D K MacDonald scite author profile

We examined the activities of Clostridium difficile toxin preparations given intragastrically to hamsters, mice, and rats. The culture filtrate from a highly toxigenic strain of C. difficile caused hemorrhage and accumulation of fluid in the small intestine and cecum, diarrhea, and death in hamsters and mice. In rats, the culture filtrate caused only a small amount of fluid accumulation and slight hemorrhage along the small intestine. When toxin A was removed from the culture filtrate, the filtrate lost its activity. Preparations of homogeneous toxin A caused a response similar to that observed after the administration of culture filtrate. Hamsters were more sensitive to toxin A than mice or rats were. When hamsters were given multiple low doses of toxin A 1 week apart at a concentration which singly caused no response, they became ill and died, indicating that the toxin may have long-term effects. High amounts of toxin B did not cause any significant response when given intragastrically, unless initially mixed with low amounts of toxin A or given to hamsters with bruised ceca. These results suggest that toxins A and B act synergistically and that the action of toxin B may occur via the tissue damage caused by toxin A.

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Stimulation of mutagen production in human feces by bile and bile acids

Tassell

MacDonald

Wilkins

1982

Mutation Research Letters

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Production of a fecal mutagen by Bacteroides spp

Tassel¹,

MacDonald²,

Wilkins³

1982

Infect Immun

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Forty species of anaerobes were screened for the ability to produce an etherextractable mutagen which is present in the feces of 15 to 20% of individuals in populations at high risk for colon cancer. This mutagen can be produced in vitro by incubating the feces of these individuals anaerobically or by supplementing anaerobic broths with methanol extracts of the feces and incubating them with a dilute fecal inoculum. Of the anaerobes screened, strains of five species of Bacteroides (B. thetaiotaomicron, B. fragilis, B. ovatus, B. uniformis, and Bacteroides group 3452A) were capable of producing fiveto eightfold increases in the concentration of mutagen. For in vitro production in broth, all producers required bile and the methanol extract for feces from a person who excretes the mutagen. Mutagen production appeared to be constitutive and occurred during the stationary phase of growth. Cell-free extracts were active and produced mutagen considerably faster than did whole cells. Our observations indicate that the excretion of this mutagen by certain people is dependent on the presence of some precursor of unknown origin. The mutagen-producing species of bacteria are among the most common of the intestinal microflora and were present in mutagen excreters and nonexcreters as well.

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D K MacDonald

Effects of Clostridium difficile toxins given intragastrically to animals

Stimulation of mutagen production in human feces by bile and bile acids

Production of a fecal mutagen by Bacteroides spp

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