In defense of Bacillus thuringiensis, the safest and most successful microbial insecticide available to humanity - a response to EFSA.

Ben Raymond,Brian A Federici

doi:10.1093/femsec/fix084

Abstract

The Bacillus cereus group contains vertebrate pathogens such as B. anthracis and B. cereus and the invertebrate pathogen B. thuringiensis (Bt). Microbial biopesticides based on Bt are widely recognised as being among the safest and least environmentally damaging insecticidal products available. Nevertheless, a recent food-poisoning incident prompted a European Food Safety Authority review which argued that Bt poses a health risk equivalent to B. cereus, a causative agent of diarrhoea. However, a critical examination of available data, and this latest incident, provides no solid evidence that Bt causes diarrhoea. Although relatively high levels of B. cereus-like spores can occur in foods, genotyping demonstrates that these are predominantly naturally occurring strains rather than biopesticides. Moreover, MLST genotyping of >2000 isolates show that biopesticide genotypes have never been isolated from any clinical infection. MLST data demonstrate that B. cereus group is heterogeneous and formed of distinct clades with substantial differences in biology, ecology and host association. The group posing the greatest risk (the anthracis clade) is distantly related to the clade containing all biopesticides. These recent data support the long-held view that Bt and especially the strains used in Bt biopesticides are very safe for humans.

Highlights

Despite the abundance of studies and data produced over the past 50 years supporting the safety of Bt, the EFSA opinion makes the startling claim that the “actual contribution of the two species [B. cereus and B. thuringiensis] to gastro-intestinal and nongastrointestinal diseases in currently unknown.”
The recent controversial case of food poisoning in Germany presents no convincing evidence that Bt was the causative agent, since individuals with food poisoning had consumed a dose of B. cereus sufficient to cause the observed level of infection
The argument in the EFSA report, that we do not understand the risks of consuming Bt spores, are unfounded and overly cautious

Summary

ORE Open Research Exeter

TITLE In defense of Bacillus thuringiensis, the safest and most successful microbial insecticide available to humanity – a response to EFSA AUTHORS Raymond, BD; Federici, B JOURNAL FEMS Microbiology Ecology DEPOSITED IN ORE 08 June 2017. In defense of Bacillus thuringiensis, the safest and most successful microbial insecticide available to humanity – a response to EFSA. MLST data demonstrate that Bacillus cereus group is heterogeneous and formed of distinct clades with substantial differences in biology, ecology and host association. The group posing the greatest risk (the anthracis clade) is distantly related to the clade containing all biopesticides. These recent data support the long-held view that B. thuringiensis, and especially the strains used in Bt biopesticides, are very safe for humans

Introduction

The occurrence of Bt and Bc in food and the environment

Conclusion

Findings

Novodor morrisoni