Abstract
Human corneal endothelial cells (hCECs) are restricted in proliferative capacity in vivo. Reduction in the number of hCEC leads to persistent corneal edema requiring corneal transplantation. This study demonstrates the functions of SIRT1 in hCECs and its potential for corneal endothelial regeneration. Cell morphology, cell growth rates and proliferation-associated proteins were compared in normal and senescent hCECs. SIRT1 was activated using the CRISPR/dCas9 activation system (SIRT1a). The plasmids were transfected into CECs of six-week-old Sprague–Dawley rats using electroporation and cryoinjury was performed. Senescent cells were larger, elongated and showed lower proliferation rates and lower SIRT1 levels. SIRT1 activation promoted the wound healing of CECs. In vivo transfection of SIRT1a promoted the regeneration of CECs. The proportion of the S-phase cells was lower in senescent cells and elevated upon SIRT1a activation. SIRT1 regulated cell proliferation, proliferation-associated proteins, mitochondrial membrane potential, and oxidative stress levels. In conclusion, corneal endothelial senescence is related with a decreased SIRT1 level. SIRT1a promotes the regeneration of CECs by inhibiting cytokine-induced cell death and senescence. Gene function activation therapy using SIRT1a may serve as a novel treatment strategy for hCEC diseases.
Highlights
Cornea is the transparent window of the eye and refracts light and is maintained in a dehydrated state by corneal endothelial cells (CECs)
We investigated the replicative senescence-induced changes in cultured Human CECs (hCECs) and the effect of Sirtuin 1 (SIRT1) activation on cytokine-induced senescence using the CRISPR/dCas9 system
This study was conducted in compliance with the tenets of the Declaration of Helsinki and the protocol was reviewed and approved by the ethics committee and the institutional review board of Hallym University Kangnam Hospital. hCECs were cultured according to previously described methods [33,34]
Summary
Cornea is the transparent window of the eye and refracts light and is maintained in a dehydrated state by corneal endothelial cells (CECs). Human CECs (hCECs) do not regenerate in vivo once they are damaged. Cultured hCECs have different characteristics depending on the donor [3,4]. Different miRNAs are expressed according to the phenotype of cultured hCECs [5]. Senescence is the biological process of age-related deterioration of function [7]. Cells and organs gradually lose their ability to perform physiological functions and to maintain homeostasis owing to senescence [7]. Apoptotic cell death becomes more prevalent with increasing senescence in healthy fibroblast cultures [6]. Senescence in hCECs induces significant metabolic differences according to age [9]. In vitro observations of senescence are similar to those seen in bullous keratopathy (BK) in vivo
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