Neurotoxin Gene Clusters in Clostridium botulinum Type Ab Strains

There is limited knowledge of the neurotoxin gene diversity among Clostridium botulinum type Ab strains. Only the sequences of the bont/A and bont/B genes in C. botulinum type Ab strain CDC1436 and the sequence of the bont/B gene in C. botulinum type Ab strain CDC588 have been reported. In this study, we sequenced the entire bont/A- and bont/B-associated neurotoxin gene clusters of C. botulinum type Ab strain {"type":"entrez-protein","attrs":{"text":"CDC41370","term_id":"524503451","term_text":"CDC41370"}}CDC41370 and the bont/A gene of strain CDC588. In addition, we analyzed the organization of the neurotoxin gene clusters in strains CDC588 and CDC1436. The bont/A nucleotide sequence of strain {"type":"entrez-protein","attrs":{"text":"CDC41370","term_id":"524503451","term_text":"CDC41370"}}CDC41370 differed from those of the known bont/A subtypes A1 to A4 by 2 to 7%, and the predicted amino acid sequence differed by 4% to 14%. The bont/B nucleotide sequence in strain {"type":"entrez-protein","attrs":{"text":"CDC41370","term_id":"524503451","term_text":"CDC41370"}}CDC41370 showed 99.7% identity to the sequence of subtype B1. The bont/A nucleotide sequence of strain CDC588 was 99.9% identical to that of subtype A1. Although all of the C. botulinum type Ab strains analyzed contained the two sets of neurotoxin clusters, similar to what has been found in other bivalent strains, the intergenic spacing of p21-orfX1 and orfX2-orfX3 varied among these strains. The type Ab strains examined in this study had differences in their toxin gene cluster compositions and bont/A and bont/B nucleotide sequences, suggesting that they may have arisen from separate recombination events.Clostridium botulinum is a gram-positive anaerobic bacterium that produces an extremely potent toxin, the botulinum neurotoxin (BoNT). There are seven serologically distinct types of BoNT (serotypes A through G). Although most strains of C. botulinum express a single toxin serotype, some isolates have been shown to produce more than one, namely, Ab, Af, Ba, and Bf (11). In addition, many strains designated type A by mouse bioassay harbor nucleotide sequences for both type A and B toxins (6). These strains have been designated A(B) to indicate the presence of the bont/B gene without type B-specific toxicity.Based on phylogenetic analysis of the neurotoxin gene sequences, four subtypes have been identified within serotype A and five subtypes within serotype B (12). The neurotoxin gene nucleotide sequences of these subtypes differ by up to 8%, and the predicted amino acid sequences differ by up to 16%. In addition, the genes encoding components of the toxin complexes are arranged in clusters that differ in composition and organization (14) (Fig. ​(Fig.1).1). The toxin gene cluster of subtype A1 (termed ha cluster) includes the gene encoding the nontoxic nonhemagglutinin (ntnh), a regulatory gene (botR), and an operon encoding three hemagglutinins (ha70, ha33, and ha17). The toxin gene clusters containing bont/A2 or bont/A3 (termed orfX cluster) include the ntnh and p21 (analogous to botR) genes and several genes of unknown function (orfX1, orfX2, orfX3, and p47). Type Ba and A(B) strains contain two sets of neurotoxin cluster genes in which ha70, ha33, and ha17 are associated with the bont/B gene, and orfX1, orfX2, orfX3, and p47 are associated with the bont/A gene. In addition, some A1 strains contain a neurotoxin gene cluster that is similar to those in A2 and A3, but the bont/A nucleotide sequence is 99.9% identical to that in other A1 strains. These strains have been designated HA⁻ Orfx⁺ A1 (14). The neurotoxin gene cluster in type B strains includes the ntnh, botR, ha70, ha33, and ha17 genes. Notably, no differences in the neurotoxin gene cluster arrangements among the subtypes within serotype B have been reported.Open in a separate windowFIG. 1.Toxin gene cluster arrangements for BoNT type A-producing strains, including Ab, A(B), and Ba strains.Although several studies have described the organization and the nucleotide sequences of the neurotoxin gene cluster components among type A and B strains [including type Ba and A(B) strains], there is limited information regarding the diversity of the neurotoxin cluster genes among C. botulinum type Ab strains. The nucleotide sequences of the bont/A and bont/B genes in C. botulinum type Ab strain CDC1436 and the sequence of the bont/B gene of C. botulinum type Ab strain CDC588 have been previously reported; strain CDC1436 harbors a bont/A2 gene, and both strains CDC1436 and CDC588 harbor a bont/bvB gene (12, 15). Four additional type Ab strains from Italy have been analyzed by a restriction fragment length polymorphism method to determine the bont/A and bont/B subtypes (7, 9). To the best of our knowledge, the complete nucleotide sequences of the neurotoxin gene clusters in C. botulinum type Ab strains have not been reported. Thus, the objective of this study was to analyze the neurotoxin gene cluster composition in three C. botulinum type Ab strains ({"type":"entrez-protein","attrs":{"text":"CDC41370","term_id":"524503451","term_text":"CDC41370"}}CDC41370, CDC588, and CDC1436) available in the CDC strain collection. We report differences in bont/A gene sequence among type Ab strains, including the identification of a novel bont/A nucleotide sequence in strain {"type":"entrez-protein","attrs":{"text":"CDC41370","term_id":"524503451","term_text":"CDC41370"}}CDC41370, and describe differences in the organization of the neurotoxin gene clusters among these strains.