Comparison of assay of coliform enterotoxins by conventional techniques versus in vivo intestinal perfusion.

Thirty-six strains of coliform bacteria were tested for enterotoxigenicity both by conventional assays, including the Y-1 adrenal and Chinese hamster ovary cell assays for heat-labile toxin and the suckling mouse assay for heat-stable toxin, and by determining the ability of graded concentrations of ultrafiltrate high- or low-molecular-weight toxin preparations to induce water secretion during in vivo perfusion in the rat jejunum. The ultrafiltrates of all 18 strains isolated from persons with infectious diarrheal disease, including seven of Escherichia coli, seven of Klebsiella pneumoniae, and four of Enterobacter cloacae, contained one (nine strains) or two (nine strains) potent toxin fractions (resembling either heat-labile or heat-stable toxin in terms of apparent molecular weight and heat lability characteristics) that induced water secretion at perfusion concentrations of 10 ng/ml or less. Unconcentrated broth filtrates of five of the E. coli strains and two of Klebsiella reacted positively in one or more of the conventional assay systems. Concentrated ultrafiltrates from two strains that were negative in the in vitro assays for heat-labile toxin were tested and also proved to be inactive in these test systems. None of 18 strains isolated from control sources produced, in the ultrafiltrates, enterotoxins capable of inducing water secretion at low concentrations, and none reacted positively in the conventional assays. These results indicate that some strains of coliform bacteria elaborate potent toxin materials that are capable of inducing water secretion and can be detected by perfusion of concentrated ultrafiltrates but not by conventional assay systems for enterotoxigenicity. Whether this represents quantitative or qualitative differences between the toxin materials that stimulate these different test systems remains to be established.