1. Paenibacillus larvae Chitin-Degrading Protein PlCBP49 Is a Key Virulence Factor in American Foulbrood of Honey Bees
- Author
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Lena Poppinga, Kati Hedtke, Agata K. Jakubowska, Anne Fünfhaus, Eva Garcia-Gonzalez, Gillian Hertlein, and Elke Genersch
- Subjects
Veterinary Microbiology ,Chitin ,Pathogenesis ,Pathology and Laboratory Medicine ,Virulence factor ,chemistry.chemical_compound ,Medicine and Health Sciences ,Peritrophic matrix ,lcsh:QH301-705.5 ,biology ,Virulence ,Gram Positive Bacteria ,Bees ,Veterinary Bacteriology ,Bacterial Pathogens ,Veterinary Diseases ,Medical Microbiology ,Larva ,Host-Pathogen Interactions ,Paenibacillus ,Research Article ,lcsh:Immunologic diseases. Allergy ,American foulbrood ,Virulence Factors ,Immunology ,Molecular Sequence Data ,Microbiology ,Bacterial Proteins ,Virology ,Genetics ,Animals ,Amino Acid Sequence ,Molecular Biology ,Microbial Pathogens ,Gram-Positive Bacterial Infections ,Sequence Homology, Amino Acid ,fungi ,Biology and Life Sciences ,Midgut ,Bacteriology ,Honey bee ,biology.organism_classification ,lcsh:Biology (General) ,chemistry ,Proteolysis ,Parasitology ,Veterinary Science ,lcsh:RC581-607 ,Bacteria - Abstract
Paenibacillus larvae, the etiological agent of the globally occurring epizootic American Foulbrood (AFB) of honey bees, causes intestinal infections in honey bee larvae which develop into systemic infections inevitably leading to larval death. Massive brood mortality might eventually lead to collapse of the entire colony. Molecular mechanisms of host-microbe interactions in this system and of differences in virulence between P. larvae genotypes are poorly understood. Recently, it was demonstrated that the degradation of the peritrophic matrix lining the midgut epithelium is a key step in pathogenesis of P. larvae infections. Here, we present the isolation and identification of PlCBP49, a modular, chitin-degrading protein of P. larvae and demonstrate that this enzyme is crucial for the degradation of the larval peritrophic matrix during infection. PlCBP49 contains a module belonging to the auxiliary activity 10 (AA10, formerly CBM33) family of lytic polysaccharide monooxygenases (LPMOs) which are able to degrade recalcitrant polysaccharides. Using chitin-affinity purified PlCBP49, we provide evidence that PlCBP49 degrades chitin via a metal ion-dependent, oxidative mechanism, as already described for members of the AA10 family. Using P. larvae mutants lacking PlCBP49 expression, we analyzed in vivo biological functions of PlCBP49. In the absence of PlCBP49 expression, peritrophic matrix degradation was markedly reduced and P. larvae virulence was nearly abolished. This indicated that PlCBP49 is a key virulence factor for the species P. larvae. The identification of the functional role of PlCBP49 in AFB pathogenesis broadens our understanding of this important family of chitin-binding and -degrading proteins, especially in those bacteria that can also act as entomopathogens., Author Summary American Foulbrood and its etiological agent, Paenibacillus larvae, pose a serious threat to global honey bee health. So far, molecular mechanisms of host-microbe interactions are poorly understood in this system and no key virulence factor for the entire species has been identified. Here, we demonstrate that P. larvae expresses a chitin-binding and -degrading protein PlCBP49 harboring one module that belongs to the auxiliary activity 10 (AA10) family of lytic polysaccharide monooxygenases (LPMOs). We provide evidence that PlCBP49 degrades chitin via a metal ion-dependent, oxidative mechanism, as already described for other members of the AA10 enzyme family. Using P. larvae mutants lacking PlCBP49 expression, we demonstrate that PlCBP49 is crucial for the degradation of the chitin-rich peritrophic matrix, a key step in pathogenesis of P. larvae infections. In the absence of PlCBP49 expression the peritrophic matrix remained nearly intact and about 95% of the infected larvae survived infection. This clearly indicated that PlCBP49 is a key virulence factor of P. larvae. These results constitute important progress in our understanding of both P. larvae pathogenesis and the biological role of LPMOs in entomopathogens. Furthermore, knowing PlCBP49 and its role in pathogenesis opens new possibilities to develop curative measures for this disease.
- Published
- 2014