Chromatin accessibility dynamics of<i>Chlamydia</i>-infected epithelial cells

Hayward, Regan J.; Marsh, J. Wallis; Humphrys, Michael S.; Huston, Wilhelmina M.; Myers, Garry S. A.

doi:10.1101/681999

Cited by 2 publications

(3 citation statements)

References 87 publications

(97 reference statements)

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“…As a result, many infection and disease processes at the cellular and tissue level remain largely unknown or poorly characterized in vivo . Gene expression profiling of Chlamydia -infected cells by microarray (Porcella et al, 2015), dual RNA-Seq (Humphrys et al, 2013; Marsh et al, 2018), or other genome-scale analyses (Hayward et al, 2019) are powerful techniques to help deconvolute these interactions and processes. However, these and similar genome-scale analyses of infected cells have typically been performed on bulk cell populations, i.e., infected cell monolayers in vitro , or selectively sorted/purified subsets of cell populations.…”

Section: Discussionmentioning

confidence: 99%

“…Clustering, pseudotime and cell state prediction analyses demonstrated that Chlamydia -treated cells at 3 h are readily distinguishable from Chlamydia -treated and mock-infected cells at 6 and 12 h. Curiously, cells at 6 and 12 h clustered together and could not be further deconvoluted from each other, possibly showing that host cell transcription at these times is broadly similar. A recent FAIRE-Seq analysis of Chlamydia -infected epithelial cells, examining patterns of host cell chromatin accessibility over the developmental cycle (Hayward et al, 2019), found that 12 h post-infection was relatively quiescent in terms of host cell transcriptional activity. This finding is reflected by our scRNA-Seq analyses here and may be extended to 6 h post-infection.…”

Section: Discussionmentioning

confidence: 99%

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Early Transcriptional Landscapes of Chlamydia trachomatis-Infected Epithelial Cells at Single Cell Resolution

Hayward

Marsh

Humphrys

et al. 2019

Front. Cell. Infect. Microbiol.

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Chlamydia are Gram-negative obligate intracellular bacterial pathogens responsible for a variety of disease in humans and animals worldwide. Chlamydia trachomatis causes trachoma in disadvantaged populations, and is the most common bacterial sexually transmitted infection in humans, causing reproductive tract disease. Antibiotic therapy successfully treats diagnosed chlamydial infections, however asymptomatic infections are common. High-throughput transcriptomic approaches have explored chlamydial gene expression and infected host cell gene expression. However, these were performed on large cell populations, averaging gene expression profiles across all cells sampled and potentially obscuring biologically relevant subsets of cells. We generated a pilot dataset, applying single cell RNA-Seq (scRNA-Seq) to C. trachomatis infected and mock-infected epithelial cells to assess the utility, pitfalls and challenges of single cell approaches applied to chlamydial biology, and to potentially identify early host cell biomarkers of chlamydial infection. Two hundred sixty-four time-matched C. trachomatis-infected and mock-infected HEp-2 cells were collected and subjected to scRNA-Seq. After quality control, 200 cells were retained for analysis. Two distinct clusters distinguished 3-h cells from 6- and 12-h. Pseudotime analysis identified a possible infection-specific cellular trajectory for Chlamydia-infected cells, while differential expression analyses found temporal expression of metallothioneins and genes involved with cell cycle regulation, innate immune responses, cytoskeletal components, lipid biosynthesis and cellular stress. We find that changes to the host cell transcriptome at early times of C. trachomatis infection are readily discernible by scRNA-Seq, supporting the utility of single cell approaches to identify host cell biomarkers of chlamydial infection, and to further deconvolute the complex host response to infection.

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Section: Discussionmentioning

confidence: 99%

Section: Discussionmentioning

confidence: 99%

Early Transcriptional Landscapes of Chlamydia trachomatis-Infected Epithelial Cells at Single Cell Resolution

Hayward

Marsh

Humphrys

et al. 2019

Front. Cell. Infect. Microbiol.

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“…Curiously, cells at 6 and 12 hours clustered together and could not be further deconvoluted from each other, showing that host cell transcription at these times is broadly similar. A recent FAIRE-Seq analysis of Chlamydia-infected epithelial cells, examining patterns of host cell chromatin accessibility over the developmental cycle[54], found that 12 hours post infection was relatively quiescent in terms of host cell transcriptional activity. This finding is reflected by our scRNA-Seq analyses here and may be extended to 6 hours post-infection.…”

mentioning

confidence: 99%

Early transcriptional landscapes ofChlamydia trachomatis-infected epithelial cells at single cell resolution

Hayward

Marsh

Humphrys

et al. 2019

Preprint

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Chlamydia are Gram-negative obligate intracellular bacterial pathogens responsible for a variety of disease in humans and animals worldwide. C. trachomatis causes trachoma (infectious blindness) in disadvantaged populations, and is the most common bacterial sexually transmitted infection in humans, causing reproductive tract disease. Antibiotic therapy successfully treats diagnosed chlamydial infections, however asymptomatic infections are common. Highthroughput transcriptomic approaches have explored chlamydial gene expression and infected host cell gene expression. However, these were performed on large cell populations, averaging gene expression profiles across all cells sampled and potentially obscuring biologically relevant subsets of cells. We generated a pilot dataset, applying single cell RNA-Seq (scRNA-Seq) to C. trachomatis infected and mock-infected epithelial cells to assess the utility of single cell approaches to identify early host cell biomarkers of chlamydial infection. 264 time-matched C. trachomatis-infected and mock-infected HEp-2 cells were collected and subjected to scRNA-Seq. After quality control, 200 cells were retained for analysis. Two distinct clusters distinguished 3-hour cells from 6-and 12-hours. Pseudotime analysis identified a possible infection-specific cellular trajectory for Chlamydia-infected cells, while differential expression analyses found temporal expression of metallothioneins and genes involved with cell cycle regulation, innate immune responses, cytoskeletal components, lipid biosynthesis and cellular stress. Changes to the host cell transcriptome at early times of C. trachomatis infection are readily discernible by scRNA-Seq, supporting the utility of single cell approaches to identify host cell biomarkers of chlamydial infection, and to further deconvolute the complex host response to infection.

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Chromatin accessibility dynamics ofChlamydia-infected epithelial cells

Cited by 2 publications

References 87 publications

Early Transcriptional Landscapes of Chlamydia trachomatis-Infected Epithelial Cells at Single Cell Resolution

Early Transcriptional Landscapes of Chlamydia trachomatis-Infected Epithelial Cells at Single Cell Resolution

Early transcriptional landscapes ofChlamydia trachomatis-infected epithelial cells at single cell resolution

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