Enterotoxigenic Bacteroides fragilis (ETBF) strains are associated with diarrheal disease in children. These strains produce a zinc metalloprotease enterotoxin, or fragilysin, that can be detected by a cytotoxicity assay with HT-29 cells. Recently, three different isoforms or variants of the enterotoxin gene, designated bft-1, bft-2, and bft-3, have been identified and sequenced. We used restriction fragment length polymorphism analysis of the PCR-amplified enterotoxin gene to detect the isoforms bft-1 and bft-2 or bft-3 borne by ETBF. By sequencing the portion of the bft gene corresponding to the mature toxin in some strains and applying allele-specific PCR for strains categorized as bft-2 or bft-3, we found in our collection two strains harboring bft-3, a variant that had been described for isolates from East Asia. Analysis of 66 ETBF strains from different sources showed that bft-1 is the most frequent allele, being present in 65% of isolates; it is largely predominant in isolates from feces of adults, while bft-2 is present in isolates from feces of children. This association is statistically significant (P, 0.0064). Sixteen strains were examined by Southern hybridization using, as probes, the bft and second metalloprotease genes, both included in a pathogenicity islet. Five strains were found to harbor double copies of both genes, suggesting that the whole islet was duplicated. Four of these strains, harboring bft-1 (three strains) or bft-2 (one strain), were found to produce a large amount of biologically active toxin, as determined by a cytotoxicity assay with HT-29 cells. The strains harboring bft-3, either in a single copy or in double copies, produced the smallest amount of toxin in our collection.
The alleles of the bft gene are distributed differently among enterotoxigenic Bacteroides fragilis strains from human sources and can be present in double copy / SCOTTO D'ABUSCO, Anna; DEL GROSSO, M.; Censini, S.; Covacci, A.; Pantosti, A.. - In: JOURNAL OF CLINICAL MICROBIOLOGY. - ISSN 0095-1137. - 38:(2000), pp. 607-612.
The alleles of the bft gene are distributed differently among enterotoxigenic Bacteroides fragilis strains from human sources and can be present in double copy
SCOTTO D'ABUSCO, ANNA;
2000
Abstract
Enterotoxigenic Bacteroides fragilis (ETBF) strains are associated with diarrheal disease in children. These strains produce a zinc metalloprotease enterotoxin, or fragilysin, that can be detected by a cytotoxicity assay with HT-29 cells. Recently, three different isoforms or variants of the enterotoxin gene, designated bft-1, bft-2, and bft-3, have been identified and sequenced. We used restriction fragment length polymorphism analysis of the PCR-amplified enterotoxin gene to detect the isoforms bft-1 and bft-2 or bft-3 borne by ETBF. By sequencing the portion of the bft gene corresponding to the mature toxin in some strains and applying allele-specific PCR for strains categorized as bft-2 or bft-3, we found in our collection two strains harboring bft-3, a variant that had been described for isolates from East Asia. Analysis of 66 ETBF strains from different sources showed that bft-1 is the most frequent allele, being present in 65% of isolates; it is largely predominant in isolates from feces of adults, while bft-2 is present in isolates from feces of children. This association is statistically significant (P, 0.0064). Sixteen strains were examined by Southern hybridization using, as probes, the bft and second metalloprotease genes, both included in a pathogenicity islet. Five strains were found to harbor double copies of both genes, suggesting that the whole islet was duplicated. Four of these strains, harboring bft-1 (three strains) or bft-2 (one strain), were found to produce a large amount of biologically active toxin, as determined by a cytotoxicity assay with HT-29 cells. The strains harboring bft-3, either in a single copy or in double copies, produced the smallest amount of toxin in our collection.I documenti in IRIS sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.