AI Article Synopsis
- - The study aimed to investigate how extracellular vesicle (EV) microRNAs (miRs) interact to mitigate the degeneration of human corneal endothelium (HCE) tissues.
- - Researchers analyzed miR levels in various corneal tissues and patient samples, identifying distinct groups of miRs that show varying expression based on aging and other factors, particularly highlighting miR-184 and -24-3p for their regenerative potential.
- - Findings revealed that decreasing cellular miR-34a led to increased release of regenerative miRs like miR-184 and -24-3p, suggesting their role in promoting tissue repair and reducing inflammatory responses in corneal cells.
Article Abstract
Objective: The objective of the study was to reveal the presence of cellular interplay through extracellular vesicle (EV) microRNAs (miRs), to dampen the vicious cycle to degenerate human corneal endothelium (HCE) tissues.
Design: Prospective, comparative, observational study.
Methods: The miR levels in neonate-derived corneal tissues, in the aqueous humor (AqH) of bullous keratoplasty and cataract patients, as well as in the culture supernatant (CS) and EV of cultured human corneal endothelial cells (hCECs), were determined using 3D-Gene human miR chips and then validated using the real-time polymerase chain reaction. The extracellularly released miRs were profiled after the forced downregulation of cellular miR-34a, either by an miR-34a inhibitor or exposure to HO. The senescence-associated secretory phenotypes and mitochondrial membrane potential (MMP) were assessed to determine the functional features of the released miRs.
Main Outcome Measures: Identification of functional miRs attenuating HCE degeneration.
Results: The miRs in AqH were classified into 2 groups: expression in 1 group was significantly reduced in neonate-derived tissues, whereas that in the other group remained almost constant, independent of aging. The miR-34a and -29 families were typical in the former group, whereas miR-184 and -24-3p were typical in the latter. Additionally, a larger amount of the latter miRs was detected in AqH compared with those of the former miRs. There was also a greater abundance of miR-184 and -24-3p in hCECs, EV, and CS in fully mature CD44 hCEC, leading to sufficient clinical tissue regenerative capacity in cell injection therapy. The repression of cellular miR-34a, either due to miR-34a inhibitors or exposure to oxidative stress, unexpectedly resulted in the elevated release of miR-184 and -24-3p. Secretions of VEGF, interleukin 6, monocyte chemotactic protein-1, and MMP were all repressed in both mature CD44 and degenerated CD44 hCEC, transfected with an miR-184 mimic.
Conclusions: The elevated release of miR-184 into AqH may constitute cellular interplay that prevents the aggravation of HCE degeneration induced by oxidative stress, thereby sustaining tissue homeostasis in HCE.
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| http://www.ncbi.nlm.nih.gov/pmc/articles/PMC9755023 | PMC |
| http://dx.doi.org/10.1016/j.xops.2022.100212 | DOI Listing |
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