iPSC-Derived Trabecular Meshwork Cells Stimulate Endogenous TM Cell Division Through Gap Junction in a Mouse Model of Glaucoma.
Sui Shangru, Yu Hongxia, Wang Xiangji, Wang Wenyan, Yang Xuejiao, Pan Xiaojing, Zhou Qingjun, Xin Chen, Du Rong, Wu Shen
AI Summary
iPSC-derived TM cells stimulate native TM cell division and restore function in glaucoma models via gap junctions, especially Cx43. This reveals a key mechanism to enhance regenerative glaucoma therapies.
Abstract
Purpose
Decreased trabecular meshwork (TM) cellularity has been implicated as a major reason for TM dysfunction and aqueous humor (AH) outflow abnormalities in primary open angle glaucoma. We previously found that transplantation of induced pluripotent stem cell (iPSC)-derived TM cells can restore TM function and stimulate endogenous TM cell division. The goal of the present study is to investigate whether signaling via gap junctions is involved in this process.
Methods
Differentiated iPSCs were characterized morphologically, transcriptionally, and immunohistochemically. After purification, iPSC-TM were co-cultured with mouse TM (MTM) cells to mimic the transplantation procedure. Through the pharmacological antagonists and short hairpin RNA (shRNA) technique, the gap junction function in iPSC-based therapy was determined.
Results
In the co-culture system, iPSC-TM increase MTM cell division as well as transfer of Ca2+ to MTM. This effect was blocked by treatment with the gap junction inhibitors carbenoxolone (CBX) or flufenamic acid (FFA). The shRNA mediated knock down of connexin 43 (Cx43) expression in iPSC-TM also results in decreased Ca2+ transfer and lower MTM proliferation rates. In vivo, Cx43 downregulation in transplanted iPSC-TM weakened their regenerative role in an Ad5.myocilinY437H mouse model of glaucoma. Mice receiving these cells exhibited lower TM cellularity and higher intraocular pressure (IOP) than those receiving unmodified iPSC-TM.
Conclusions
Our findings reveal a crucial role of gap junction, especially Cx43, in iPSC-based TM regeneration, and provides insights to enhance the regenerative effect of iPSCs in glaucoma therapy.
MeSH Terms
Shields Classification
Key Concepts4
In a co-culture system, induced pluripotent stem cell (iPSC)-derived trabecular meshwork (TM) cells increased mouse TM (MTM) cell division and transferred Ca2+ to MTM cells.
The effect of induced pluripotent stem cell (iPSC)-derived trabecular meshwork (TM) cells on mouse TM (MTM) cell division and Ca2+ transfer was blocked by treatment with the gap junction inhibitors carbenoxolone (CBX) or flufenamic acid (FFA) in a co-culture system.
Short hairpin RNA (shRNA) mediated knockdown of connexin 43 (Cx43) expression in induced pluripotent stem cell (iPSC)-derived trabecular meshwork (TM) cells resulted in decreased Ca2+ transfer and lower mouse TM (MTM) proliferation rates in a co-culture system.
In an Ad5.myocilinY437H mouse model of glaucoma, connexin 43 (Cx43) downregulation in transplanted induced pluripotent stem cell (iPSC)-derived trabecular meshwork (TM) cells weakened their regenerative role, leading to lower TM cellularity and higher intraocular pressure (IOP) compared to mice receiving unmodified iPSC-TM cells.
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