Some Bacillus thuringiensis strains have high toxicity to nematodes. Nematicidal activity has been found in several families of crystal proteins, such as Cry5, Cry6, and Cry55. The B. thuringiensis strain YBT-1518 has three cry genes that have high nematicidal activity. The whole genome sequence of this strain contains multiple potential virulence factors. To evaluate the pathogenic potential of virulence factors, we focused on a metalloproteinase called Bmp1. It encompasses a consecutive N-terminal signal peptide, an FTP superfamily domain, an M4 neutral protease GluZincin superfamily, two Big-3 superfamily motifs, and a Grampositive anchor superfamily motif as a C-terminal domain. Here, we showed that purified Bmp1 protein showed metalloproteinase activity and toxicity against Caenorhabditis elegans (the 50% lethal concentration is 610 ؎ 9.37 g/ml). In addition, mixing Cry5Ba with Bmp1 protein enhanced the toxicity 7.9-fold (the expected toxicity of the two proteins calculated from their separate toxicities) against C. elegans. Confocal microscopic observation revealed that Bmp1 protein was detected from around the mouth and esophagus to the intestine. Striking microscopic images revealed that Bmp1 degrades intestine tissues, and the Cry5Ba causes intestinal shrinkage from the body wall. Thus, the B. thuringiensis Bmp1 metalloproteinase is a nematicidal virulence factor. These findings give a new insight into the relationship between B. thuringiensis and its host nematodes.
Bacillus thuringiensis is a rod-shaped, Gram-positive, sporeforming bacterium. It is the most successful insect pathogen used for insect control (1). The action to the insect pest relies on insecticidal toxin and array of virulence factors (2). Upon sporulation, it produces insecticidal crystal inclusion that is formed by a variety of insecticidal proteins called Cry or Cyt proteins. These insecticidal crystal proteins are toxic to insects in the orders Lepidoptera, Dipteran, Coleoptera, Hymenoptera, Homoptera, Orthoptera, and Mallophage (2), and they are also toxic to nematodes. Until now, there are several families of Cry proteins (Cry5, Cry6, Cry12, Cry13, Cry14, Cry21, and Cry55) known to be toxic to the larvae of a number of free-living or parasitic nematodes (3). Besides having crystal proteins that are toxic to insects, B. thuringiensis has many virulence factors that contribute to its pathogenic effects. These virulence factors contain exotoxins and extracellular proteases (2). During the stationary growth phase, some B. thuringiensis strains secrete exotoxins, which are heat-stable, watersoluble, and low-molecular-mass compounds (701 Da). These compounds are highly toxic to a wide range of insect species by the oral route (4, 5). In addition, extracellular proteases, e.g., serine protease, chitinase, and collagenase (6), have been reported to be insect pests virulence factors (2).In the past few years, some insecticidal virulence factors have been isolated from B. thuringiensis. The action mode of virulence factors against insect c...
