Specific lactic acid bacterial strains remove toxins from liquid media by p
hysical binding. The stability of the aflatoxin B-1 complexes formed with 1
2 bacterial strains in both viable and nonviable (heat- or acid-treated) fo
rms was assessed by repetitive aqueous extraction. By the fifth extraction,
up to 71% of the total aflatoxin B-1 remained bound. Nonviable bacteria re
tained the highest amount of aflatoxin B-1. Lactobacillus rhamnosus strain
GG (ATCC 53103) and L. rhamnosus strain LC-705 (DSM 7061) removed aflatoxin
B-1 from solution most efficiently and were selected for further study. Th
e accessibility of bound affatoxin B-1 to an antibody in an indirect compet
itive inhibition enzyme-linked immunosorbent assay suggests that surface co
mponents of these bacteria are involved in binding. Further evidence is the
recovery of around 90% of the bound affatoxin from the bacteria by solvent
extraction. Autoclaving and sonication did not release any detectable afla
toxin B-1. Variation in temperature (4 to 37 degreesC) and pH (2 to 10) did
not have any significant effect on the amount of affatoxin B-1 released, B
inding of aflatoxin B-1 appears to be predominantly extracellular for viabl
e and heat-treated bacteria. Acid treatment may permit intracellular bindin
g. In all cases, binding is of a reversible nature, but the stability of th
e complexes formed depends on strain, treatment, and environmental conditio
ns.