Rolling-circle replication of bacterial plasmids

Retinal infection is the most common clinical manifestation of toxoplasmosis. The route by which circulating Toxoplasma gondii tachyzoites cross the vascular endothelium to enter the human retina is unknown. Convincing studies using murine encephalitis models have strongly implicated leukocyte taxis as one pathway used by the parasite to access target organs. To establish whether tachyzoites might also interact directly with vascular endothelium, we populated a transwell system with human ocular endothelial cells. Human retinal endothelial monolayers permitted transmigration of tachyzoites of RH and three natural isolate strains. Antibody blockade of intercellular adhesion molecule-1 significantly reduced this migration, but did not impact tachyzoite movement across an endothelial monolayer derived from the choroid, which lies adjacent to the retina within the eye. In demonstrating that tachyzoites are capable of independent migration across human vascular endothelium in vitro, this study carries implications for the development of therapeutics aimed at preventing access of tachyzoites to the retina.

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Retinal Pigment Epithelial Cells are a Potential Reservoir for Ebola Virus in the Human Eye

Smith

Todd

Ashander

et al. 2017

Trans. Vis. Sci. Tech.

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PurposeSuccess of Ebola virus (EBOV) as a human pathogen relates at the molecular level primarily to blockade the host cell type I interferon (IFN) antiviral response. Most individuals who survive Ebola virus disease (EVD) develop a chronic disease syndrome: approximately one-quarter of survivors suffer from uveitis, which has been associated with presence of EBOV within the eye. Clinical observations of post-Ebola uveitis indicate involvement of retinal pigment epithelial cells.MethodsWe inoculated ARPE-19 human retinal pigment epithelial cells with EBOV, and followed course of infection by immunocytochemistry and measurement of titer in culture supernatant. To interrogate transcriptional responses of infected cells, we combined RNA sequencing with in silico pathway, gene ontology, transcription factor binding site, and network analyses. We measured infection-induced changes of selected transcripts by reverse transcription-quantitative polymerase chain reaction.ResultsHuman retinal pigment epithelial cells were permissive to infection with EBOV, and supported viral replication and release of virus in high titer. Unexpectedly, 28% of 560 upregulated transcripts in EBOV-infected cells were type I IFN responsive, indicating a robust type I IFN response. Following EBOV infection, cells continued to express multiple immunomodulatory molecules linked to ocular immune privilege.ConclusionsHuman retinal pigment epithelial cells may serve as an intraocular reservoir for EBOV, and the molecular response of infected cells may contribute to the persistence of live EBOV within the human eye.Translational RelevanceThis bedside-to-bench research links ophthalmic findings in survivors of EVD who suffer from uveitis with interactions between retinal pigment epithelial cells and EBOV.

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Pathogenesis of ocular toxoplasmosis

Smith

Ashander

Arruda

et al. 2021

Progress in Retinal and Eye Research

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Migration ofToxoplasma gondii–Infected Dendritic Cells across Human Retinal Vascular Endothelium

Furtado¹,

Bharadwaj²,

Ashander³

et al. 2012

Invest. Ophthalmol. Vis. Sci.

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Liam M. Ashander

Toxoplasma gondii tachyzoites cross retinal endothelium assisted by intercellular adhesion molecule‐1 in vitro

Retinal Pigment Epithelial Cells are a Potential Reservoir for Ebola Virus in the Human Eye

Pathogenesis of ocular toxoplasmosis

Migration ofToxoplasma gondii–Infected Dendritic Cells across Human Retinal Vascular Endothelium

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