Fig 1.
Outline method for correlative light and electron microscopy of cryostat sections.
Fig 2.
Mouse retinal tissue prepared conventionally and from OCT embedded sections for electron microscopy.
(A & B) Conventional fixed tissue and (C & D) OCT sections of tissue prepared for EM show little difference in the preservation quality. Organelles including mitochondria (M), melanosomes (Me) and phagosomes (P), in addition to membranes such as basal infoldings (BI) and photoreceptor outer segment (OS) discs and structural features such as collagen in Bruchs membrane (Co) and fenestrae of choroidal endothelial cells (F) are well preserved. (A & C) the connecting cilium is indicated by CC and the photoreceptor inner segment IS. Scale bar = 500nm.
Fig 3.
Correlative light electron and microscopy of cryostat sections can be used to identify rhodopsin enriched phagosomes in the retinal pigment epithelium (RPE) cell layer.
The same region of RPE viewed by (A) fluorescence microscopy (FM) and (B) electron microscopy (EM), with an overlay of the two in (C). The boxed regions in (A-C) are shown at higher magnification in (D) highlighting regions that include FM rhodopsin staining (green) overlapping with phagosomes seen by EM. (E) Higher magnification of phagosomes (Ph) boxed in (D), surrounded by melanosomes (Me) and mitochondria (M). Scale bar = (A-C)– 10um (D)– 1um (E)– 250nm.
Fig 4.
Correlative light and electron microscopy of cryostat sections of control iPSC optic cup using dual fluorescence microscopy (FM) and nano-gold rhodopsin labelling.
(A) Diagram outlining the differentiation of inducible pluripotent stem cells (iPSCs) into optic cups with photoreceptors. (B) Confocal FM overlay on top of differential interference contrast (DIC) image (C) FM overlay on top of electron microscopy (EM) image. (D) EM with (E) a high magnification region showing concentrated rhodopsin localisation in the photoreceptor OS region of the optic cups. The connecting cilia in (D) is indicated by CC. Scale bar = (B & C) 100um, (D) 2um and (E) 200nm.
Fig 5.
Immuno-electron microscopy (iEM) labelling of cryostat sections allows the identification of peroxisomes in the RPE, illustrating the close contact with phagosomes and melanosomes.
(A-B) FM images showing the localisation of peroxisomes (red) around rhodopsin enriched phagosomes (green) in the RPE cell layer. (C) Low magnification electron microscopy image of RPE cell layer with gold labelled peroxisomes that are localised towards the basal cell surface close to the basal infolding (Bi) and Bruch’s membrane (Br) and away from the apical processes (Ap). The box highlights a region with a phagosome (Ph) that is shown at higher magnification in (D) with a gold labelled peroxisome in close proximity and other organelles nearby, including melanolipofuscin granules (MeLi) and mitochondria (M). (E) Gold labelled peroxisomes in contact with melanosomes (Me) with a high magnification image (F). Contacts between the peroxisomes and melanosomes (black arrows) and in the zoomed insert tethers between the organelles can be seen (white arrows) Scale = (A)– 10um (B)– 5um (C)– 1um (D-E)– 250nm (F)– 100nm.