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  • Secretion Profile of Induced Pluripotent Stem Cell-Derived Retinal Pigment Epithelium During Wound Healing.

Secretion Profile of Induced Pluripotent Stem Cell-Derived Retinal Pigment Epithelium During Wound Healing.

Investigative ophthalmology & visual science (2016-10-18)
Whitney A Greene, Teresa A Burke, Elaine D Por, Ramesh R Kaini, Heuy-Ching Wang
要旨

The purpose of this study was to characterize the secretion profile of induced pluripotent stem cell-derived retinal pigment epithelium (iPS-RPE) during wound healing. iPS-RPE was used to develop an in vitro wound healing model. We hypothesized that iPS-RPE secretes cytokines and growth factors which act in an autocrine manner to promote migration and proliferation of cells during wound healing. iPS-RPE was grown in transwells until fully confluent and pigmented. The monolayers were scratched to induce a wound. Levels of Ki-67, β-catenin, e-cadherin, n-cadherin, and S100A4 expression were analyzed by immunofluorescent labeling. Cell culture medium samples were collected from both the apical and basolateral sides of the transwells every 72 hours for 21 days. The medium samples were analyzed using multiplex ELISA to detect secreted growth factors and cytokines. The effects of conditioned medium on collagen gel contraction, cell proliferation, and migration were measured. iPS-RPE underwent epithelial-mesenchymal transition (EMT) during wound healing as indicated by the translocation of β-catenin to the nucleus, cadherin switch, and expression of S100A4. GRO, GM-CSF, MCP-1, IL-6, and IL-8 were secreted by both the control and the wounded cell cultures. VEGF, FGF-2, and TGFβ expression were detected at higher levels after wounding than those in control. The proteins were found to be secreted in a polarized manner. The conditioned medium from wounded monolayers promoted collagen gel contraction, as well as proliferation and migration of ARPE 19 cells. These results indicate that after the monolayer is wounded, iPS-RPE secretes proteins into the culture medium that promote increased proliferation, contraction, and migration.

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Millipore
MILLIPLEX® TGFß磁気ビーズ3プレックスキット-免疫学マルチプレックスアッセイ, for quantification of TGFß1, TGFß2 and TGFß3 in multiple species