Mucosal Landscape of the Gut: Development and Application of 3D Imaging Tools for Interrogation of Host-Microbe Mucosal Interface in Mice and Humans

<p>Mammalian gastrointestinal tract is inhabited by trillions of microbes that, in number, amount to the total number of cells in the human body. These microbes, collectively known as microbiota, are found on the skin and in body cavities, and come in close contact with the host on mucosal sur...

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Main Author: Poceviciute, Roberta
Format: Others
Language:en
Published: 2021
Online Access:https://thesis.library.caltech.edu/13861/30/Caltech-Thesis-Poceviciute-2020-v6.pdf
Poceviciute, Roberta (2021) Mucosal Landscape of the Gut: Development and Application of 3D Imaging Tools for Interrogation of Host-Microbe Mucosal Interface in Mice and Humans. Dissertation (Ph.D.), California Institute of Technology. doi:10.7907/83t8-mv42. https://resolver.caltech.edu/CaltechTHESIS:09012020-121925511 <https://resolver.caltech.edu/CaltechTHESIS:09012020-121925511>
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spelling ndltd-CALTECH-oai-thesis.library.caltech.edu-138612021-11-02T05:01:44Z https://thesis.library.caltech.edu/13861/ Mucosal Landscape of the Gut: Development and Application of 3D Imaging Tools for Interrogation of Host-Microbe Mucosal Interface in Mice and Humans Poceviciute, Roberta <p>Mammalian gastrointestinal tract is inhabited by trillions of microbes that, in number, amount to the total number of cells in the human body. These microbes, collectively known as microbiota, are found on the skin and in body cavities, and come in close contact with the host on mucosal surfaces. Here, pivotal host-microbe interactions likely take place because close proximity to the host enhances the uptake of microbial metabolites by the host and enables direct contact. To aid the investigation of these interactions, we developed an imaging technology that preserves fragile mucosal structure, enables to explore large areas of mucosal surface, and image the structurally and biochemically complex host-microbe interface in 3D in a mouse. However, 3D imaging presents challenges, such as slow transport of large molecular weight reagents and low signal/background ratio at depth, and these challenges are further exacerbated in particularly thick samples, such as small intestinal samples with long finger-like villus protrusions and thick human gut samples. Therefore, we further advanced our technology to improve sensitivity and specificity at depth, and we have taken steps to translate our technology to precious resected human gut samples from inflammatory bowel disease patients. Finally, we applied these tools to interrogate <i>Enterobacteriaceae – Bacteroidaceae</i> interactions in the small intestine of a mouse weakened by malnutrition. Using complementary tools, we have first determined that <i>Bacteroidaceae</i> required malnutrition to increase in number in the jejunum digesta, whereas <i>Enterobacteriaceae</i> required both malnutrition and <i>Bacteroidaceae</i>. With imaging, we visualized that in malnourished mice not exposed to <i>Enterobacteriaceae</i> and <i>Bacteroidaceae</i>, bacteria were effectively cleared after digesta passage, whereas in exposed mice bacterial retention was detected, suggestive of bacterial adherence to and colonization of mucosa. Finally, we detected a rare event of abundant bacterial colonization of small intestinal mucosa and captured in 3D.</p> 2021 Thesis NonPeerReviewed application/pdf en other https://thesis.library.caltech.edu/13861/30/Caltech-Thesis-Poceviciute-2020-v6.pdf Poceviciute, Roberta (2021) Mucosal Landscape of the Gut: Development and Application of 3D Imaging Tools for Interrogation of Host-Microbe Mucosal Interface in Mice and Humans. Dissertation (Ph.D.), California Institute of Technology. doi:10.7907/83t8-mv42. https://resolver.caltech.edu/CaltechTHESIS:09012020-121925511 <https://resolver.caltech.edu/CaltechTHESIS:09012020-121925511> https://resolver.caltech.edu/CaltechTHESIS:09012020-121925511 CaltechTHESIS:09012020-121925511 10.7907/83t8-mv42
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description <p>Mammalian gastrointestinal tract is inhabited by trillions of microbes that, in number, amount to the total number of cells in the human body. These microbes, collectively known as microbiota, are found on the skin and in body cavities, and come in close contact with the host on mucosal surfaces. Here, pivotal host-microbe interactions likely take place because close proximity to the host enhances the uptake of microbial metabolites by the host and enables direct contact. To aid the investigation of these interactions, we developed an imaging technology that preserves fragile mucosal structure, enables to explore large areas of mucosal surface, and image the structurally and biochemically complex host-microbe interface in 3D in a mouse. However, 3D imaging presents challenges, such as slow transport of large molecular weight reagents and low signal/background ratio at depth, and these challenges are further exacerbated in particularly thick samples, such as small intestinal samples with long finger-like villus protrusions and thick human gut samples. Therefore, we further advanced our technology to improve sensitivity and specificity at depth, and we have taken steps to translate our technology to precious resected human gut samples from inflammatory bowel disease patients. Finally, we applied these tools to interrogate <i>Enterobacteriaceae – Bacteroidaceae</i> interactions in the small intestine of a mouse weakened by malnutrition. Using complementary tools, we have first determined that <i>Bacteroidaceae</i> required malnutrition to increase in number in the jejunum digesta, whereas <i>Enterobacteriaceae</i> required both malnutrition and <i>Bacteroidaceae</i>. With imaging, we visualized that in malnourished mice not exposed to <i>Enterobacteriaceae</i> and <i>Bacteroidaceae</i>, bacteria were effectively cleared after digesta passage, whereas in exposed mice bacterial retention was detected, suggestive of bacterial adherence to and colonization of mucosa. Finally, we detected a rare event of abundant bacterial colonization of small intestinal mucosa and captured in 3D.</p>
author Poceviciute, Roberta
spellingShingle Poceviciute, Roberta
Mucosal Landscape of the Gut: Development and Application of 3D Imaging Tools for Interrogation of Host-Microbe Mucosal Interface in Mice and Humans
author_facet Poceviciute, Roberta
author_sort Poceviciute, Roberta
title Mucosal Landscape of the Gut: Development and Application of 3D Imaging Tools for Interrogation of Host-Microbe Mucosal Interface in Mice and Humans
title_short Mucosal Landscape of the Gut: Development and Application of 3D Imaging Tools for Interrogation of Host-Microbe Mucosal Interface in Mice and Humans
title_full Mucosal Landscape of the Gut: Development and Application of 3D Imaging Tools for Interrogation of Host-Microbe Mucosal Interface in Mice and Humans
title_fullStr Mucosal Landscape of the Gut: Development and Application of 3D Imaging Tools for Interrogation of Host-Microbe Mucosal Interface in Mice and Humans
title_full_unstemmed Mucosal Landscape of the Gut: Development and Application of 3D Imaging Tools for Interrogation of Host-Microbe Mucosal Interface in Mice and Humans
title_sort mucosal landscape of the gut: development and application of 3d imaging tools for interrogation of host-microbe mucosal interface in mice and humans
publishDate 2021
url https://thesis.library.caltech.edu/13861/30/Caltech-Thesis-Poceviciute-2020-v6.pdf
Poceviciute, Roberta (2021) Mucosal Landscape of the Gut: Development and Application of 3D Imaging Tools for Interrogation of Host-Microbe Mucosal Interface in Mice and Humans. Dissertation (Ph.D.), California Institute of Technology. doi:10.7907/83t8-mv42. https://resolver.caltech.edu/CaltechTHESIS:09012020-121925511 <https://resolver.caltech.edu/CaltechTHESIS:09012020-121925511>
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