Bacterial keratitis caused by Pseudomonas aeruginosa is a destructive disease of cornea.Pseudomonas keratitis progresses rapidly and leads to vision loss if untreated. Even with adequate treatment, many patients show poor visual outcomes. The virulence factors or multiple drug-resistant (MDR) mechanisms of the ocular strains responsible for poor clinical outcomes remain largely unknown. Here, we performed whole-genome sequencing of five P. aeruginosa strains cultured from corneal scrapings of the healed and corneal buttons of the poor outcome keratitis patients. We investigated the distribution of virulence factors, resistance genes and resistance-associated mutations, the efflux-pump system in all five genomes, and as groups between poor and good clinical outcome as well as MDR vs. non-MDR. We detected several resistance genes and mutations associated with drug resistance in MDR groups; however, a large number of virulence genes were detected in all our genomes. Among the virulence genes, exoU and exoS exotoxin of the Type III secretion system detected in MDR and non-MDR strains, respectively, considered as main virulence contributors of keratitis pathogenesis. Despite this fact, this study did not show an association between MDR with exoU and poor clinical outcomes. However, strain-specific resistance and virulence genes were observed in this study, suggesting their role in the clinical outcome. Mainly, the flagellar genes fliC and fliD, reported to altering the host immune response, might impact the clinical outcome.This comparative study may provide new insights into the genome of ocular strains and requires further functional studies.
The genome-wide gene expression analysis of primary human trabecular meshwork (HTM) cells with known glucocorticoid (GC) responsiveness was not reported earlier. Therefore, the purpose of this study was to investigate genes and pathways involved in the GC responsiveness in human trabecular meshwork (HTM) cells using RNA sequencing. A perfusion cultured human anterior segment ex vivo model was utilized to identify the induction of GC-induced ocular hypertension in one eye of a paired eyes after dexamethasone treatment based on the maximum intraocular pressure response and in the contralateral eye, HTM cells were isolated to classify GC-responder and non-responder cells. Some previously reported and unique genes and their associated pathways were identified in HTM cells in response to dexamethasone treatment versus vehicle control and more significantly in GC-responder and non-responder cells. This study will open up the possibility of identifying suitable molecular targets which have the potential to treat GC-induced ocular hypertension/glaucoma.
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