Abstract

Stem cell-based therapies are attraction approaches for regenerative medicine for treating retinal diseases. One of the limitations in cell therapy is cell death following post-injection whit preventing functional integration with retinal tissue. Fibrin gel, a bio-polymeric material with excellent biocompatibility, provides numerous advantages as a tissue engineering scaffold and a stem cell carrier. Therefore, current research is focusing on developing fibrin hydrogel scaffolds to protect stem cells during delivery and to stimulate endogenous regeneration through interactions of transplanted stem cells and retinal tissue. In this study fibrin gel was used as hydrogel scaffold for immobilization of cells. The structural characteristics of fibrin gel scaffold were examined with SEM. Rheological properties of fibrin gel were measured by rheometer and biodegradation rate of fibrin were assayed for 2 weeks. After isolation of stem cells CJMSCs, the cells were differentiated into photoreceptor-like cells by exposing with taurin for 14 days in tissue culture plate (TCP group) and fibrin hydrogel (3 D group). The attachment of cells was analyzed with SEM and MTT. The expression of rhodopsin, PKC, CRX, recoverin, peripherin, nestin and RPE65 as photoreceptor-like cell markers was evaluated by immunocytochemistry and quantitative real-time PCR (RT-PCR) in TCP and 3 D groups. The results of SEM analysis showed CJMSCs were well attached in fibrin gels and there were good integrity between cells and scaffold. The elastic modulus and constant degradation of the gel contributes to the growth and proliferation of cells. There was no toxicity effect of fibrin hydrogel on cells and the viability of cultured cells was higher in 3 D fibrin gels in comparison with TCP groups. After 2 weeks, the expression of rhodopsin, PKC, CRX, peripherin, recoverin, nestin and RPE65 as special markers of photoreceptor cells were detected by Real time PCR and immunofluorescence that these expressions in 3 D groups were higher than TCP groups. In conclusion, our findings showed that application of readily available sources of adult stem cells like human conjunctiva stem cells encapsulated in fibrin gel could be interesting strategy to enhance photoreceptor progenitor cell numbers for repair and regeneration of retina disease such as photoreceptor injury.

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