Professor Brien Holden Eye Research Centre, LV Prasad Eye Institute, Hyderabad, Telangana, India.
Manipal Academy of Higher Education, Manipal University, Manipal, India.
Curr Eye Res. 2023 Mar;48(3):251-262. doi: 10.1080/02713683.2022.2151018. Epub 2022 Dec 2.
To demonstrate the suitability of using decellularized SMILE (Small-incision Lenticule Extraction) lenticules for culturing and transplanting the corneal endothelium (CE).
The SMILE lenticules, obtained during refractive surgery, were decellularized by incubating in CE culture medium and fetal bovine serum. Decellularization was confirmed by hematoxylin and eosin staining, DAPI staining, and gel electrophoresis. The amount of DNA per milligram of dry tissue weight was calculated to quantify the residual nuclear content. The transparency of the decellularized lenticules was determined by calculating the modulation transfer function. Immunostaining for stromal collagens and glycosaminoglycan was performed using specific antibodies. Engineered tissue was constructed by culturing the CE cells on lenticules and staining for ZO-1, Na/K ATPase, and N-cadherin. The functionality of the engineered tissues was assessed by transplanting them onto edematous human donor corneas and perfusing for 10 days .
The residual DNA per milligram of dry tissue weight was found to be significantly reduced ( < 0.0001) in serum (0.255 µg/mg) and Opti-MEM (0.140 µg/mg) when compared to fresh lenticules (3.9 µg/mg). Decellularization did not alter the arrangement of the collagen fibers or the transparency of the lenticules. CE cells attached and matured to express ZO-1, Na/K ATPase, and N-cadherin at two weeks after seeding. The engineered tissue upon transplantation significantly reduced the corneal edema ( < 0.05) and the transplanted cells remained intact on the SMILE lenticule post-transplantation.
This study demonstrates the suitability of using SMILE lenticules decellularized using a simple, chemical-free method for engineering the corneal endothelium for transplantation.
展示使用脱细胞 SMILE(小切口准分子激光角膜微透镜切除术)微透镜培养和移植角膜内皮(CE)的适宜性。
在屈光手术中获得的 SMILE 微透镜,通过在 CE 培养基和胎牛血清中孵育进行脱细胞处理。通过苏木精和伊红染色、DAPI 染色和凝胶电泳确认脱细胞处理。通过计算每毫克干组织重量的 DNA 量来量化残留核含量。通过计算调制传递函数来确定脱细胞微透镜的透明度。使用特异性抗体对基质胶原和糖胺聚糖进行免疫染色。通过在微透镜上培养 CE 细胞并对 ZO-1、Na/K ATPase 和 N-钙粘蛋白进行染色来构建工程组织。通过将工程组织移植到水肿的人供体角膜上并灌注 10 天来评估其功能。
与新鲜微透镜(3.9μg/mg)相比,血清(0.255μg/mg)和 Opti-MEM(0.140μg/mg)中每毫克干组织重量的残留 DNA 明显减少(<0.0001)。脱细胞处理不会改变胶原纤维的排列或微透镜的透明度。CE 细胞附着并成熟,在接种后两周表达 ZO-1、Na/K ATPase 和 N-钙粘蛋白。移植后的工程组织显著降低了角膜水肿(<0.05),并且移植后的细胞在 SMILE 微透镜上保持完整。
这项研究表明,使用简单、无化学物质的方法对 SMILE 微透镜进行脱细胞处理,可用于工程化角膜内皮移植。
