Abstract
Transplant rejection is a major cause of corneal transplantation failure. MicroRNAs (miRNAs) are a family of small RNAs that regulates gene expression in a sequence-specific manner. miRNAs have recently been shown to have important roles in human organ transplantation, but reports of miRNAs directly associated with corneal transplantation rejection remain limited. To investigate the role of miRNAs during corneal allograft rejection, we established a mouse penetrating keratoplasty model and used microarrays to screen for differentially expressed miRNAs. Our results revealed that the expression of miR-122 was significantly decreased in the allogeneic group. Consistent with this result, the expression of cytoplasmic polyadenylation element-binding protein-1 (CPEB1), a direct target of miR-122, was significantly increased. Further analysis demonstrated that miR-122 inhibited inflammatory cytokine-induced apoptosis in corneal keratocytes through the downregulation of its target CPEB1. We also found that increased miR-122 expression significantly reduced the risk of corneal transplantation rejection. Thus, our results indicate that miR-122 is an important miRNA associated with corneal graft rejection and can be used as a therapeutic target for the prevention of immune rejection after keratoplasty.
Highlights
Organ transplantation is the optimal therapeutic intervention in patients with end-stage organ failure
Studies have confirmed the roles of miRNAs in human organ transplantation,[11,12,13] there are few reports on miRNAs directly associated with corneal transplantation rejection. miR-466 and miR-184 are reported to be closely related with corneal lymphangiogenesis.[15,16]
RESULTS miR-122 is an important miRNA associated with corneal transplantation rejection To screen for miRNAs associated with immune rejection after corneal transplantation, we established a mouse PKP model
Summary
Organ transplantation is the optimal therapeutic intervention in patients with end-stage organ failure. MicroRNAs (miRNAs or miRs) are a group of non-coding singlestranded RNA molecules that are approximately 22 nucleotides in length. They can bind to the mRNAs of their target genes in a sequence-specific manner, resulting in degradation of the mRNA or inhibition of translation; miRNAs have important roles in biological development, cell differentiation, cell apoptosis and tumor development.[12,13,14] studies have confirmed the roles of miRNAs in human organ transplantation,[11,12,13] there are few reports on miRNAs directly associated with corneal transplantation rejection. The mechanism of the involvement of miRNAs in allograft rejection is not clear
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