Yuan Ren scite author profile

Retinal organoids are three-dimensional structures derived from human pluripotent stem cells (hPSCs) which recapitulate the spatial and temporal differentiation of the retina, serving as effective in vitro models of retinal development. However, a lack of emphasis has been placed upon the development and organization of retinal ganglion cells (RGCs) within retinal organoids. Thus, initial efforts were made to characterize RGC differentiation throughout early stages of organoid development, with a clearly defined RGC layer developing in a temporally-appropriate manner expressing a complement of RGC-associated markers. Beyond studies of RGC development, retinal organoids may also prove useful for cellular replacement in which extensive axonal outgrowth is necessary to reach post-synaptic targets. Organoid-derived RGCs could help to elucidate factors promoting axonal outgrowth, thereby identifying approaches to circumvent a formidable obstacle to RGC replacement. As such, additional efforts demonstrated significant enhancement of neurite outgrowth through modulation of both substrate composition and growth factor signaling. Additionally, organoid-derived RGCs exhibited diverse phenotypes, extending elaborate growth cones and expressing numerous guidance receptors. Collectively, these results establish retinal organoids as a valuable tool for studies of RGC development, and demonstrate the utility of organoid-derived RGCs as an effective platform to study factors influencing neurite outgrowth from organoid-derived RGCs.

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The expression of stem cell protein Piwil2 and piR-932 in breast cancer

Zhang

Ren

et al. 2013

Surgical Oncology

125

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Effect of Rifampicin on Lopinavir Pharmacokinetics in HIV-Infected Children With Tuberculosis

Ren¹,

Nuttall²,

Egbers³

et al. 2008

103

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MicroRNA-34a affects the occurrence of laryngeal squamous cell carcinoma by targeting the antiapoptotic gene survivin

Shen

Zhan

et al. 2012

Med Oncol

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Survivin has been shown to be an ideal target for cancer gene therapy because of its strong antiapoptotic effect. MicroRNA-34a (miR-34a) can function as a tumor suppressor in some cancers through negative regulation of gene expression. However, the relationship between miR-34a and survivin in larynx squamous cell carcinoma (LSCC) has not been explored. The abundance of survivin mRNA and miR-34a in LSCC tissues were measured using quantitative real-time polymerase chain reaction. Their expression levels were analyzed and correlated with tumor differentiation, lymphatic metastasis, clinical stages, and survival rates. MiR-34a mimic was transfected using liposomes to increase its level in LSCC cancer cell line, Hep-2. The effects of miR-34a on survivin protein expression were tested using western blot analysis. Cell cycle analyses were performed using flow cytometry. The results showed that transfection of miR-34a mimic significantly suppressed cell proliferation with decreased survivin protein expression, but did not affect mRNA expression level. The results from LSCC tissue samples showed that miR-34a was downregulated, while survivin expression was upregulated. The miR-34a levels were negatively correlated with histologic differentiation and were positively correlated with survival rate. MiR-34a significantly suppressed cell proliferation by arresting cells at G0/G1 phase in Hep-2 cells. These results indicated that miR-34a may affect the occurrence of LSCC by targeting survivin.

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Yuan Ren

Three-Dimensional Retinal Organoids Facilitate the Investigation of Retinal Ganglion Cell Development, Organization and Neurite Outgrowth from Human Pluripotent Stem Cells

The expression of stem cell protein Piwil2 and piR-932 in breast cancer

Effect of Rifampicin on Lopinavir Pharmacokinetics in HIV-Infected Children With Tuberculosis

MicroRNA-34a affects the occurrence of laryngeal squamous cell carcinoma by targeting the antiapoptotic gene survivin

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