Longitudinal adaptive optics fluorescence microscopy reveals cellular mosaicism in patients
HaeWon Jung, Jianfei Liu, Tao Liu, Aman George, Margery G. Smelkinson, Sarah Cohen, Ruchi Sharma, Owen Schwartz, Arvydas Maminishkis, Kapil Bharti, Catherine Cukras, Laryssa A. Huryn, Brian P. Brooks, Robert Fariss, Johnny Tam
HaeWon Jung, Jianfei Liu, Tao Liu, Aman George, Margery G. Smelkinson, Sarah Cohen, Ruchi Sharma, Owen Schwartz, Arvydas Maminishkis, Kapil Bharti, Catherine Cukras, Laryssa A. Huryn, Brian P. Brooks, Robert Fariss, Johnny Tam
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Resource and Technical Advance Ophthalmology

Longitudinal adaptive optics fluorescence microscopy reveals cellular mosaicism in patients

Abstract

The heterogeneity of individual cells in a tissue has been well characterized, largely using ex vivo approaches that do not permit longitudinal assessments of the same tissue over long periods of time. We demonstrate a potentially novel application of adaptive optics fluorescence microscopy to visualize and track the in situ mosaicism of retinal pigment epithelial (RPE) cells directly in the human eye. After a short, dynamic period during which RPE cells take up i.v.-administered indocyanine green (ICG) dye, we observed a remarkably stable heterogeneity in the fluorescent pattern that gradually disappeared over a period of days. This pattern could be robustly reproduced with a new injection and follow-up imaging in the same eye out to at least 12 months, which enabled longitudinal tracking of RPE cells. Investigation of ICG uptake in primary human RPE cells and in a mouse model of ICG uptake alongside human imaging corroborated our findings that the observed mosaicism is an intrinsic property of the RPE tissue. We demonstrate a potentially novel application of fluorescence microscopy to detect subclinical changes to the RPE, a technical advance that has direct implications for improving our understanding of diseases such as oculocutaneous albinism, late-onset retinal degeneration, and Bietti crystalline dystrophy.

Authors

HaeWon Jung, Jianfei Liu, Tao Liu, Aman George, Margery G. Smelkinson, Sarah Cohen, Ruchi Sharma, Owen Schwartz, Arvydas Maminishkis, Kapil Bharti, Catherine Cukras, Laryssa A. Huryn, Brian P. Brooks, Robert Fariss, Johnny Tam

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Figure 1

Fluorescence pattern observed in all healthy eyes.

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Fluorescence pattern observed in all healthy eyes. Example adaptive opti...
Example adaptive optics enhanced indocyanine green (AO-ICG) images of retinal pigment epithelial (RPE) cells acquired from the living human eye. All regions of interest (ROIs) are 100 μm × 100 μm. (A) Foveal RPE cells. Subject codes are indicated (Supplemental Table 1) (L, left eye; R, right eye). (B) Foveal RPE cell-to-cell spacing (average distance between centers of neighboring RPE cells). Top, approximate outlines of homogeneous-intensity regions generated by superpixel segmentation (27); bottom, centroids of automatically segmented regions were manually corrected. (C) Histogram of RPE spacing across all eyes. (D) RPE spacing in left eye (OS) vs. right eye (OD) for 9 subjects (P < 0.05, one-way ANOVA). (E) Histogram of ICG fluorescence intensity across all 1,399 RPE cells from A. Solid line, fit to Weibull distribution.