Author response: Site-specific glycosylation regulates the form and function of the intermediate filament cytoskeleton

Tarbet, Heather J; Dolat, Lee; Smith, Timothy J.; Condon, Brett M; Valdivia, Raphael H.; Boyce, Michael

doi:10.7554/elife.31807.025

2018

DOI: 10.7554/elife.31807.025

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Author response: Site-specific glycosylation regulates the form and function of the intermediate filament cytoskeleton

Heather J Tarbet

Lee Dolat

Timothy J. Smith

et al.

Abstract: Intermediate filaments (IF) are a major component of the metazoan cytoskeleton and are essential for normal cell morphology, motility, and signal transduction. Dysregulation of IFs causes a wide range of human diseases, including skin disorders, cardiomyopathies, lipodystrophy, and neuropathy. Despite this pathophysiological significance, how cells regulate IF structure, dynamics, and function remains poorly understood. Here, we show that site-specific modification of the prototypical IF protein vimentin with … Show more

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An endometrial organoid model ofChlamydia-epithelial and immune cell interactions

Dolat

Valdivia

2020

Preprint

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Our understanding of how the obligate intracellular bacterium Chlamydia trachomatis reprograms the cell biology of host cells in the upper genital tract is largely based on observations made in cell culture with transformed epithelial cell lines. Here we describe a primary spherical organoid system derived from endometrial tissue to recapitulate epithelial cell diversity, polarity, and ensuing responses to Chlamydia infection. Using high-resolution and time-lapse microscopy, we catalogue the infection process in organoids from invasion to egress, including the reorganization of the cytoskeleton and positioning of intracellular organelles. We show this model is amenable to screening C. trachomatis mutants for defects in the fusion of pathogenic vacuoles, the recruitment of intracellular organelles, and inhibition of cell death. Moreover, we reconstructed a primary immune cell response by co-culturing infected organoids with neutrophils, and determined that the effector TepP limits the recruitment of neutrophils to infected organoids. Collectively, our model details a system to study the cell biology of Chlamydia infections in three dimensional structures that better reflect the diversity of cell types and polarity encountered by Chlamydia upon infection of their animal hosts.Summary statement3D endometrial organoids to model Chlamydia infection and the role of secreted virulence factors in reprogramming host epithelial cells and immune cell recruitment

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An endometrial organoid model ofChlamydia-epithelial and immune cell interactions

Dolat

Valdivia

2020

Preprint

Self Cite

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Author response: Site-specific glycosylation regulates the form and function of the intermediate filament cytoskeleton

Cited by 1 publication

References 0 publications

An endometrial organoid model ofChlamydia-epithelial and immune cell interactions

An endometrial organoid model ofChlamydia-epithelial and immune cell interactions

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