Vibrio choler ae serogroup O1 can be detected in the environment in a
viable but nonculturable form, whereas V. cholerae non-Ol cells can be
readily cultured during interepidemic periods in geographical regions
where cholera is endemic. In the present study, pure cultures of V. c
holerae non-Ol cells contained O1 cells when examined by immune-fluore
scence microscopy. Laboratory microcosms were used to examine the outg
rowth of the O1 cells in cultures of non-Ol V. choler ae. One O1 cell
per 10(6) non-O1 cells could be detected by direct fluorescent-monoclo
nal antibody staining but only after incubation of the non-O1 culture
for 48 h. Individual O1 cells were not detected in cultures incubated
less than 48 h. Hybridization study, using a polymerase chain reaction
(PCR) amplified fragment of the O-antigen of V. cholerae O1 as a prob
e, revealed the existence of a homologous gene in a microcosm sample o
f V. cholerae non-O1 containing serogroup-converted cells. The mechani
sm by which O1 cells can occur in cultures of non-O1 V. cholerae most
likely resulted from spontaneous mutation of gene(s) encoding the O-so
matic properties and (or) chemical, physical, or biological changes in
the environment inducing expression or repression of the controlling
gene(s). These findings have important implications for the epidemiolo
gy of cholera and the environmental source(s) of toxin producing V. ch
olerae O1.