RNA Colony Blot Hybridization Method for Enumeration of Culturable Vibrio cholerae and Vibrio mimicus Bacteria

A species-specific RNA colony blot hybridization protocol was developed for enumeration of culturable Vibrio cholerae and Vibrio mimicus bacteria in environmental water samples. Bacterial colonies on selective or nonselective plates were lysed by sodium dodecyl sulfate, and the lysates were immobilized on nylon membranes. A fluorescently labeled oligonucleotide probe targeting a phylogenetic signature sequence of 16S rRNA of V. cholerae and V. mimicus was hybridized to rRNA molecules immobilized on the nylon colony lift blots. The protocol produced strong positive signals for all colonies of the 15 diverse V. cholerae-V. mimicus strains tested, indicating 100% sensitivity of the probe for the targeted species. For visible colonies of 10 nontarget species, the specificity of the probe was calculated to be 90% because of a weak positive signal produced by Grimontia (Vibrio) hollisae, a marine bacterium. When both the sensitivity and specificity of the assay were evaluated using lake water samples amended with a bioluminescent V. cholerae strain, no false-negative or false-positive results were found, indicating 100% sensitivity and specificity for culturable bacterial populations in freshwater samples when G. hollisae was not present. When the protocol was applied to laboratory microcosms containing V. cholerae attached to live copepods, copepods were found to carry approximately 10,000 to 50,000 CFU of V. cholerae per copepod. The protocol was also used to analyze pond water samples collected in an area of cholera endemicity in Bangladesh over a 9-month period. Water samples collected from six ponds demonstrated a peak in abundance of total culturable V. cholerae bacteria 1 to 2 months prior to observed increases in pathogenic V. cholerae and in clinical cases recorded by the area health clinic. The method provides a highly specific and sensitive tool for monitoring the dynamics of V. cholerae in the environment. The RNA blot hybridization protocol can also be applied to detection of other gram-negative bacteria for taxon-specific enumeration.Vibrio cholerae is autochthonous to the aquatic environment, but some strains produce enterotoxins and are capable of causing epidemics of the human disease cholera. Strains of V. cholerae are classified by their O antigen, with over 210 serogroups recognized to date. Seven cholera pandemics have occurred since 1832: while microbiologic data on the earlier pandemics are not available, the last two are known to have been caused by strains within serogroup O1, with the major pathogenic factor being production of cholera toxin. The genes encoding cholera toxin and other pathogenic factors have been shown to reside in a mobile genetic element of phage origin, designated CTXΦ (20).Standard microbiologic methods for isolation of V. cholerae present in natural waters rely primarily on a method originally developed for clinical diagnosis, namely, enrichment in alkaline peptone water, followed by subculture on selective media and confirmation using selected biochemical and immunological tests (7). The alkaline nature of the enrichment broth allows differential multiplication of Vibrio species but renders this method inappropriate for enumeration. PCR methods and oligonucleotide hybridization have been used to detect and enumerate toxigenic V. cholerae bacteria (3, 11, 12, 14, 15, 21). These methods typically rely on amplification of or hybridization to pathogenic markers, such as O1/O139 wbe, tcpA, and ctxA DNA sequences.However, occasional localized outbreaks of cholera have been caused by non-O1, non-O139 V. cholerae, which may be toxigenic or nontoxigenic. Conversely, many environmental V. cholerae O1 strains isolated from areas of endemicity do not harbor ctx genes (9). It has also been shown that CTXΦ is capable of lysogenic conversion of strains that are CTXΦ negative (20). Additionally, the cholera toxin (CTX) prophage has also been detected in clinical strains of V. mimicus, and V. mimicus has been proposed as a natural reservoir for CTXΦ (2). Furthermore, ecological studies of V. cholerae are often hampered by the fact that toxigenic strains represent only a small percentage of the total V. cholerae population in the environment, especially in areas where cholera is not endemic. These facts underline the need for a method of detection of the total number of V. cholerae bacteria present in environmental samples.The many copies of 16S rRNA molecules in each V. cholerae cell offer appropriate targets for species-specific enumeration. In this study, the probe Vchomim1276, previously described by Heidelberg et al. (4-6), was employed in an RNA colony blot hybridization protocol. The specificity and sensitivity of the probe were tested using type strains and environmental and clinical isolates. The method was evaluated using laboratory microcosms to which cells of V. cholerae were added, and the protocol was used to enumerate V. cholerae bacteria in samples collected from ponds in a region of cholera endemicity in Bangladesh.