TY - JOUR AB - Treating sick group members is a hallmark of collective disease defence in vertebrates and invertebrates alike. Despite substantial effects on pathogen fitness and epidemiology, it is still largely unknown how pathogens react to the selection pressure imposed by care intervention. Using social insects and pathogenic fungi, we here performed a serial passage experiment in the presence or absence of colony members, which provide social immunity by grooming off infectious spores from exposed individuals. We found specific effects on pathogen diversity, virulence and transmission. Under selection of social immunity, pathogens invested into higher spore production, but spores were less virulent. Notably, they also elicited a lower grooming response in colony members, compared with spores from the individual host selection lines. Chemical spore analysis suggested that the spores from social selection lines escaped the caregivers’ detection by containing lower levels of ergosterol, a key fungal membrane component. Experimental application of chemically pure ergosterol indeed induced sanitary grooming, supporting its role as a microbe-associated cue triggering host social immunity against fungal pathogens. By reducing this detection cue, pathogens were able to evade the otherwise very effective collective disease defences of their social hosts. AU - Stock, Miriam AU - Milutinovic, Barbara AU - Hönigsberger, Michaela AU - Grasse, Anna V AU - Wiesenhofer, Florian AU - Kampleitner, Niklas AU - Narasimhan, Madhumitha AU - Schmitt, Thomas AU - Cremer, Sylvia ID - 12543 JF - Nature Ecology and Evolution TI - Pathogen evasion of social immunity VL - 7 ER - TY - JOUR AB - Coinfections with multiple pathogens can result in complex within‐host dynamics affecting virulence and transmission. While multiple infections are intensively studied in solitary hosts, it is so far unresolved how social host interactions interfere with pathogen competition, and if this depends on coinfection diversity. We studied how the collective disease defences of ants – their social immunity – influence pathogen competition in coinfections of same or different fungal pathogen species. Social immunity reduced virulence for all pathogen combinations, but interfered with spore production only in different‐species coinfections. Here, it decreased overall pathogen sporulation success while increasing co‐sporulation on individual cadavers and maintaining a higher pathogen diversity at the community level. Mathematical modelling revealed that host sanitary care alone can modulate competitive outcomes between pathogens, giving advantage to fast‐germinating, thus less grooming‐sensitive ones. Host social interactions can hence modulate infection dynamics in coinfected group members, thereby altering pathogen communities at the host level and population level. AU - Milutinovic, Barbara AU - Stock, Miriam AU - Grasse, Anna V AU - Naderlinger, Elisabeth AU - Hilbe, Christian AU - Cremer, Sylvia ID - 7343 IS - 3 JF - Ecology Letters SN - 1461-023X TI - Social immunity modulates competition between coinfecting pathogens VL - 23 ER - TY - GEN AB - Coinfections with multiple pathogens can result in complex within-host dynamics affecting virulence and transmission. Whilst multiple infections are intensively studied in solitary hosts, it is so far unresolved how social host interactions interfere with pathogen competition, and if this depends on coinfection diversity. We studied how the collective disease defenses of ants – their social immunity ­– influence pathogen competition in coinfections of same or different fungal pathogen species. Social immunity reduced virulence for all pathogen combinations, but interfered with spore production only in different-species coinfections. Here, it decreased overall pathogen sporulation success, whilst simultaneously increasing co-sporulation on individual cadavers and maintaining a higher pathogen diversity at the community-level. Mathematical modeling revealed that host sanitary care alone can modulate competitive outcomes between pathogens, giving advantage to fast-germinating, thus less grooming-sensitive ones. Host social interactions can hence modulate infection dynamics in coinfected group members, thereby altering pathogen communities at the host- and population-level. AU - Milutinovic, Barbara AU - Stock, Miriam AU - Grasse, Anna V AU - Naderlinger, Elisabeth AU - Hilbe, Christian AU - Cremer, Sylvia ID - 13060 TI - Social immunity modulates competition between coinfecting pathogens ER - TY - JOUR AB - Background: The phenomenon of immune priming, i.e. enhanced protection following a secondary exposure to a pathogen, has now been demonstrated in a wide range of invertebrate species. Despite accumulating phenotypic evidence, knowledge of its mechanistic underpinnings is currently very limited. Here we used the system of the red flour beetle, Tribolium castaneum and the insect pathogen Bacillus thuringiensis (Bt) to further our molecular understanding of the oral immune priming phenomenon. We addressed how ingestion of bacterial cues (derived from spore supernatants) of an orally pathogenic and non-pathogenic Bt strain affects gene expression upon later challenge exposure, using a whole-transcriptome sequencing approach. Results: Whereas gene expression of individuals primed with the orally non-pathogenic strain showed minor changes to controls, we found that priming with the pathogenic strain induced regulation of a large set of distinct genes, many of which are known immune candidates. Intriguingly, the immune repertoire activated upon priming and subsequent challenge qualitatively differed from the one mounted upon infection with Bt without previous priming. Moreover, a large subset of priming-specific genes showed an inverse regulation compared to their regulation upon challenge only. Conclusions: Our data demonstrate that gene expression upon infection is strongly affected by previous immune priming. We hypothesise that this shift in gene expression indicates activation of a more targeted and efficient response towards a previously encountered pathogen, in anticipation of potential secondary encounter. AU - Greenwood, Jenny AU - Milutinovic, Barbara AU - Peuß, Robert AU - Behrens, Sarah AU - Essar, Daniela AU - Rosenstiel, Philip AU - Schulenburg, Hinrich AU - Kurtz, Joachim ID - 1006 IS - 1 JF - BMC Genomics SN - 14712164 TI - Oral immune priming with Bacillus thuringiensis induces a shift in the gene expression of Tribolium castaneum larvae VL - 18 ER - TY - GEN AB - Lists of all differentially expressed genes in the different priming-challenge treatments (compared to the fully naïve control; xlsx file). Relevant columns include the following: sample_1 and sample_2 – treatment groups being compared; Normalised FPKM sample_1 and sample_2 – FPKM of samples being compared; log2(fold_change) – log2(FPKM sample 2/FPKM sample 1), i.e. negative means sample 1 upregulated compared with sample 2, positive means sample 2 upregulated compared with sample 1; cuffdiff test_statistic – test statistic of differential expression test; p_value – p-value of differential expression test; q_value (FDR correction) – adjusted P-value of differential expression test. (XLSX 598 kb) AU - Greenwood, Jenny AU - Milutinovic, Barbara AU - Peuß, Robert AU - Behrens, Sarah AU - Essar, Daniela AU - Rosenstiel, Philip AU - Schulenburg, Hinrich AU - Kurtz, Joachim ID - 9859 TI - Additional file 1: Table S1. of Oral immune priming with Bacillus thuringiensis induces a shift in the gene expression of Tribolium castaneum larvae ER - TY - GEN AU - Greenwood, Jenny AU - Milutinovic, Barbara AU - Peuß, Robert AU - Behrens, Sarah AU - Essar, Daniela AU - Rosenstiel, Philip AU - Schulenburg, Hinrich AU - Kurtz, Joachim ID - 9860 TI - Additional file 5: Table S3. of Oral immune priming with Bacillus thuringiensis induces a shift in the gene expression of Tribolium castaneum larvae ER - TY - JOUR AU - Milutinovic, Barbara AU - Peuß, Robert AU - Ferro, Kevin AU - Kurtz, Joachim ID - 1202 IS - 4 JF - Zoology TI - Immune priming in arthropods: an update focusing on the red flour beetle VL - 119 ER - TY - JOUR AB - Down syndrome cell adhesion molecule 1 (Dscam1) has widereaching and vital neuronal functions although the role it plays in insect and crustacean immunity is less well understood. In this study, we combine different approaches to understand the roles that Dscam1 plays in fitness-related contexts in two model insect species. Contrary to our expectations, we found no short-term modulation of Dscam1 gene expression after haemocoelic or oral bacterial exposure in Tribolium castaneum, or after haemocoelic bacterial exposure in Drosophila melanogaster. Furthermore, RNAi-mediated Dscam1 knockdown and subsequent bacterial exposure did not reduce T. castaneum survival. However, Dscam1 knockdown in larvae resulted in adult locomotion defects, as well as dramatically reduced fecundity in males and females. We suggest that Dscam1 does not always play a straightforward role in immunity, but strongly influences behaviour and fecundity. This study takes a step towards understanding more about the role of this intriguing gene from different phenotypic perspectives. AU - Peuß, Robert AU - Wensing, Kristina AU - Woestmann, Luisa AU - Eggert, Hendrik AU - Milutinovic, Barbara AU - Sroka, Marlene AU - Scharsack, Jörn AU - Kurtz, Joachim AU - Armitage, Sophie ID - 1255 IS - 4 JF - Royal Society Open Science TI - Down syndrome cell adhesion molecule 1: Testing for a role in insect immunity, behaviour and reproduction VL - 3 ER - TY - JOUR AU - Milutinovic, Barbara AU - Kurtz, Joachim ID - 1268 IS - 4 JF - Seminars in Immunology TI - Immune memory in invertebrates VL - 28 ER - TY - JOUR AB - Reproduction within a host and transmission to the next host are crucial for the virulence and fitness of pathogens. Nevertheless, basic knowledge about such parameters is often missing from the literature, even for well-studied bacteria, such as Bacillus thuringiensis, an endospore-forming insect pathogen, which infects its hosts via the oral route. To characterize bacterial replication success, we made use of an experimental oral infection system for the red flour beetle Tribolium castaneum and developed a flow cytometric assay for the quantification of both spore ingestion by the individual beetle larvae and the resulting spore load after bacterial replication and resporulation within cadavers. On average, spore numbers increased 460-fold, showing that Bacillus thuringiensis grows and replicates successfully in insect cadavers. By inoculating cadaver-derived spores and spores from bacterial stock cultures into nutrient medium, we next investigated outgrowth characteristics of vegetative cells and found that cadaver- derived bacteria showed reduced growth compared to bacteria from the stock cultures. Interestingly, this reduced growth was a consequence of inhibited spore germination, probably originating from the host and resulting in reduced host mortality in subsequent infections by cadaver-derived spores. Nevertheless, we further showed that Bacillus thuringiensis transmission was possible via larval cannibalism when no other food was offered. These results contribute to our understanding of the ecology of Bacillus thuringiensis as an insect pathogen. AU - Milutinovic, Barbara AU - Höfling, Christina AU - Futo, Momir AU - Scharsack, Jörn AU - Kurtz, Joachim ID - 1548 IS - 23 JF - Applied and Environmental Microbiology TI - Infection of Tribolium castaneum with Bacillus thuringiensis: Quantification of bacterial replication within cadavers, transmission via cannibalism, and inhibition of spore germination VL - 81 ER -