Benedict J. Campbell scite author profile

The effect of atmospheric oxygen on the viability of 13 strains of anaerobic bacteria, two strains of facultative bacteria, and one aerobic organism was examined. There were great variations in oxygen tolerance among the bacteria. All facultative bacteria survived more than 72 h of exposure to atmospheric oxygen. The survival time for anaerobes ranged from less than 45 min for Peptostreptococcus anaerobius to more than 72 h for two Clostridium perfringens strains. An effort was made to relate the degree of oxygen tolerance to the activities of superoxide dismutase, catalase, and peroxidases in cell-free extracts of the bacteria. All facultative bacteria and a number of anaerobic bacteria possessed superoxide dismutase. There was a correlation between superoxide dismutase activity and oxygen tolerance, but there were notable exceptions. Polyacrylamide gel electropherograms stained for superoxide dismutase indicated that many of the anaerobic bacteria contained at least two electrophoretically distinct enzymes with superoxide dismutase activity. All facultative bacteria contained peroxidase, whereas none of the anaerobic bacteria possessed measurable amounts of this enzyme. Catalase activity was variable among the bacteria and showed no relationship to oxygen tolerance. The ability of the bacteria to reduce oxygen was also examined and related to enzyme content and oxygen tolerance. In general, organisms that survived for relatively long periods of time in the presence of oxygen but demonstrated little superoxide dismutase activity reduced little oxygen. The effects of medium composition and conditions of growth were examined for their influence on the level of the three enzymes. Bacteria grown on the surface of an enriched blood agar medium generally had more enzyme activity than bacteria grown in a liquid medium. The data indicate that superoxide dismutase activity and oxygen reduction rates are important determinants related to the tolerance of anaerobic bacteria to oxygen.

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Red blood cell lysis induced by the venom of the brown recluse spider

Forrester

Barrett

Campbell

1978

Archives of Biochemistry and Biophysics

134

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Aggregation of platelets by Fusobacterium necrophorum

Forrester¹,

Campbell²,

Berg³

et al. 1985

J Clin Microbiol

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Broth cultures and washed cells of 13 of 24 bovine isolates of Fusobacterium necrophorum aggregated human platelets in platelet-rich plasma. The cell-free culture fluid was inactive. Bacteria stored at 4°C in saline remained active for at least 3 months, but they did not release activity into the storage solution. Aggregation typically began within 1 min after the addition of 103 bacteria to 103 platelets and was complete within 5.5 min. Assays for cytosolic lactic dehydrogenase revealed that platelet lysis did not occur. The release of ['4C]serotonin from platelets preincubated with this amine accompanied aggregation, indicating that this was a typical aggregation-degranulation reaction. Platelet aggregation was inhibited by EDTA (88% at 2.0 mM), aspirin (75% inhibition at 1.0 mM), and quinacrine (80% inhibition at 0.25 mM). Thus the reaction was an ion-dependent, cyclooxygenase-sensitive event. Gel-filtered platelets were less sensitive to aggregation than were platelets in plasma, but this sensitivity was fully restored by the addition of plasma and partially restored with fibrinogen. Biotyping of the cultures revealed that none of the avirulent, B-type strains of F. necrophorum could aggregate platelets, whereas 13 of 16 virulent A type strains were positive. These results suggest that platelet aggregation by F. necrophorum is related to the virulence of this organism.

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Hyaluronidase and esterase activities of the venom of the poisonous brown recluse spider

Wright

Elgert

Campbell

et al. 1973

Archives of Biochemistry and Biophysics

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