Most cited article - PubMed ID 39856809
Perspectives and Limitations of Mesenchymal Stem Cell-Based Therapy for Corneal Injuries and Retinal Diseases
Mesenchymal stem cells (MSCs) represent the promising options for retinal therapy and combined therapy with nanoparticles (NPs) could currently provide increased immunoregulatory and neuroprotective effects. Therefore, we tested the effect of silver (Ag)NPs on the properties of MSCs in an experimental model of chronic retinal degeneration. The results showed that simultaneous administration had no effect on the survival of MSCs, but a less effective local regulation of Iba-1 expression compared to MSC- or AgNP-only treated groups was observed. In addition, MSCs applied alone or in combination with AgNPs and sorted from the degenerated retina had increased expression of genes for retinal markers (rhodopsin, S-antigen, recoverin), and for TGF-β and IGF-1. These effects were confirmed also on protein level by increased production of IGF-1 and proportion of rhodopsin+ MSCs. Nevertheless, the increased expression of the gene for GDNF was observed only in the MSCs combined with AgNPs. Regarding the immune response, the application of MSCs with AgNPs triggered increased expression of the IL-6 gene in the CD45 cells separated from the retina. In conclusion, applications of MSCs or AgNPs, as a single therapy, were able to modulate the inflammation. However, the combined applications decreased the immunomodulatory effects of MSCs or AgNPs.
- Keywords
- Mesenchymal stem cells, Retina, Retinal microglia, Silver nanoparticles,
- MeSH
- Retinal Degeneration * therapy chemically induced pathology MeSH
- Iodates toxicity MeSH
- Combined Modality Therapy MeSH
- Metal Nanoparticles * chemistry administration & dosage MeSH
- Mesenchymal Stem Cells * metabolism cytology drug effects MeSH
- Disease Models, Animal MeSH
- Mice MeSH
- Retina metabolism pathology MeSH
- Silver * chemistry pharmacology MeSH
- Mesenchymal Stem Cell Transplantation * methods MeSH
- Animals MeSH
- Check Tag
- Mice MeSH
- Animals MeSH
- Publication type
- Journal Article MeSH
- Comparative Study MeSH
- Names of Substances
- Iodates MeSH
- sodium iodate MeSH Browser
- Silver * MeSH
Bilateral limbal stem cell deficiency (LSCD) can be effectively treated with cultivated oral mucosa epithelial cell transplantation (COMET). However, COMET is associated with greater superficial neovascularization than limbal stem cell (LESC) transplantation, the gold standard for unilateral LSCD. To investigate the intrinsic molecular features of cells intended for grafting, we assessed the in vitro expression of genes involved in vascularization and inflammation using real-time quantitative PCR and multifactorial linear models. Oral mucosal epithelial cells (OMECs) and limbal epithelial cells (LECs) were cultured in either conventional (COM) or xenobiotic-free (XF) media on fibrin substrates. Gene expression profiling revealed distinct transcriptional signatures. The pro-angiogenic genes AGR2, ANGPTL2, CRYAB, EREG, JAM3, and S100A4 were significantly higher in LECs (adjusted p < 0.01), whereas FGF2 was higher in OMECs (adjusted p < 0.001). The anti-angiogenic genes TIMP3 and SERPINF1 were higher in LECs (adjusted p < 0.01), while COL18A1 was higher in OMECs (adjusted p < 0.01). OMECs also showed significantly greater expression of the immunoregulatory genes IL1B, IL6, TNF, CXCL10, and IL1RN (adjusted p < 0.01). Cultivation induced phenotypic changes in OMECs, with COM and XF media exerting comparable effects. These results highlight the contribution of inflammatory mediators to neovascularization following COMET.
