Savannah L. Logan scite author profile

The gut microbiota is a complex consortium of microorganisms with the ability to influence important aspects of host health and development. Harnessing this “microbial organ” for biomedical applications requires clarifying the degree to which host and bacterial factors act alone or in combination to govern the stability of specific lineages. To address this issue, we combined bacteriological manipulation and light sheet fluorescence microscopy to monitor the dynamics of a defined two-species microbiota within a vertebrate gut. We observed that the interplay between each population and the gut environment produces distinct spatiotemporal patterns. As a consequence, one species dominates while the other experiences sudden drops in abundance that are well fit by a stochastic mathematical model. Modeling revealed that direct bacterial competition could only partially explain the observed phenomena, suggesting that a host factor is also important in shaping the community. We hypothesized the host determinant to be gut motility, and tested this mechanism by measuring colonization in hosts with enteric nervous system dysfunction due to a mutation in the ret locus, which in humans is associated with the intestinal motility disorder known as Hirschsprung disease. In mutant hosts we found reduced gut motility and, confirming our hypothesis, robust coexistence of both bacterial species. This study provides evidence that host-mediated spatial structuring and stochastic perturbation of communities can drive bacterial population dynamics within the gut, and it reveals a new facet of the intestinal host–microbe interface by demonstrating the capacity of the enteric nervous system to influence the microbiota. Ultimately, these findings suggest that therapeutic strategies targeting the intestinal ecosystem should consider the dynamic physical nature of the gut environment.

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The Vibrio cholerae type VI secretion system can modulate host intestinal mechanics to displace gut bacterial symbionts

Logan

Thomas

Yan

et al. 2018

Proc. Natl. Acad. Sci. U.S.A.

156

140

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Host-associated microbiota help defend against bacterial pathogens; however, the mechanisms by which pathogens overcome this defense remain largely unknown. We developed a zebrafish model and used live imaging to directly study how the human pathogen invades the intestine. The gut microbiota of fish monocolonized by symbiotic strain was displaced by expressing its type VI secretion system (T6SS), a syringe-like apparatus that deploys effector proteins into target cells. Surprisingly, displacement was independent of T6SS-mediated killing of, driven instead by T6SS-induced enhancement of zebrafish intestinal movements that led to expulsion of the resident microbiota by the host. Deleting an actin cross-linking domain from the T6SS apparatus returned intestinal motility to normal and thwarted expulsion, without weakening 's ability to kill in vitro. Our finding that bacteria can manipulate host physiology to influence intermicrobial competition has implications for both pathogenesis and microbiome engineering.

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Automated high-throughput light-sheet fluorescence microscopy of larval zebrafish

et al. 2018

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Light sheet fluorescence microscopy enables fast, minimally phototoxic, three-dimensional imaging of live specimens, but is currently limited by low throughput and tedious sample preparation. Here, we describe an automated high-throughput light sheet fluorescence microscope in which specimens are positioned by and imaged within a fluidic system integrated with the sheet excitation and detection optics. We demonstrate the ability of the instrument to rapidly examine live specimens with minimal manual intervention by imaging fluorescent neutrophils over a nearly 0.3 mm3 volume in dozens of larval zebrafish. In addition to revealing considerable inter-individual variability in neutrophil number, known previously from labor-intensive methods, three-dimensional imaging allows assessment of the correlation between the bulk measure of total cellular fluorescence and the spatially resolved measure of actual neutrophil number per animal. We suggest that our simple experimental design should considerably expand the scope and impact of light sheet imaging in the life sciences.

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Faculty perception insights obtained from faculty interviews during the development of the Perceptions of Teaching as a Profession in Higher Education (PTaP.HE) instrument

Pearson¹,

Logan²,

Adams³

2020

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Results from the Perceptions of Teaching as a Profession (PTaP) instrument-which measures views students have of the grade 7-12 teaching career-prompted the development of a parallel instrument to measure the perceptions of the grade 7-12 teaching profession in the eyes of those advising and influencing student opinions of the profession: the faculty. Thirty faculty interviews were conducted across four different institutions of higher education as part of the development of the Perceptions of Teaching as a Profession in Higher Education (PTaP.HE) instrument, which investigates faculty opinions, accuracy of information, and thoughts regarding grade 7-12 teaching. The instrument measures the perceived supportive (or unsupportive) nature of a department towards the teaching profession, guide teacher preparation organizations on how to approach faculty, and correlate students' perceptions with their influencers. Faculty interviews verified statement interpretation consistency, while also providing anecdotal insights into faculty views.

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TheVibrio choleraeType VI Secretion System Can Modulate Host Intestinal Mechanics to Displace Commensal Gut Bacteria

Logan¹,

Thomas²,

Yan³

et al. 2017

Preprint

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Host-associated microbiota help defend against bacterial pathogens; the mechanisms that pathogens possess to overcome this defense, however, remain largely unknown. We developed a zebrafish model and used live imaging to directly study how the human pathogen Vibrio cholerae invades the intestine. The gut microbiota of fish mono-colonized by commensal strain Aeromonas veronii was displaced by V. cholerae expressing its Type VI Secretion System (T6SS), a syringe-like apparatus that deploys effector proteins into target cells. Surprisingly, displacement was independent of T6SS-mediated killing of Aeromonas, driven instead by T6SS-induced enhancement of zebrafish intestinal movements that led to expulsion of the resident commensal by the host. Deleting an actin crosslinking domain from the T6SS apparatus returned intestinal motility to normal and thwarted expulsion, without weakening V. cholerae's ability to kill Aeromonas in vitro. Our finding that bacteria can manipulate host physiology to influence inter-microbial competition has implications for both pathogenesis and microbiome engineering.

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Savannah L. Logan

Host Gut Motility Promotes Competitive Exclusion within a Model Intestinal Microbiota

The Vibrio cholerae type VI secretion system can modulate host intestinal mechanics to displace gut bacterial symbionts

Automated high-throughput light-sheet fluorescence microscopy of larval zebrafish

Faculty perception insights obtained from faculty interviews during the development of the Perceptions of Teaching as a Profession in Higher Education (PTaP.HE) instrument

TheVibrio choleraeType VI Secretion System Can Modulate Host Intestinal Mechanics to Displace Commensal Gut Bacteria

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