Innate Recognition of the Microbiota by TLR1 Promotes Epithelial Homeostasis and Prevents Chronic Inflammation [MUCOSAL IMMUNOLOGY]
Kamdar, K., Johnson, A. M. F., Chac, D., Myers, K., Kulur, V., Truevillian, K., De; Paolo, R. W.
The American Association of Immunologists (AAI)
Published 2018
The American Association of Immunologists (AAI)
Published 2018
| Publication Date: |
2018-06-19
|
|---|---|
| Publisher: |
The American Association of Immunologists (AAI)
|
| Print ISSN: |
0022-1767
|
| Electronic ISSN: |
1550-6606
|
| Topics: |
Medicine
|
| Published by: |
| _version_ | 1836398976841023488 |
|---|---|
| autor | Kamdar, K., Johnson, A. M. F., Chac, D., Myers, K., Kulur, V., Truevillian, K., De; Paolo, R. W. |
| beschreibung | There is cross-talk between the intestinal epithelium and the microbiota that functions to maintain a tightly regulated microenvironment and prevent chronic inflammation. This communication is partly mediated through the recognition of bacterial proteins by host-encoded innate receptors, such as TLRs. However, studies examining the role of TLR signaling on colonic homeostasis have given variable and conflicting results. Despite its critical role in mediating immunity during enteric infection of the small intestine, TLR1-mediated recognition of microbiota-derived ligands and their influence on colonic homeostasis has not been well studied. In this study, we demonstrate that defective TLR1 recognition of the microbiome by epithelial cells results in disruption of crypt homeostasis specifically within the secretory cell compartment, including a defect in the mucus layer, ectopic Paneth cells in the colon, and an increase in the number of rapidly dividing cells at the base of the crypt. As a consequence of the perturbed epithelial barrier, we found an increase in mucosal-associated and translocated commensal bacteria and chronic low-grade inflammation characterized by an increase in lineage-negative Sca1 + Thy1 hi innate lymphoid-like cells that exacerbate inflammation and worsen outcomes in a model of colonic injury and repair. Our findings demonstrate that sensing of the microbiota by TLR1 may provide key signals that regulate the colonic epithelium, thereby limiting inflammation through the prevention of bacterial attachment to the mucosa and exposure to the underlying immune system. |
| citation_standardnr | 6286807 |
| datenlieferant | ipn_articles |
| feed_id | 333 |
| feed_publisher | The American Association of Immunologists (AAI) |
| feed_publisher_url | http://www.aai.org/ |
| insertion_date | 2018-06-19 |
| journaleissn | 1550-6606 |
| journalissn | 0022-1767 |
| publikationsjahr_anzeige | 2018 |
| publikationsjahr_facette | 2018 |
| publikationsjahr_intervall | 7984:2015-2019 |
| publikationsjahr_sort | 2018 |
| publisher | The American Association of Immunologists (AAI) |
| quelle | Journal of Immunology |
| relation | http://www.jimmunol.org/cgi/content/short/201/1/230?rss=1 |
| search_space | articles |
| shingle_author_1 | Kamdar, K., Johnson, A. M. F., Chac, D., Myers, K., Kulur, V., Truevillian, K., De; Paolo, R. W. |
| shingle_author_2 | Kamdar, K., Johnson, A. M. F., Chac, D., Myers, K., Kulur, V., Truevillian, K., De; Paolo, R. W. |
| shingle_author_3 | Kamdar, K., Johnson, A. M. F., Chac, D., Myers, K., Kulur, V., Truevillian, K., De; Paolo, R. W. |
| shingle_author_4 | Kamdar, K., Johnson, A. M. F., Chac, D., Myers, K., Kulur, V., Truevillian, K., De; Paolo, R. W. |
| shingle_catch_all_1 | Innate Recognition of the Microbiota by TLR1 Promotes Epithelial Homeostasis and Prevents Chronic Inflammation [MUCOSAL IMMUNOLOGY] There is cross-talk between the intestinal epithelium and the microbiota that functions to maintain a tightly regulated microenvironment and prevent chronic inflammation. This communication is partly mediated through the recognition of bacterial proteins by host-encoded innate receptors, such as TLRs. However, studies examining the role of TLR signaling on colonic homeostasis have given variable and conflicting results. Despite its critical role in mediating immunity during enteric infection of the small intestine, TLR1-mediated recognition of microbiota-derived ligands and their influence on colonic homeostasis has not been well studied. In this study, we demonstrate that defective TLR1 recognition of the microbiome by epithelial cells results in disruption of crypt homeostasis specifically within the secretory cell compartment, including a defect in the mucus layer, ectopic Paneth cells in the colon, and an increase in the number of rapidly dividing cells at the base of the crypt. As a consequence of the perturbed epithelial barrier, we found an increase in mucosal-associated and translocated commensal bacteria and chronic low-grade inflammation characterized by an increase in lineage-negative Sca1 + Thy1 hi innate lymphoid-like cells that exacerbate inflammation and worsen outcomes in a model of colonic injury and repair. Our findings demonstrate that sensing of the microbiota by TLR1 may provide key signals that regulate the colonic epithelium, thereby limiting inflammation through the prevention of bacterial attachment to the mucosa and exposure to the underlying immune system. Kamdar, K., Johnson, A. M. F., Chac, D., Myers, K., Kulur, V., Truevillian, K., De; Paolo, R. W. The American Association of Immunologists (AAI) 0022-1767 00221767 1550-6606 15506606 |
| shingle_catch_all_2 | Innate Recognition of the Microbiota by TLR1 Promotes Epithelial Homeostasis and Prevents Chronic Inflammation [MUCOSAL IMMUNOLOGY] There is cross-talk between the intestinal epithelium and the microbiota that functions to maintain a tightly regulated microenvironment and prevent chronic inflammation. This communication is partly mediated through the recognition of bacterial proteins by host-encoded innate receptors, such as TLRs. However, studies examining the role of TLR signaling on colonic homeostasis have given variable and conflicting results. Despite its critical role in mediating immunity during enteric infection of the small intestine, TLR1-mediated recognition of microbiota-derived ligands and their influence on colonic homeostasis has not been well studied. In this study, we demonstrate that defective TLR1 recognition of the microbiome by epithelial cells results in disruption of crypt homeostasis specifically within the secretory cell compartment, including a defect in the mucus layer, ectopic Paneth cells in the colon, and an increase in the number of rapidly dividing cells at the base of the crypt. As a consequence of the perturbed epithelial barrier, we found an increase in mucosal-associated and translocated commensal bacteria and chronic low-grade inflammation characterized by an increase in lineage-negative Sca1 + Thy1 hi innate lymphoid-like cells that exacerbate inflammation and worsen outcomes in a model of colonic injury and repair. Our findings demonstrate that sensing of the microbiota by TLR1 may provide key signals that regulate the colonic epithelium, thereby limiting inflammation through the prevention of bacterial attachment to the mucosa and exposure to the underlying immune system. Kamdar, K., Johnson, A. M. F., Chac, D., Myers, K., Kulur, V., Truevillian, K., De; Paolo, R. W. The American Association of Immunologists (AAI) 0022-1767 00221767 1550-6606 15506606 |
| shingle_catch_all_3 | Innate Recognition of the Microbiota by TLR1 Promotes Epithelial Homeostasis and Prevents Chronic Inflammation [MUCOSAL IMMUNOLOGY] There is cross-talk between the intestinal epithelium and the microbiota that functions to maintain a tightly regulated microenvironment and prevent chronic inflammation. This communication is partly mediated through the recognition of bacterial proteins by host-encoded innate receptors, such as TLRs. However, studies examining the role of TLR signaling on colonic homeostasis have given variable and conflicting results. Despite its critical role in mediating immunity during enteric infection of the small intestine, TLR1-mediated recognition of microbiota-derived ligands and their influence on colonic homeostasis has not been well studied. In this study, we demonstrate that defective TLR1 recognition of the microbiome by epithelial cells results in disruption of crypt homeostasis specifically within the secretory cell compartment, including a defect in the mucus layer, ectopic Paneth cells in the colon, and an increase in the number of rapidly dividing cells at the base of the crypt. As a consequence of the perturbed epithelial barrier, we found an increase in mucosal-associated and translocated commensal bacteria and chronic low-grade inflammation characterized by an increase in lineage-negative Sca1 + Thy1 hi innate lymphoid-like cells that exacerbate inflammation and worsen outcomes in a model of colonic injury and repair. Our findings demonstrate that sensing of the microbiota by TLR1 may provide key signals that regulate the colonic epithelium, thereby limiting inflammation through the prevention of bacterial attachment to the mucosa and exposure to the underlying immune system. Kamdar, K., Johnson, A. M. F., Chac, D., Myers, K., Kulur, V., Truevillian, K., De; Paolo, R. W. The American Association of Immunologists (AAI) 0022-1767 00221767 1550-6606 15506606 |
| shingle_catch_all_4 | Innate Recognition of the Microbiota by TLR1 Promotes Epithelial Homeostasis and Prevents Chronic Inflammation [MUCOSAL IMMUNOLOGY] There is cross-talk between the intestinal epithelium and the microbiota that functions to maintain a tightly regulated microenvironment and prevent chronic inflammation. This communication is partly mediated through the recognition of bacterial proteins by host-encoded innate receptors, such as TLRs. However, studies examining the role of TLR signaling on colonic homeostasis have given variable and conflicting results. Despite its critical role in mediating immunity during enteric infection of the small intestine, TLR1-mediated recognition of microbiota-derived ligands and their influence on colonic homeostasis has not been well studied. In this study, we demonstrate that defective TLR1 recognition of the microbiome by epithelial cells results in disruption of crypt homeostasis specifically within the secretory cell compartment, including a defect in the mucus layer, ectopic Paneth cells in the colon, and an increase in the number of rapidly dividing cells at the base of the crypt. As a consequence of the perturbed epithelial barrier, we found an increase in mucosal-associated and translocated commensal bacteria and chronic low-grade inflammation characterized by an increase in lineage-negative Sca1 + Thy1 hi innate lymphoid-like cells that exacerbate inflammation and worsen outcomes in a model of colonic injury and repair. Our findings demonstrate that sensing of the microbiota by TLR1 may provide key signals that regulate the colonic epithelium, thereby limiting inflammation through the prevention of bacterial attachment to the mucosa and exposure to the underlying immune system. Kamdar, K., Johnson, A. M. F., Chac, D., Myers, K., Kulur, V., Truevillian, K., De; Paolo, R. W. The American Association of Immunologists (AAI) 0022-1767 00221767 1550-6606 15506606 |
| shingle_title_1 | Innate Recognition of the Microbiota by TLR1 Promotes Epithelial Homeostasis and Prevents Chronic Inflammation [MUCOSAL IMMUNOLOGY] |
| shingle_title_2 | Innate Recognition of the Microbiota by TLR1 Promotes Epithelial Homeostasis and Prevents Chronic Inflammation [MUCOSAL IMMUNOLOGY] |
| shingle_title_3 | Innate Recognition of the Microbiota by TLR1 Promotes Epithelial Homeostasis and Prevents Chronic Inflammation [MUCOSAL IMMUNOLOGY] |
| shingle_title_4 | Innate Recognition of the Microbiota by TLR1 Promotes Epithelial Homeostasis and Prevents Chronic Inflammation [MUCOSAL IMMUNOLOGY] |
| timestamp | 2025-06-30T23:35:38.515Z |
| titel | Innate Recognition of the Microbiota by TLR1 Promotes Epithelial Homeostasis and Prevents Chronic Inflammation [MUCOSAL IMMUNOLOGY] |
| titel_suche | Innate Recognition of the Microbiota by TLR1 Promotes Epithelial Homeostasis and Prevents Chronic Inflammation [MUCOSAL IMMUNOLOGY] |
| topic | WW-YZ |
| uid | ipn_articles_6286807 |