Cooperation between host immunity and the gut bacteria is essential for helminth-evoked suppression of colitis
Abstract Background Studies on the inhibition of inflammation by infection with helminth parasites have, until recently, overlooked a key determinant of health: the gut microbiota. Infection with helminths evokes changes in the composition of their host’s microbiota: one outcome of which is an alter...
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| Format: | Article |
| Language: | English |
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BMC
2021-09-01
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| Series: | Microbiome |
| Online Access: | https://doi.org/10.1186/s40168-021-01146-2 |
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doaj-b6d4aaef4bb84f2aba94fc3c52780896 |
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Article |
| collection |
DOAJ |
| language |
English |
| format |
Article |
| sources |
DOAJ |
| author |
Adam Shute Blanca E. Callejas ShuHua Li Arthur Wang Timothy S. Jayme Christina Ohland Ian A. Lewis Brian T. Layden André G. Buret Derek M. McKay |
| spellingShingle |
Adam Shute Blanca E. Callejas ShuHua Li Arthur Wang Timothy S. Jayme Christina Ohland Ian A. Lewis Brian T. Layden André G. Buret Derek M. McKay Cooperation between host immunity and the gut bacteria is essential for helminth-evoked suppression of colitis Microbiome |
| author_facet |
Adam Shute Blanca E. Callejas ShuHua Li Arthur Wang Timothy S. Jayme Christina Ohland Ian A. Lewis Brian T. Layden André G. Buret Derek M. McKay |
| author_sort |
Adam Shute |
| title |
Cooperation between host immunity and the gut bacteria is essential for helminth-evoked suppression of colitis |
| title_short |
Cooperation between host immunity and the gut bacteria is essential for helminth-evoked suppression of colitis |
| title_full |
Cooperation between host immunity and the gut bacteria is essential for helminth-evoked suppression of colitis |
| title_fullStr |
Cooperation between host immunity and the gut bacteria is essential for helminth-evoked suppression of colitis |
| title_full_unstemmed |
Cooperation between host immunity and the gut bacteria is essential for helminth-evoked suppression of colitis |
| title_sort |
cooperation between host immunity and the gut bacteria is essential for helminth-evoked suppression of colitis |
| publisher |
BMC |
| series |
Microbiome |
| issn |
2049-2618 |
| publishDate |
2021-09-01 |
| description |
Abstract Background Studies on the inhibition of inflammation by infection with helminth parasites have, until recently, overlooked a key determinant of health: the gut microbiota. Infection with helminths evokes changes in the composition of their host’s microbiota: one outcome of which is an altered metabolome (e.g., levels of short-chain fatty acids (SCFAs)) in the gut lumen. The functional implications of helminth-evoked changes in the enteric microbiome (composition and metabolites) are poorly understood and are explored with respect to controlling enteric inflammation. Methods Antibiotic-treated wild-type, germ-free (GF) and free fatty-acid receptor-2 (ffar2) deficient mice were infected with the tapeworm Hymenolepis diminuta, then challenged with DNBS-colitis and disease severity and gut expression of the il-10 receptor-α and SCFA receptors/transporters assessed 3 days later. Gut bacteria composition was assessed by 16 s rRNA sequencing and SCFAs were measured. Other studies assessed the ability of feces or a bacteria-free fecal filtrate from H. diminuta-infected mice to inhibit colitis. Results Protection against disease by infection with H. diminuta was abrogated by antibiotic treatment and was not observed in GF-mice. Bacterial community profiling revealed an increase in variants belonging to the families Lachnospiraceae and Clostridium cluster XIVa in mice 8 days post-infection with H. diminuta, and the transfer of feces from these mice suppressed DNBS-colitis in GF-mice. Mice treated with a bacteria-free filtrate of feces from H. diminuta-infected mice were protected from DNBS-colitis. Metabolomic analysis revealed increased acetate and butyrate (both or which can reduce colitis) in feces from H. diminuta-infected mice, but not from antibiotic-treated H. diminuta-infected mice. H. diminuta-induced protection against DNBS-colitis was not observed in ffar2 −/− mice. Immunologically, anti-il-10 antibodies inhibited the anti-colitic effect of H. diminuta-infection. Analyses of epithelial cell lines, colonoids, and colon segments uncovered reciprocity between butyrate and il-10 in the induction of the il-10-receptor and butyrate transporters. Conclusion Having defined a feed-forward signaling loop between il-10 and butyrate following infection with H. diminuta, this study identifies the gut microbiome as a critical component of the anti-colitic effect of this helminth therapy. We suggest that any intention-to-treat with helminth therapy should be based on the characterization of the patient’s immunological and microbiological response to the helminth. |
| url |
https://doi.org/10.1186/s40168-021-01146-2 |
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doaj-b6d4aaef4bb84f2aba94fc3c527808962021-09-19T11:11:33ZengBMCMicrobiome2049-26182021-09-019111810.1186/s40168-021-01146-2Cooperation between host immunity and the gut bacteria is essential for helminth-evoked suppression of colitisAdam Shute0Blanca E. Callejas1ShuHua Li2Arthur Wang3Timothy S. Jayme4Christina Ohland5Ian A. Lewis6Brian T. Layden7André G. Buret8Derek M. McKay9Gastrointestinal Research Group, Inflammation Research Network and Host-Parasite Interaction Group, Calvin, Phoebe & Joan Snyder Institute for Chronic Diseases, Department of Physiology and Pharmacology, Cumming School of Medicine, University of CalgaryGastrointestinal Research Group, Inflammation Research Network and Host-Parasite Interaction Group, Calvin, Phoebe & Joan Snyder Institute for Chronic Diseases, Department of Physiology and Pharmacology, Cumming School of Medicine, University of CalgaryGastrointestinal Research Group, Inflammation Research Network and Host-Parasite Interaction Group, Calvin, Phoebe & Joan Snyder Institute for Chronic Diseases, Department of Physiology and Pharmacology, Cumming School of Medicine, University of CalgaryGastrointestinal Research Group, Inflammation Research Network and Host-Parasite Interaction Group, Calvin, Phoebe & Joan Snyder Institute for Chronic Diseases, Department of Physiology and Pharmacology, Cumming School of Medicine, University of CalgaryGastrointestinal Research Group, Inflammation Research Network and Host-Parasite Interaction Group, Calvin, Phoebe & Joan Snyder Institute for Chronic Diseases, Department of Physiology and Pharmacology, Cumming School of Medicine, University of CalgaryInternational Microbiome Center, Cumming School of Medicine, University of CalgaryDepartment of Biological Sciences, Faculty of Science, University of CalgaryDivision of Endocrinology, Diabetes, and Metabolism, University of Illinois at ChicagoGastrointestinal Research Group, Inflammation Research Network and Host-Parasite Interaction Group, Calvin, Phoebe & Joan Snyder Institute for Chronic Diseases, Department of Physiology and Pharmacology, Cumming School of Medicine, University of CalgaryGastrointestinal Research Group, Inflammation Research Network and Host-Parasite Interaction Group, Calvin, Phoebe & Joan Snyder Institute for Chronic Diseases, Department of Physiology and Pharmacology, Cumming School of Medicine, University of CalgaryAbstract Background Studies on the inhibition of inflammation by infection with helminth parasites have, until recently, overlooked a key determinant of health: the gut microbiota. Infection with helminths evokes changes in the composition of their host’s microbiota: one outcome of which is an altered metabolome (e.g., levels of short-chain fatty acids (SCFAs)) in the gut lumen. The functional implications of helminth-evoked changes in the enteric microbiome (composition and metabolites) are poorly understood and are explored with respect to controlling enteric inflammation. Methods Antibiotic-treated wild-type, germ-free (GF) and free fatty-acid receptor-2 (ffar2) deficient mice were infected with the tapeworm Hymenolepis diminuta, then challenged with DNBS-colitis and disease severity and gut expression of the il-10 receptor-α and SCFA receptors/transporters assessed 3 days later. Gut bacteria composition was assessed by 16 s rRNA sequencing and SCFAs were measured. Other studies assessed the ability of feces or a bacteria-free fecal filtrate from H. diminuta-infected mice to inhibit colitis. Results Protection against disease by infection with H. diminuta was abrogated by antibiotic treatment and was not observed in GF-mice. Bacterial community profiling revealed an increase in variants belonging to the families Lachnospiraceae and Clostridium cluster XIVa in mice 8 days post-infection with H. diminuta, and the transfer of feces from these mice suppressed DNBS-colitis in GF-mice. Mice treated with a bacteria-free filtrate of feces from H. diminuta-infected mice were protected from DNBS-colitis. Metabolomic analysis revealed increased acetate and butyrate (both or which can reduce colitis) in feces from H. diminuta-infected mice, but not from antibiotic-treated H. diminuta-infected mice. H. diminuta-induced protection against DNBS-colitis was not observed in ffar2 −/− mice. Immunologically, anti-il-10 antibodies inhibited the anti-colitic effect of H. diminuta-infection. Analyses of epithelial cell lines, colonoids, and colon segments uncovered reciprocity between butyrate and il-10 in the induction of the il-10-receptor and butyrate transporters. Conclusion Having defined a feed-forward signaling loop between il-10 and butyrate following infection with H. diminuta, this study identifies the gut microbiome as a critical component of the anti-colitic effect of this helminth therapy. We suggest that any intention-to-treat with helminth therapy should be based on the characterization of the patient’s immunological and microbiological response to the helminth.https://doi.org/10.1186/s40168-021-01146-2 |