Hugo P. Veit

Molecular investigation of the role of ApxI and ApxII in the virulence of Actinobacillus pleuropneumoniae serotype 5

The extracellular hemolytic toxins (ApxI and ApxII) of Actinobacillus pleuropneumoniae are thought to be important factors in this microorganisms virulence and the pathogenesis of swine pleuropneumonia. Using the polymerase chain reaction, the apxI locus of a non-hemolytic, avirulent mutant of A. pleuropneumoniae serotype 5 (mIT4-H) generated by chemical mutagenesis (Inzana T. J., Todd J., Veit H. P. Microb Pathog 1991; 10: 281-96) was found to contain deletions that affected major parts of the entire apxICABD operon, thus inactivating each gene in the operon. The apxII locus was not affected. Monoclonal antibodies to ApxI and ApxII were used to confirm that ApxI was not synthesized, and that ApxII was synthesized but not secreted from the cell. The apxICABD genes and apxIBD genes were cloned into a broad host range vector to obtain plasmids pJFF800 and pJFF801, respectively. Each recombinant plasmid was electroporated into strain mIT4-H to obtain strain mIT4-H/pJFF800 and strain mIT4-H/pJFF801, respectively. Strain mIT4-H/pJFF800 exported ApxI and ApxII, and produced hemolytic activity comparable to or exceeding that of wild type strain J45. Strain mIT4-H/pJFF801 exported only ApxII and produced weak hemolytic activity. Strain mIT4-H/pJFF800 was virulent in mice, and had an LD50 of about 2 x 10(6) colony forming units. In contrast, mIT4-H/pJFF801 and mIT4-H were essentially avirulent in mice, and LD50s for these strains could not be calculated. Strain mIT4-H/pJFF800 was virulent in pigs and caused lethal pleuropneumonia, whereas parent strain mIT4-H was avirulent. Strain mIT4-H/pJFF801 was also able to induce pleuropneumonia in pigs, although a higher dose was required to induce lesions similar to those caused by mIT4-H/pJFF800. Thus, A. pleuropneumoniae strains that produce ApxI and ApxII require ApxI for full virulence and toxic activity in pigs. However, other factors including ApxII contribute to the virulence of A. pleuropneumoniae in pigs.

Characterization of a non-hemolytic mutant of Actinobacillus pleuropneumoniae serotype 5 : role of the 110 kilodalton hemolysin in virulence and immunoprotection

To determine the role of hemolysin(s) in virulence and immunoprotection, non-hemolytic mutants of Actinobacillus pleuropneumoniae serotype 5, strain J45, were isolated following chemical mutagenesis. One mutant was selected for extensive characterization. Differences in capsule content, or in lipopolysaccharide or membrane protein electrophoretic profiles of the parent and mutant were not detected. A predominant, calcium-inducible protein of 110 kDa was present in culture supernatant of the parent, but absent from the mutant. Two-dimensional (2-D) gel electrophoresis confirmed that the 110 kDa protein was absent in culture supernatant of the mutant, but few, if any, minor differences could be detected in whole-cell proteins between the parent and mutant. The mutant totally lacked extracellular hemolytic and cytotoxic activity. Lysates of whole cells of the mutant contained weak hemolytic activity, and the 110 kDa protein could be detected by immunoblotting. Neutralization titers were negative in pigs immunized with the mutant or purified, denatured hemolysin, although enzyme-immunoassay titers were detected. Four additional independently isolated non-hemolytic mutants were avirulent in pigs and mice at doses greater than 10 times the lethal dose of the parent. Neither pigs nor mice were protected against lethal infection following immunization with the non-hemolytic mutant. We conclude that the 110 kDa hemolysin plays an important role in bacterial virulence and the pathogenesis of pleuropneumonia, and that sufficiently high levels of neutralizing antibodies to the 110 kDa hemolysin may be required for protection of pigs against disease.

Association of Actinobacillus pleuropneumoniae Capsular Polysaccharide with Virulence in Pigs

ABSTRACT The capsular polysaccharide (CP) of Actinobacillus pleuropneumoniae is required for virulence of the bacteria in swine. However, a molecular investigation of whether the type or quantity of CP affects A. pleuropneumoniae virulence has not been reported. To initiate this investigation, a DNA region downstream of conserved genes required for CP export in A. pleuropneumoniae serotype 1 was cloned and sequenced. Three open reading frames, designated cps1A, cps1B, and cps1C, were identified that had amino acid homology to bacterial carbohydrate biosynthesis genes. A kanamycin resistance cassette (Kanr) was inserted into a 750-bp deletion spanning cps1AB or into a 512-bp deletion in cps1B only, and the constructs were cloned in a suicide vector. The Kanr gene was then transferred into the chromosome of strain 4074 by homologous recombination to produce strain 4074Δcps1N and strain 4074Δcps1B, respectively. Strain 4074Δcps1N produced no detectable CP, but strain 4074Δcps1B made 15% of the serotype 1 CP made by the parent strain, 4074, as determined by enzyme-linked immunosorbent assay and precipitation of free CP. The cps1ABC genes of strain 4074 and the cps5ABC and cps5ABCDE genes of serotype 5a strain J45 were cloned into the shuttle vector pLS88 and electroporated into 4074Δcps1N to produce 4074Δcps1N(pABcps101), 4074Δcps1N(pJMLcps53), and 4074Δcps1N(pABcps55), respectively. Strain 4074Δcps1N(pABcps101) produced about 33% of the serotype 1 CP produced by strain 4074. Strains 4074Δcps1N(pJMLcps53) and 4074Δcps1N(pABcps55) produced serotype 5a CP in similar quantity or in fourfold excess, respectively, to that produced by strain 4074. With intratracheal challenge in pigs at similar dosages, the order of virulence of strains producing serotype 1 CP (assessed by mortality, lung consolidation, hemorrhage, and fibrinous pleuritis) was the following: strain 4074 > strain 4074Δcps1N(pABcps101) ≥ strain 4074Δcps1N > strain 4074Δcps1B. Strain 4074Δcps1N(pJMLcps53) was less virulent than strain 4074Δcps1N(pABcps55). However, both strains produced serotype 5a CP in similar or greater quantities than was observed for production of serotype 1 CP by the parent strain, 4074, but were less virulent than the parent strain. Therefore, the amount of serotype 1 or 5a CP produced by isogenic strains of A. pleuropneumoniae correlated with the virulence of the bacteria in pigs. However, virulence was also influenced by the type of CP produced or by its mechanism of expression.

The Use of Polymerase Chain Reaction to Identify Pasteurella granulomatis from Cattle

A bacterium first described as Pastewella haemolytica-like was isolated from subcutaneous granulomas in cattle from southern Brazil, and was named Pasteurella granulomatis (Pg).’.* This organism (Pg) is associated with a disease called “lechiguana,” also known as “bovine focal proliferative fibrogranulomatous panniculitis.”3.4 Typically, there are numerous microabscesses within proliferating subcutaneous connective tissue, with eosinophilic lymphangitis, and less-frequent regional lymphadenit k 4 Pg has been isolated from 14 of 18 spontaneous bovine lechiguana cases; however, experimental reproduction of the disease has not been fully accomplished! Untreated field cases often result in death 3 to 8 months after subcutaneous swelling is noted.4 It is suspected that the human warble fly (Dermatobia hominis) participates in transmission of Pg.4 The present study was initiated to use polymerase chain reaction (PCR) amplification in order to recognize Pg DNA from cultures and possibly from bacteria within bovine or insect tissue. Such identification of Pg would have epidemiological uses and enable detection of Pg in clinical materials where cultural examination fails. Successful use of the PCR procedure also was expected to show the relatedness of Pg strains to each other and to other Pasteurella and Actinobacillus spp.