Virulence studies on chromosomal α‐toxin and Θ‐toxin mutants constructed by allelic exchange provide genetic evidence for the essential role of α‐toxin in Clostridium perfringens‐mediated gas gangrene

Virulence studies on chromosomal α‐toxin and Θ‐toxin mutants constructed by allelic exchange provide genetic evidence for the essential role of α‐toxin in Clostridium perfringens‐mediated gas gangrene

Summary The pathogenesis of clostridial myonecrosis, or gas gangrene, involves the growth of the anaerobic bacterium Clostridium perfringens in the infected tissues and the elaboration of numerous extracellular toxins and enzymes. The precise role of each of these toxins in tissue invasion and necro...

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Veröffentlicht in:Molecular microbiology 1995-01, Vol.15 (2), p.191-202
Hauptverfasser: Awad, Miilena M., Bryant, Amy E., Stevens, Dennis L., Rood, Julian I.
Format: Artikel
Sprache:eng
Schlagworte:
Alleles
Animals
Bacterial Toxins - genetics
Bacterial Toxins - metabolism
Clostridium perfringens
Clostridium perfringens - genetics
Clostridium perfringens - pathogenicity
Gas Gangrene - microbiology
Gas Gangrene - pathology
Hemolysin Proteins - genetics
Hemolysin Proteins - metabolism
Mice
Mutagenesis, Insertional
Necrosis
Type C Phospholipases - genetics
Type C Phospholipases - physiology
Virulence - genetics
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container_title Molecular microbiology
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creator Awad, Miilena M.
Bryant, Amy E.
Stevens, Dennis L.
Rood, Julian I.
description Summary The pathogenesis of clostridial myonecrosis, or gas gangrene, involves the growth of the anaerobic bacterium Clostridium perfringens in the infected tissues and the elaboration of numerous extracellular toxins and enzymes. The precise role of each of these toxins in tissue invasion and necrosis has not been determined. To enable genetic approaches to be used to study C. perfringens pathogenesis we developed an allelic exchange method which involved the transformation of C. perfringens cells with a suicide plasmid carrying a gene insertionally inactivated with an erythromycin‐resistance determinant. The frequency with which double reciprocal crossover events were observed was increased to a workable level by increasing the amount of homologous DNA located on either side of the inactivated gene. Allelic exchange was used to isolate mutations in the‘chromosomal pfoA gene, which encodes an oxygen‐labile haemolysin known as Θ‐toxin or perfringolysin O. and in the chromosomal pic gene, which encodes the α‐toxin or phospholipase C. The resultant mutants failed to produce detectable Θ‐toxin or α‐toxin activity, respectively, and could be complemented by recombinant plasmids that carried the respective wild‐type genes. The resultant strains were virulence tested in a mouse myonecrosis model. The results showed that the pic mutants had demonstrably reduced virulence and therefore provided definitive genetic evidence for the essential role of α‐toxin in gas gangrene or clostridial myonecrosis.
doi_str_mv 10.1111/j.1365-2958.1995.tb02234.x
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The precise role of each of these toxins in tissue invasion and necrosis has not been determined. To enable genetic approaches to be used to study C. perfringens pathogenesis we developed an allelic exchange method which involved the transformation of C. perfringens cells with a suicide plasmid carrying a gene insertionally inactivated with an erythromycin‐resistance determinant. The frequency with which double reciprocal crossover events were observed was increased to a workable level by increasing the amount of homologous DNA located on either side of the inactivated gene. Allelic exchange was used to isolate mutations in the‘chromosomal pfoA gene, which encodes an oxygen‐labile haemolysin known as Θ‐toxin or perfringolysin O. and in the chromosomal pic gene, which encodes the α‐toxin or phospholipase C. The resultant mutants failed to produce detectable Θ‐toxin or α‐toxin activity, respectively, and could be complemented by recombinant plasmids that carried the respective wild‐type genes. The resultant strains were virulence tested in a mouse myonecrosis model. 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The precise role of each of these toxins in tissue invasion and necrosis has not been determined. To enable genetic approaches to be used to study C. perfringens pathogenesis we developed an allelic exchange method which involved the transformation of C. perfringens cells with a suicide plasmid carrying a gene insertionally inactivated with an erythromycin‐resistance determinant. The frequency with which double reciprocal crossover events were observed was increased to a workable level by increasing the amount of homologous DNA located on either side of the inactivated gene. Allelic exchange was used to isolate mutations in the‘chromosomal pfoA gene, which encodes an oxygen‐labile haemolysin known as Θ‐toxin or perfringolysin O. and in the chromosomal pic gene, which encodes the α‐toxin or phospholipase C. The resultant mutants failed to produce detectable Θ‐toxin or α‐toxin activity, respectively, and could be complemented by recombinant plasmids that carried the respective wild‐type genes. The resultant strains were virulence tested in a mouse myonecrosis model. The results showed that the pic mutants had demonstrably reduced virulence and therefore provided definitive genetic evidence for the essential role of α‐toxin in gas gangrene or clostridial myonecrosis.</abstract><cop>Oxford, UK</cop><pub>Blackwell Publishing Ltd</pub><pmid>7746141</pmid><doi>10.1111/j.1365-2958.1995.tb02234.x</doi><tpages>12</tpages></addata></record>
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subjects Alleles
Animals
Bacterial Toxins - genetics
Bacterial Toxins - metabolism
Clostridium perfringens
Clostridium perfringens - genetics
Clostridium perfringens - pathogenicity
Gas Gangrene - microbiology
Gas Gangrene - pathology
Hemolysin Proteins - genetics
Hemolysin Proteins - metabolism
Mice
Mutagenesis, Insertional
Necrosis
Type C Phospholipases - genetics
Type C Phospholipases - physiology
Virulence - genetics
title Virulence studies on chromosomal α‐toxin and Θ‐toxin mutants constructed by allelic exchange provide genetic evidence for the essential role of α‐toxin in Clostridium perfringens‐mediated gas gangrene
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