In this video, we will demonstrate how to isolate retinal stem cells from the ciliary epithelium of the mouse eye and grow them in culture to form clonal retinal spheres. The spheres that are isolated possess the cardinal properties of stem cells: self-renewal and multipotentiality.
The adult mouse retinal stem cell (RSC) is a rare quiescent cell found within the ciliary epithelium (CE) of the mammalian eye1,2,3. The CE is made up of non-pigmented inner and pigmented outer cell layers, and the clonal RSC colonies that arise from a single pigmented cell from the CE are made up of both pigmented and non-pigmented cells which can be differentiated to form all the cell types of the neural retina and the RPE. There is some controversy about whether all the cells within the spheres all contain at least some pigment4; however the cells are still capable of forming the different cell types found within the neural retina1-3. In some species, such as amphibians and fish, their eyes are capable of regeneration after injury5, however; the mammalian eye shows no such regenerative properties. We seek to identify the stem cell in vivo and to understand the mechanisms that keep the mammalian retinal stem cells quiescent6-8, even after injury as well as using them as a potential source of cells to help repair physical or genetic models of eye injury through transplantation9-12. Here we describe how to isolate the ciliary epithelial cells from the mouse eye and grow them in culture in order to form the clonal retinal stem cell spheres. Since there are no known markers of the stem cell in vivo, these spheres are the only known way to prospectively identify the stem cell population within the ciliary epithelium of the eye.
1. Prepare the Dissecting Solutions and Enzyme Solutions
2. Isolating Retinal Stem Cells from the Mouse Eye
3. Results of Isolating Retinal Stem Cells
4. Representative Results
Figure 1.
Figure 2.
This protocol describes how to isolate retinal stem cells from the ciliary epithelium of the mouse eye 1-3. The methodology for isolating the strips of ciliary epithelium can vary, however the enzymes and methodology for attaining a single-cell suspension have been optimized in this protocol. It is also important that the strips of ciliary epithelium that have been isolated do not contain large amounts of RPE or cornea since these appear to have a negative impact on the total number of spheres that can be isolated from each eye. In addition, the serum-free media that we make that was originally formulated for brain neurospheres 13, is ideal for growing retinal stem cell spheres. One should also make sure that the cells are not disturbed after they have been plated and placed in the incubator so that the growing spheres do not aggregate together 14.
Once the retinal stem cells have formed clonal spheres, they can be counted to get a prospective number of stem cells per eye. The spheres then can then be dissociated into single cells and passaged to ascertain self-renewal capabilities or differentiated into the different cell types of the neural retina and RPE using different combinations of growth factors and/or proteins.
The authors have nothing to disclose.
We thank Laura Clarke for her invaluable assistance. This work is supported by NCE: Stem Cell Network, CIHR and NIH.
Material Name | タイプ | Company | Catalogue Number | Comment |
---|---|---|---|---|
Stemi 2000 Microscope | Zeiss | |||
Cold Light Source | Zeiss | KL1500 | dual arm optic light | |
Curved Mini Vannas scissors | FST | 15000-10 | ||
Angled Vannas scissors | FST | 15005-08 | ||
#7 Dumont forceps | FST | 11272-30 | non-serrated | |
#5 Dumont forceps | FST | 11251-10 | straight | |
Fine forceps | FST | 11051-10 | serrated curved | |
#3 Scalpel handle | Almedic | 2586-M36-10 | ||
#10 Scalpel blades | Almedic | 2580-M90-10 | ||
Hot Bead Sterilizer | FST | 18000-45 | ||
Dispase | VWR/BD | CACB354235 | ||
Trypsin | Sigma | T1005 | ||
Hyaluronidase | Sigma | H6254 | ||
Kynurenic Acid | Sigma | K3375 | 1000 IU | |
Trypsin Inhibitor | Roche | 10109878001 | ||
35 mm dishes | VWR/Nunc | CA354235 | ||
24-well plate | VWR/Nunc | CA73521-004 | ||
Cotton-plugged pipettes | VWR | 14672-400 | fire-polish | |
14 mL Tubes | Falcon | 352057 | Polystyrene | |
Serum-free Media | Ref# 13 for formulation | |||
FGF2 | Sigma | F0291 | ||
Heparin | Sigma | H3149 | 100 IU |