Abstract
We identified Certhrax, the first anthrax-like mART toxin from the pathogenic G9241 strain of Bacillus cereus. Certhrax shares 31% sequence identity with anthrax lethal factor from Bacillus anthracis; however, we have shown that the toxicity of Certhrax resides in the mART domain, whereas anthrax uses a metalloprotease mechanism. Like anthrax lethal factor, Certhrax was found to require protective antigen for host cell entry. This two-domain enzyme was shown to be 60-fold more toxic to mammalian cells than anthrax lethal factor. Certhrax localizes to distinct regions within mouse RAW264.7 cells by 10 min postinfection and is extranuclear in its cellular location. Substitution of catalytic residues shows that the mART function is responsible for the toxicity, and it binds NAD(+) with high affinity (K(D) = 52.3 ± 12.2 μM). We report the 2.2 Å Certhrax structure, highlighting its structural similarities and differences with anthrax lethal factor. We also determined the crystal structures of two good inhibitors (P6 (K(D) = 1.7 ± 0.2 μM, K(i) = 1.8 ± 0.4 μM) and PJ34 (K(D) = 5.8 ± 2.6 μM, K(i) = 9.6 ± 0.3 μM)) in complex with Certhrax. As with other toxins in this family, the phosphate-nicotinamide loop moves toward the NAD(+) binding site with bound inhibitor. These results indicate that Certhrax may be important in the pathogenesis of B. cereus.
Highlights
Cethrax toxin from B. cereus inactivates mammalian cells through cytoplasmic ADP-ribosyltransferase activity
Certhrax shares 31% sequence identity with anthrax lethal factor from Bacillus anthracis; we have shown that the toxicity of Certhrax resides in the mono-ADP-ribosyltransferase toxins (mARTs) domain, whereas anthrax uses a metalloprotease mechanism
As the scientific and medical communities are becoming increasingly more aware of the serious infections caused by B. cereus, characterization of the first anthrax-like mART will help our understanding of the pathogenic behavior of these bacteria
Summary
Cethrax toxin from B. cereus inactivates mammalian cells through cytoplasmic ADP-ribosyltransferase activity. We identified Certhrax, the first anthrax-like mART toxin from the pathogenic G9241 strain of Bacillus cereus. The mono-ADP-ribosyltransferase toxins (mARTs) are the principle causative agents of a wide range of diseases, including cholera, diphtheria, and whooping cough [12, 13] These toxic proteins bind NADϩ, cleave it into ADP-ribose and nicotinamide components, and facilitate the covalent transfer of the ADP-ribose to a host cell protein target (usually), altering or inhibiting target activity. Due to this covalent addition, mART toxins may be solely responsible for or may contribute to the disease state caused by their native pathogenic acter. As the scientific and medical communities are becoming increasingly more aware of the serious infections caused by B. cereus, characterization of the first anthrax-like mART will help our understanding of the pathogenic behavior of these bacteria
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