Kuniko Takashiba scite author profile

Induced pluripotent stem (iPS) cells can be established from somatic cells. However, there is currently no established strategy to generate corneal epithelial cells from iPS cells. In this study, we investigated whether corneal epithelial cells could be differentiated from iPS cells. We tested 2 distinct sources: human adult dermal fibroblast (HDF)-derived iPS cells (253G1) and human adult corneal limbal epithelial cells (HLEC)-derived iPS cells (L1B41). We first established iPS cells from HLEC by introducing the Yamanaka 4 factors. Corneal epithelial cells were successfully induced from the iPS cells by the stromal cell-derived inducing activity (SDIA) differentiation method, as Pax6+/K12+ corneal epithelial colonies were observed after prolonged differentiation culture (12 weeks or later) in both the L1B41 and 253G1 iPS cells following retinal pigment epithelial and lens cell induction. Interestingly, the corneal epithelial differentiation efficiency was higher in L1B41 than in 253G1. DNA methylation analysis revealed that a small proportion of differentially methylated regions still existed between L1B41 and 253G1 iPS cells even though no significant difference in methylation status was detected in the specific corneal epithelium-related genes such as K12, K3, and Pax6. The present study is the first to demonstrate a strategy for corneal epithelial cell differentiation from human iPS cells, and further suggests that the epigenomic status is associated with the propensity of iPS cells to differentiate into corneal epithelial cells.

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Production of germ cell‐deficient salmonids by dead end gene knockdown, and their use as recipients for germ cell transplantation

Yoshizaki

Takashiba

Shimamori

et al. 2016

Molecular Reproduction Devel

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We previously established a spermatogonial transplantation model in fish using triploid recipients. Although triploid salmonids are sterile, they carry a limited number of immature triploid germ cells that potentially compete with the donor-derived germ cells for their niche. We therefore assessed the biological characteristics of germ cell-deficient gonads in rainbow trout for their suitability as recipients for germ cell transplantation in this study. Antisense morpholino oligonucleotides against the dead end gene were microinjected into the fertilized eggs of rainbow trout to eliminate endogenous germ cells, leaving only their supporting cells. Unlike similar approaches performed in zebrafish and medaka, these germ cell-deficient rainbow trout did not show a male-biased sex ratio. Approximately 30,000 spermatogonia were then transplanted into the body cavities of both germ cell-deficient and control recipients. The donor-derived germ cells showed significantly higher proliferation in the gonads of germ cell-deficient recipients than those in the gonads of the control recipients. Finally, the applicability of the germ cell-deficient recipients for xenogeneic transplantation was evaluated by transplanting rainbow trout spermatogonia into germ cell-deficient masu salmon recipients. The resulting recipient salmon matured normally and produced trout gametes, and early survival of the resulting trout offspring was as high as that of the control offspring. Thus, dead end-knockdown salmonids appear to be ideal recipients for the intraperitoneal transplantation of spermatogonia.

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Kuniko Takashiba

Generation of Corneal Epithelial Cells from Induced Pluripotent Stem Cells Derived from Human Dermal Fibroblast and Corneal Limbal Epithelium

Production of germ cell‐deficient salmonids by dead end gene knockdown, and their use as recipients for germ cell transplantation

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