova, Adriana, Sebo, Peter, and Osicka, Radim

Subjects

*BORDETELLA pertussis, *WHOOPING cough, *ADENYLATE cyclase, *CELL membrane formation, *TOXINS, *COMPLEMENT receptors, *LABORATORY mice

Abstract

The whooping cough agent, Bordetella pertussis, secretes an adenylate cyclase toxin–hemolysin (CyaA, ACT, or AC-Hly) that catalyzes the conversion of intracellular ATP to cAMP and through its signaling annihilates the bactericidal activities of host sentinel phagocytes. In parallel, CyaA permeabilizes host cells by the formation of cation-selective membrane pores that account for the hemolytic activity of CyaA. The pore-forming activity contributes to the overall cytotoxic effect of CyaA in vitro, and it has previously been proposed to synergize with the cAMP-elevating activity in conferring full virulence on B. pertussis in the mouse model of pneumonic infection. CyaA primarily targets myeloid phagocytes through binding of their complement receptor 3 (CR3, integrin αMβ2, or CD11b/CD18). However, with a reduced efficacy, the toxin can promiscuously penetrate and permeabilize the cell membrane of a variety of non-myeloid cells that lack CR3 on the cell surface, including airway epithelial cells or erythrocytes, and detectably intoxicates them by cAMP. Here, we used CyaA variants with strongly and selectively enhanced or reduced pore-forming activity that, at the same time, exhibited a full capacity to elevate cAMP concentrations in both CR3-expressing and CR3-non-expressing target cells. Using B. pertussis mutants secreting such CyaA variants, we show that a selective enhancement of the cell-permeabilizing activity of CyaA does not increase the overall virulence and lethality of pneumonic B. pertussis infection of mice any further. In turn, a reduction of the cell-permeabilizing activity of CyaA did not reduce B. pertussis virulence any importantly. These results suggest that the phagocyte-paralyzing cAMP-elevating capacity of CyaA prevails over the cell-permeabilizing activity of CyaA that appears to play an auxiliary role in the biological activity of the CyaA toxin in the course of B. pertussis infections in vivo. [ABSTRACT FROM AUTHOR]

Published

2021

32. Binding of Kingella kingae RtxA Toxin Depends on Cell Surface Oligosaccharides, but Not on β 2 Integrins.

Author

Rahman, Waheed Ur, Osickova, Adriana, Klimova, Nela, Lora, Jinery, Balashova, Nataliya, and Osicka, Radim

Subjects

*CELL membranes, *OLIGOSACCHARIDES, *TOXINS, *CHEMICAL inhibitors, *CYTOTOXINS, *INTEGRINS

Abstract

The Gram-negative coccobacillus Kingella kingae is increasingly recognized as an important invasive pediatric pathogen that causes mostly bacteremia and skeletal system infections. K. kingae secretes an RtxA toxin that belongs to a broad family of the RTX (Repeats in ToXin) cytotoxins produced by bacterial pathogens. Recently, we demonstrated that membrane cholesterol facilitates interaction of RtxA with target cells, but other cell surface structures potentially involved in toxin binding to cells remain unknown. We show that deglycosylation of cell surface structures by glycosidase treatment, or inhibition of protein N- and O-glycosylation by chemical inhibitors substantially reduces RtxA binding to target cells. Consequently, the deglycosylated cells were more resistant to cytotoxic activity of RtxA. Moreover, experiments on cells expressing or lacking cell surface integrins of the β2 family revealed that, unlike some other cytotoxins of the RTX family, K. kingae RtxA does not bind target cells via the β2 integrins. Our results, hence, show that RtxA binds cell surface oligosaccharides present on all mammalian cells but not the leukocyte-restricted β2 integrins. This explains the previously observed interaction of the toxin with a broad range of cell types of various mammalian species and reveals that RtxA belongs to the group of broadly cytolytic RTX hemolysins. [ABSTRACT FROM AUTHOR]

Published

2020

33. Structure–Function Relationships of the Repeat Domains of RTX Toxins.

Author

Baumann, Ulrich

Subjects

*TOXINS, *TANDEM repeats, *PROTEIN folding, *BACTERIAL toxins, *CALCIUM ions, *MOLECULAR chaperones, *SECRETION

Abstract

RTX proteins are a large family of polypeptides of mainly Gram-negative origin that are secreted into the extracellular medium by a type I secretion system featuring a non-cleavable C-terminal secretion signal, which is preceded by a variable number of nine-residue tandem repeats. The three-dimensional structure forms a parallel β-roll, where β-strands of two parallel sheets are connected by calcium-binding linkers in such a way that a right-handed spiral is built. The Ca2+ ions are an integral part of the structure, which cannot form without them. The structural determinants of this unique architecture will be reviewed with its conservations and variations together with the implication for secretion and folding of these proteins. The general purpose of the RTX domains appears to act as an internal chaperone that keeps the polypeptide unfolded in the calcium-deprived cytosol and triggers folding in the calcium-rich extracellular medium. A rather recent addition to the structural biology of the RTX toxin is a variant occurring in a large RTX adhesin, where this non-canonical β-roll binds to ice and diatoms. [ABSTRACT FROM AUTHOR]

Published

2019

34. Aggregatibacter actinomycetemcomitans leukotoxin causes activation of lymphocyte function‐associated antigen 1.

Author

Nygren, Patrik, Balashova, Nataliya, Brown, Angela C., Kieba, Irene, Dhingra, Anuradha, Boesze‐Battaglia, Kathleen, and Lally, Edward T.

Subjects

*ACTINOBACILLUS actinomycetemcomitans, *LEUKOTOXINS, *LYMPHOCYTE transformation, *ANTIGENS, *SURFACE plasmon resonance

Abstract

Repeats‐in‐toxin leukotoxin (LtxA) produced by the oral bacterium Aggregatibacter actinomycetemcomitans kills human leukocytes in a lymphocyte function‐associated antigen 1 (LFA‐1, integrin αL/β2)‐dependent manner, although the mechanism for this interaction has not been identified. The LtxA internalisation by LFA‐1‐expressing cells was explored with florescence resonance energy transfer (FRET) microscopy using a cell line that expresses LFA‐1 with a cyan fluorescent protein‐tagged cytosolic αL domain and a yellow fluorescent protein‐tagged β2 domain. Phorbol 12‐myristate 13‐acetate activation of LFA‐1 caused transient cytosolic domain separation. However, addition of LtxA resulted in an increase in FRET, indicating that LtxA brings the cytosolic domains closer together, compared with the inactive state. Unlike activation, this effect was not transient, lasting more than 30 min. Equilibrium constants of LtxA binding to the cytoplasmic domains of both αL and β2 were determined using surface plasmon resonance. LtxA has a strong affinity for the cytosolic domains of both the αL and β2 subunits (Kd = 15 and 4.2 nM, respectively) and a significantly lower affinity for the cytoplasmic domains of other integrin αM, αX, and β3 subunits (Kd = 400, 180, and 230 nM, respectively), used as controls. Peptide fragments of αL and β2 show that LtxA binds membrane‐proximal domain of αL and intermediate domain of β2. [ABSTRACT FROM AUTHOR]

Published

2019

35. Aggregatibacter actinomycetemcomitans Leukotoxin Is Delivered to Host Cells in an LFA-1-Indepdendent Manner When Associated with Outer Membrane Vesicles.

Author

Nice, Justin B., Koufos, Evan, Krueger, Eric, Brown, Angela C., Balashova, Nataliya V., Lally, Edward T., and Kachlany, Scott C.

Subjects

*ACTINOBACILLUS actinomycetemcomitans, *VESICLES (Cytology), *LEUKOTOXINS, *CHOLESTEROL, *LYMPHOCYTE function-associated antigen-1

Abstract

The Gram-negative bacterium, Aggregatibacter actinomycetemcomitans, has been associated with localized aggressive periodontitis (LAP). In particular, highly leukotoxic strains of A. actinomycetemcomitans have been more closely associated with this disease, suggesting that LtxA is a key virulence factor for A. actinomycetemcomitans. LtxA is secreted across both the inner and outer membranes via the Type I secretion system, but has also been found to be enriched within outer membrane vesicles (OMVs), derived from the bacterial outer membrane. We have characterized the association of LtxA with OMVs produced by the highly leukotoxic strain, JP2, and investigated the interaction of these OMVs with host cells to understand how LtxA is delivered to host cells in this OMV-associated form. Our results demonstrated that a significant fraction of the secreted LtxA exists in an OMV-associated form. Furthermore, we have discovered that in this OMV-associated form, the toxin is trafficked to host cells by a cholesterol- and receptor-independent mechanism in contrast to the mechanism by which free LtxA is delivered. Because OMV-associated toxin is trafficked to host cells in an entirely different manner than free toxin, this study highlights the importance of studying both free and OMV-associated forms of LtxA to understand A. actinomycetemcomitans virulence. [ABSTRACT FROM AUTHOR]

Published

2018