| Literature DB >> 31580778 |
Hoi Ching Suen1, Yan Qian1, Jinyue Liao1, Chun Shui Luk1, Wing Tung Lee1, Judy Kin Wing Ng1, Thomas Ting Hei Chan1, Hei Wan Hou1, Ingrid Li1, Kit Li1, Wai-Yee Chan1, Bo Feng1, Lin Gao1, Xiaohua Jiang1, Yuen Hang Liu1, John A Rudd1, Robin Hobbs2, Huayu Qi3, Tsz Kin Ng4, Heather Kayew Mak4, Kai Shun Leung4, Tin-Lap Lee1.
Abstract
Glaucoma is characterized by retinal ganglion cell (RGC) degeneration and is the second leading cause of blindness worldwide. However, current treatments such as eye drop or surgery have limitations and do not target the loss of RGC. Regenerative therapy using embryonic stem cells (ESCs) holds a promising option, but ethical concern hinders clinical applications on human subjects. In this study, we employed spermatogonial stem cells (SSCs) as an alternative source of ESCs for cell-based regenerative therapy in mouse glaucoma model. We generated functional RGCs from SSCs with a two-step protocol without applying viral transfection or chemical induction. SSCs were first dedifferentiated to embryonic stem-like cells (SSC-ESCs) that resemble ESCs in morphology, gene expression signatures, and stem cell properties. The SSC-ESCs then differentiated toward retinal lineages. We showed SSC-ESC-derived retinal cells expressed RGC-specific marker Brn3b and functioned as bona fide RGCs. To allow in vivo RGC tracing, Brn3b-EGFP reporter SSC-ESCs were generated and the derived RGCs were subsequently transplanted into the retina of glaucoma mouse models by intravitreal injection. We demonstrated that the transplanted RGCs could survive in host retina for at least 10 days after transplantation. SSC-ESC-derived RGCs can thus potentially be a novel alternative to replace the damaged RGCs in glaucomatous retina.Entities:
Keywords: glaucoma; pluripotency; regenerative medicine; retinal ganglion cells; spermatogonial stem cells
Year: 2019 PMID: 31580778 DOI: 10.1089/scd.2019.0060
Source DB: PubMed Journal: Stem Cells Dev ISSN: 1547-3287 Impact factor: 3.272