Retinal scRNAseq reveals cell-type-specific responses to bacterial infection

PurposeEndophthalmitis is a serious complication of intraocular surgery due to the risk of irreversible retinal damage. Because retinal cell populations are highly heterogenous, single-cell resolution is required to uncover the detailed mechanisms of infection response. Using a mouse model of bacterial endophthalmitis, we investigated transcriptional changes across resident and infiltrating cell types in the retina. MethodsA methicillin-sensitive strain of Staphylococcus aureus was isolated from a patient with endophthalmitis. Adult C57Bl/6J mice received an intravitreal injection of phosphate-buffer solution (PBS) with or without 5000 CFU S. aureus (n=3 per group). 24 hours later, retinas were isolated and single-cell suspensions were sent to the Penn Genomic Core for sequencing with an Illumina NovaSeq 6000. After standard pre-processing of the data, differential genes and pathways were identified for each cell type (adjusted p < 0.01, log2FC > 1 or < -1). ResultsOur analysis identified all expected retinal cell types, including a population of infiltrating neutrophils in the infected retinas. We surveyed genes known to be upregulated at the bulk-retina level in this model (e.g. Tlr2, Nlrp3, Il1b), and found that infiltrating cells mainly drove this expression. Several genes were altered across nearly all retinal cell types, including upregulation of Hsph1 and Stat3. Muller glia downregulated Gpx4 while upregulating Acsl4 and iron importers Tfrc, Zip14, and Dmt1. Top pathways for macrophages/microglia included chemotaxis, cell-cell adhesion, and wound healing. Vascular cells upregulated angiogenesis-related genes. Cellular respiration was a commonly affected pathway across several neuronal populations, with most genes decreasing. ConclusionsThis study advances our understanding of the pathobiology of bacterial endophthalmitis. Muller glia appear to be undergoing ferroptosis, potentially while activating a program to sequester iron away from bacteria. Decreased cellular respiration may indicate hypoxia among neurons. Our results reveal several trends in the retinal response to infection, including iron dysregulation and hypoxia. Understanding these cell-type-specific responses to endophthalmitis may help design therapies to combine with antibiotics.