Flagella at the Host-Microbe Interface: Key Functions Intersect With Redundant Responses

Flagella at the Host-Microbe Interface: Key Functions Intersect With Redundant Responses

Many bacteria and other microbes achieve locomotion flagella, which are organelles that function as a swimming motor. Depending on the environment, flagellar motility can serve a variety of beneficial functions and confer a fitness advantage. For example, within a mammalian host, flagellar motility...

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Bibliographic Details
Published in:Frontiers in immunology Vol. 13; p. 828758
Main Authors: Akahoshi, Douglas T, Bevins, Charles L
Format: Journal Article
Language:English
Published: Switzerland Frontiers Media S.A 24-03-2022
Subjects:
Animals
Bacteria
DEFA6
Flagella - physiology
Flagellin
fliC
goblet cell
IBD
Immunology
Locomotion
LYPD8
Mammals
Microbiota
ZG16
fliC
IgA
DEFA6
goblet cell
IBD
ZG16
TLR5
LYPD8
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Summary:Many bacteria and other microbes achieve locomotion flagella, which are organelles that function as a swimming motor. Depending on the environment, flagellar motility can serve a variety of beneficial functions and confer a fitness advantage. For example, within a mammalian host, flagellar motility can provide bacteria the ability to resist clearance by flow, facilitate access to host epithelial cells, and enable travel to nutrient niches. From the host's perspective, the mobility that flagella impart to bacteria can be associated with harmful activities that can disrupt homeostasis, such as invasion of epithelial cells, translocation across epithelial barriers, and biofilm formation, which ultimately can decrease a host's reproductive fitness from a perspective of natural selection. Thus, over an evolutionary timescale, the host developed a repertoire of innate and adaptive immune countermeasures that target and mitigate this microbial threat. These countermeasures are wide-ranging and include structural components of the mucosa that maintain spatial segregation of bacteria from the epithelium, mechanisms of molecular recognition and inducible responses to flagellin, and secreted effector molecules of the innate and adaptive immune systems that directly inhibit flagellar motility. While much of our understanding of the dynamics of host-microbe interaction regarding flagella is derived from studies of enteric bacterial pathogens where flagella are a recognized virulence factor, newer studies have delved into host interaction with flagellated members of the commensal microbiota during homeostasis. Even though many aspects of flagellar motility may seem innocuous, the host's redundant efforts to stop bacteria in their tracks highlights the importance of this host-microbe interaction.
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Edited by: Wenkai Ren, South China Agricultural University, China
Reviewed by: Pengpeng Xia, Yangzhou University, China; Mingxu Zhou, Jiangsu Academy of Agricultural Sciences (JAAS), China; Miaomiao Wu, Hunan Agricultural University, China
This article was submitted to Nutritional Immunology, a section of the journal Frontiers in Immunology
ISSN:1664-3224
1664-3224
DOI:10.3389/fimmu.2022.828758