Details

Autor(en) / Beteiligte

• Voigt, A.P.
• Whitmore, S.S.
• Flamme-Wiese, M.J.
• Riker, M.J.
• Wiley, L.A.
• Tucker, B.A.
• Stone, E.M.
• Mullins, R.F.
• Scheetz, T.E.

Titel

Molecular characterization of foveal versus peripheral human retina by single-cell RNA sequencing

Ist Teil von

• Experimental eye research, 2019-07, Vol.184, p.234-242

Ort / Verlag

England: Elsevier Ltd

Erscheinungsjahr

2019

Quelle

MEDLINE

Beschreibungen/Notizen

• The human retina is a complex tissue responsible for detecting photons of light and converting information from these photons into the neurochemical signals interpreted as vision. Such visual signaling not only requires sophisticated interactions between multiple classes of neurons, but also spatially-dependent molecular specialization of individual cell types. In this study, we performed single-cell RNA sequencing on neural retina isolated from both the fovea and peripheral retina in three human donors. We recovered a total of 8,217 cells, with 3,578 cells originating from the fovea and 4,639 cells originating from the periphery. Expression profiles for all major retinal cell types were compiled, and differential expression analysis was performed between cells of foveal versus peripheral origin. Globally, mRNA for the serum iron binding protein transferrin (TF), which has been associated with age-related macular degeneration pathogenesis, was enriched in peripheral samples. Cone photoreceptor cells were of particular interest and formed two predominant clusters based on gene expression. One cone cluster had 96% of cells originating from foveal samples, while the second cone cluster consisted exclusively of peripherally isolated cells. A total of 148 genes were differentially expressed between cones from the fovea versus periphery. Interestingly, peripheral cones were enriched for the gene encoding Beta-Carotene Oxygenase 2 (BCO2). A relative deficiency of this enzyme may account for the accumulation of carotenoids responsible for yellow pigment deposition within the macula. Overall, this data set provides rich expression profiles of the major human retinal cell types and highlights transcriptomic features that distinguish foveal and peripheral cells. [Display omitted] •Gene expression characterization of human retinal cell types.•Foveal and peripheral retinal cell types have distinct gene expression patterns.•Transferrin is enriched in peripheral retina cell types.