Author
Listed:
- Ting Zou
(Third Military Medical University (Army Medical University)
Key Lab of Visual Damage and Regeneration & Restoration of Chongqing)
- Lixiong Gao
(Third Military Medical University (Army Medical University)
Key Lab of Visual Damage and Regeneration & Restoration of Chongqing)
- Yuxiao Zeng
(Third Military Medical University (Army Medical University)
Key Lab of Visual Damage and Regeneration & Restoration of Chongqing)
- Qiyou Li
(Third Military Medical University (Army Medical University)
Key Lab of Visual Damage and Regeneration & Restoration of Chongqing)
- Yijian Li
(Third Military Medical University (Army Medical University)
Key Lab of Visual Damage and Regeneration & Restoration of Chongqing)
- Siyu Chen
(Third Military Medical University (Army Medical University)
Key Lab of Visual Damage and Regeneration & Restoration of Chongqing)
- Xisu Hu
(Third Military Medical University (Army Medical University)
Key Lab of Visual Damage and Regeneration & Restoration of Chongqing)
- Xi Chen
(Third Military Medical University (Army Medical University)
Key Lab of Visual Damage and Regeneration & Restoration of Chongqing)
- Caiyun Fu
(Third Military Medical University (Army Medical University)
Key Lab of Visual Damage and Regeneration & Restoration of Chongqing)
- Haiwei Xu
(Third Military Medical University (Army Medical University)
Key Lab of Visual Damage and Regeneration & Restoration of Chongqing)
- Zheng Qin Yin
(Third Military Medical University (Army Medical University)
Key Lab of Visual Damage and Regeneration & Restoration of Chongqing)
Abstract
Stem cell therapy may replace lost photoreceptors and preserve residual photoreceptors during retinal degeneration (RD). Unfortunately, the degenerative microenvironment compromises the fate of grafted cells, demanding supplementary strategies for microenvironment regulation. Donor cells with both proper regeneration capability and intrinsic ability to improve microenvironment are highly desired. Here, we use cell surface markers (C-Kit+/SSEA4−) to effectively eliminate tumorigenic embryonic cells and enrich retinal progenitor cells (RPCs) from human embryonic stem cell (hESC)-derived retinal organoids, which, following subretinal transplantation into RD models of rats and mice, significantly improve vision and preserve the retinal structure. We characterize the pattern of integration and materials transfer following transplantation, which likely contribute to the rescued photoreceptors. Moreover, C-Kit+/SSEA4− cells suppress microglial activation, gliosis and the production of inflammatory mediators, thereby providing a healthier host microenvironment for the grafted cells and delaying RD. Therefore, C-Kit+/SSEA4− cells from hESC-derived retinal organoids are a promising therapeutic cell source.
Suggested Citation
Ting Zou & Lixiong Gao & Yuxiao Zeng & Qiyou Li & Yijian Li & Siyu Chen & Xisu Hu & Xi Chen & Caiyun Fu & Haiwei Xu & Zheng Qin Yin, 2019.
"Organoid-derived C-Kit+/SSEA4− human retinal progenitor cells promote a protective retinal microenvironment during transplantation in rodents,"
Nature Communications, Nature, vol. 10(1), pages 1-17, December.
Handle:
RePEc:nat:natcom:v:10:y:2019:i:1:d:10.1038_s41467-019-08961-0
DOI: 10.1038/s41467-019-08961-0
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