Rationale: Mitochondrial disorders preferentially affect tissues with high energy requirements, such as the retina and corneal endothelium, in human eyes. Mesenchymal stem cell (MSC)-based treatment has been demonstrated to be beneficial for ocular degeneration. However, aside from neuroprotective paracrine actions, the mechanisms underlying the beneficial effect of MSCs on retinal and corneal tissues are largely unknown. In this study, we investigated the fate and associated characteristics of mitochondria subjected to intercellular transfer from MSCs to ocular cells. Methods: MSCs were cocultured with corneal endothelial cells (CECs), 661W cells (a photoreceptor cell line) and ARPE-19 cells (a retinal pigment epithelium cell line). Immunofluorescence, fluorescence activated cell sorting and confocal microscopy imaging were employed to investigate the traits of intercellular mitochondrial transfer and the fate of transferred mitochondria. The oxygen consumption rate of recipient cells was measured to investigate the effect of intercellular mitochondrial transfer. Transcriptome analysis was performed to investigate the expression of metabolic genes in recipient cells with donated mitochondria. Results: Mitochondrial transport is a ubiquitous intercellular mechanism between MSCs and various ocular cells, including the corneal endothelium, retinal pigmented epithelium, and photoreceptors. Additionally, our results indicate that the donation process depends on F-actin-based tunneling nanotubes. Rotenone-pretreated cells that received mitochondria from MSCs displayed increased aerobic capacity and upregulation of mitochondrial genes. Furthermore, living imaging determined the ultimate fate of transferred mitochondria through either degradation by lysosomes or exocytosis as extracellular vesicles. Conclusions: For the first time, we determined the characteristics and fate of mitochondria undergoing intercellular transfer from MSCs to various ocular cells through F-actin-based tunneling nanotubes, helping to characterize MSC -based treatment for ocular tissue regeneration.
基金:
National Key R&D Program of China [2017YFA0105300]; National Natural Science Foundation of ChinaNational Natural Science Foundation of China (NSFC) [81970838, 81790644]; Zhejiang Provincial Natural Science Foundation of ChinaNatural Science Foundation of Zhejiang Province [LD18H120001LD]; [2019M652049]
第一作者机构:[1]Wenzhou Med Univ, Lab Stem Cell & Retinal Regenerat, Inst Stem Cell Res, Div Ophthalm Genet,Eye Hosp, Wenzhou 325027, Peoples R China[2]Natl Ctr Int Res Regenerat Med & Neurogenet, Wenzhou 325027, Peoples R China
通讯作者:
通讯机构:[1]Wenzhou Med Univ, Lab Stem Cell & Retinal Regenerat, Inst Stem Cell Res, Div Ophthalm Genet,Eye Hosp, Wenzhou 325027, Peoples R China[2]Natl Ctr Int Res Regenerat Med & Neurogenet, Wenzhou 325027, Peoples R China[4]Capital Med Univ, Beijing Inst Ophthalmol, Beijing Ophthalmol & Visual Sci Key Lab, Beijing Tongren Eye Ctr,Beijing Tongren Hosp, Beijing 100730, Peoples R China
推荐引用方式(GB/T 7714):
Jiang Dan,Chen Fang-Xuan,Zhou Heng,et al.Bioenergetic Crosstalk between Mesenchymal Stem Cells and various Ocular Cells through the intercellular trafficking of Mitochondria[J].THERANOSTICS.2020,10(16):7260-7272.doi:10.7150/thno.46332.
APA:
Jiang, Dan,Chen, Fang-Xuan,Zhou, Heng,Lu, Yang-Yan,Tan, Hua...&Jin, Zi-Bing.(2020).Bioenergetic Crosstalk between Mesenchymal Stem Cells and various Ocular Cells through the intercellular trafficking of Mitochondria.THERANOSTICS,10,(16)
MLA:
Jiang, Dan,et al."Bioenergetic Crosstalk between Mesenchymal Stem Cells and various Ocular Cells through the intercellular trafficking of Mitochondria".THERANOSTICS 10..16(2020):7260-7272
医学