Gut-Innervating Nociceptor Neurons Regulate Peyer's Patch Microfold Cells and SFB Levels to Mediate Salmonella Host Defense

Citation:

Nicole Y Lai, Melissa A Musser, Felipe A Pinho-Ribeiro, Pankaj Baral, Amanda Jacobson, Pingchuan Ma, David E Potts, Zuojia Chen, Donggi Paik, Salima Soualhi, Yiqing Yan, Aditya Misra, Kaitlin Goldstein, Valentina N Lagomarsino, Anja Nordstrom, Kisha N Sivanathan, Antonia Wallrapp, Vijay K Kuchroo, Roni Nowarski, Michael N Starnbach, Hailian Shi, Neeraj K Surana, Dingding An, Chuan Wu, Jun R Huh, Meenakshi Rao, and Isaac M Chiu. 2020. “Gut-Innervating Nociceptor Neurons Regulate Peyer's Patch Microfold Cells and SFB Levels to Mediate Salmonella Host Defense.” Cell, 180, 1, Pp. 33-49.e22. Copy at http://www.tinyurl.com/y3glb3qo
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Abstract:

 

Gut-innervating nociceptor sensory neurons respond to noxious stimuli by initiating protective responses including pain and inflammation; however, their role in enteric infections is unclear. Here, we find that nociceptor neurons critically mediate host defense against the bacterial pathogen Salmonella enterica serovar Typhimurium (STm). Dorsal root ganglia nociceptors protect against STm colonization, invasion, and dissemination from the gut. Nociceptors regulate the density of microfold (M) cells in ileum Peyer's patch (PP) follicle-associated epithelia (FAE) to limit entry points for STm invasion. Downstream of M cells, nociceptors maintain levels of segmentous filamentous bacteria (SFB), a gut microbe residing on ileum villi and PP FAE that mediates resistance to STm infection. TRPV1+ nociceptors directly respond to STm by releasing calcitonin gene-related peptide (CGRP), a neuropeptide that modulates M cells and SFB levels to protect against Salmonella infection. These findings reveal a major role for nociceptor neurons in sensing and defending against enteric pathogens.

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Last updated on 01/05/2021