Proteome Response of Tribolium castaneum Larvae to Bacillus thuringiensis Toxin Producing Strains

Contreras, Estefanía; Rausell, Carolina; Real, M. Dolores

doi:10.1371/journal.pone.0055330

Cited by 56 publications

(43 citation statements)

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“…Btt produces the Cry3Aa toxin, which when applied in its purified form (without the addition of spores), caused mortality to the yellow mealworm beetle Tenebrio molitor but not to T. castaneum [27]. A recent study [41] reported a very low mortality in T. castaneum when exposed to spore-crystal mixtures of Cry3Aa producing strain. The different mortality observed in this study might come from a different bacterial chromosomal background or from differences in spore concentrations that were provided in the diet.…”

Section: Discussionmentioning

confidence: 99%

The Red Flour Beetle as a Model for Bacterial Oral Infections

et al. 2013

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Experimental infection systems are important for studying antagonistic interactions and coevolution between hosts and their pathogens. The red flour beetle Tribolium castaneum and the spore-forming bacterial insect pathogen Bacillus thuringiensis (Bt) are widely used and tractable model organisms. However, they have not been employed yet as an efficient experimental system to study host-pathogen interactions. We used a high throughput oral infection protocol to infect T. castaneum insects with coleopteran specific B. thuringiensis bv. tenebrionis (Btt) bacteria. We found that larval mortality depends on the dietary spore concentration and on the duration of exposure to the spores. Furthermore, differential susceptibility of larvae from different T. castaneum populations indicates that the host genetic background influences infection success. The recovery of high numbers of infectious spores from the cadavers indicates successful replication of bacteria in the host and suggests that Btt could establish infectious cycles in T. castaneum in nature. We were able to transfer plasmids from Btt to a non-pathogenic but genetically well-characterised Bt strain, which was thereafter able to successfully infect T. castaneum, suggesting that factors residing on the plasmids are important for the virulence of Btt. The availability of a genetically accessible strain will provide an ideal model for more in-depth analyses of pathogenicity factors during oral infections. Combined with the availability of the full genome sequence of T. castaneum, this system will enable analyses of host responses during infection, as well as addressing basic questions concerning host-parasite coevolution.

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Section: Discussionmentioning

confidence: 99%

The Red Flour Beetle as a Model for Bacterial Oral Infections

et al. 2013

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“…It should be noted that this difference was evident only after 8 hr of plant feeding, suggesting that food intake could play a role in this difference. The immune protein apolipophorin‐III was previously reported to be upregulated in response to Cry3Ba exposure in Tribolium castaneum (Herbst) (Contreras, Rausell, & Real, ,b). However, no apolipophorin was differentially expressed in the present RNA‐seq results.…”

Section: Discussionmentioning

confidence: 99%

Investigation of Cry3Bb1 resistance and intoxication in western corn rootworm by RNA sequencing

Rault

Siegfried

Gassmann

et al. 2018

J Applied Entomology

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The western corn rootworm (WCR) Diabrotica virgifera virgifera LeConte is a major pest of corn that has evolved resistance to transgenic maize that produces insecticidal Cry toxins. The specific mode of action of Cry3Bb1 and mechanism of resistance in WCR are unknown. This study compared gene expression between Cry3Bb1-susceptible and Cry3Bb1-resistant WCR neonates, in the presence and absence of Cry3Bb1. RNA-Seq data were analyzed to identify differentially expressed transcripts between strains of WCR, providing candidate transcripts for resistance to Cry3Bb1. Constitutive and Cry3Bb1-induced differences between strains caused the differential expression of 608 transcripts after 8 hr. Differentially expressed transcripts between strains included ABC transporters, proteases and α-amylases, which known to be receptors or activators of Cry toxins and involved in resistance to Cry toxins in other insects. The response to Cry3Bb1 treatment resulted in approximately 5,000 differentially expressed transcripts in the susceptible strain and included the same annotation categories found between strains but also included metalloproteases, cadherins and signaling proteins. None of these annotations were identified digitalcommons.unl.edu R a u l t e t a l . i n J o u r n a l o f A p p l i e d E n t o m o l o g y ,2 0 1 8 2in the response of the resistant strain to Cry3Bb1, which was represented by only 12 transcripts. Tissue-specific expression analysis of selected transcripts revealed that an α-amylase and a protease were expressed in the midgut, the target organ of Cry toxins. A protease inhibitor and two ABC transporters were expressed outside the midgut, suggesting a limited role in resistance. Numerous polymorphic sites were identified from the RNA-Seq data that showed allele frequency differences between the resistant and susceptible strains. Analysis of these polymorphisms in a larger set WCR strains suggested that the differences were due to genetic drift rather than being associated with resistance to Cry3Bb1. Polymorphisms identified in genes with known roles in resistance to Cry toxins did not appear to differ in frequency between resistant and susceptible strains.

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“…Generally, CSPs and OBPs are involved in olfaction and chemical communication in insects, but the functions of members of these large families of genes might be diverse [8, 45]. Elevated levels of CSP gene transcripts were previously reported after oral exposure to B. thuringiensis or its toxins in Tenebrio molitor [46] and T. castaneum [16], and a role of OBP-C12 in T. castaneum defense against B. thuringiensis was also demonstrated [16]. The beetle populations differed in the specific sets and the expression dynamics of these genes, some of which were also differentially expressed upon pricking infection.…”

Section: Discussionmentioning

confidence: 99%

Infection routes matter in population-specific responses of the red flour beetle to the entomopathogen Bacillus thuringiensis

et al. 2014

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BackgroundPathogens can infect their hosts through different routes. For studying the consequences for host resistance, we here used the entomopathogen Bacillus thuringiensis and the red flour beetle Tribolium castaneum for oral and systemic (i. e. pricking the cuticle) experimental infection. In order to characterize the molecular mechanisms underpinning the two different infection routes, the transcriptomes of beetles of two different T. castaneum populations – one recently collected population (Cro1) and a commonly used laboratory strain (SB) – were analyzed using a next generation RNA sequencing approach.ResultsThe genetically more diverse population Cro1 showed a significantly larger number of differentially expressed genes. While both populations exhibited similar reactions to pricking, their expression patterns in response to oral infection differed remarkably. In particular, the Cro1 population showed a strong response of cuticular proteins and developmental genes, which might indicate an adaptive developmental flexibility that was lost in the SB population presumably as a result of inbreeding. The immune response of SB was primarily based on antimicrobial peptides, while Cro1 relied on responses mediated by phenoloxidase and reactive oxygen species, which may explain the higher resistance of this strain against oral infection.ConclusionsOur data demonstrate that immunological and physiological processes underpinning the two different routes of infection are clearly distinct, and that host populations particularly differ in responses to oral infection. Furthermore, gene expression upon pricking infection entailed a strong signal of wounding, highlighting the importance of pricking controls in future infection studies.Electronic supplementary materialThe online version of this article (doi:10.1186/1471-2164-15-445) contains supplementary material, which is available to authorized users.

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Proteome Response of Tribolium castaneum Larvae to Bacillus thuringiensis Toxin Producing Strains

Cited by 56 publications

References 50 publications

The Red Flour Beetle as a Model for Bacterial Oral Infections

The Red Flour Beetle as a Model for Bacterial Oral Infections

Investigation of Cry3Bb1 resistance and intoxication in western corn rootworm by RNA sequencing

Infection routes matter in population-specific responses of the red flour beetle to the entomopathogen Bacillus thuringiensis

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