Arita T, Murata Y, Lin L R, Tsuji T, Reddy V N
Eye Research Institute, Oakland University, Rochester, MI 48309-4401.
Invest Ophthalmol Vis Sci. 1993 Feb;34(2):355-62.
This study examined the extent to which human lens epithelial (HLE) cells in tissue culture retain the potential for differentiation, expression of lens-specific marker proteins, and the synthesis of lens capsule, the major characteristics of lens epithelium in vivo.
Primary cultures of HLE cells were maintained for up to 450 days. Transmission and immunoelectron microscopy were used to study the thickness of the synthesized capsule and the formation of type IV collagen and laminin, two major protein components of the basement membrane of lens capsule in vivo.
In a long-term HLE culture system, without subcloning, lens fiber differentiation and capsular synthesis were maintained over a period of 450 days. In these cultures, the cell sheet showed three distinct zones: (1) a central zone with tight monolayer; (2) a mild peripheral zone with irregularly aggregated multilayer; and (3) a peripheral zone with loose monolayer. The basement membrane-like material was synthesized in the central zone and lentoids, which serve as a model for fiber differentiation, developed primarily in the mid peripheral zone. No capsular material or lentoids were observed in the peripheral zone. The capsule-like material was 2 to 2.5 microns thick and showed the presence of type IV collagen and laminin, as detected by antibody reaction.
This study demonstrates for the first time that HLE cells in long-term cultures synthesize a continuous sheet of capsule-like material. The findings also suggest that reformation of a tight cell-to-cell relationship or generation of high cell density similar to that found in vivo may be an important factor for the synthesis of lens capsule.
本研究探讨了组织培养中的人晶状体上皮(HLE)细胞在多大程度上保留了分化潜能、晶状体特异性标记蛋白的表达以及晶状体囊膜的合成能力,这些是体内晶状体上皮的主要特征。
HLE细胞原代培养维持长达450天。采用透射电子显微镜和免疫电子显微镜研究合成囊膜的厚度以及IV型胶原和层粘连蛋白的形成,这两种是体内晶状体囊膜基底膜的主要蛋白质成分。
在长期HLE培养系统中,未经亚克隆,晶状体纤维分化和囊膜合成在450天内得以维持。在这些培养物中,细胞片层显示出三个不同区域:(1)中央紧密单层区;(2)周边轻度不规则聚集多层区;(3)周边松散单层区。基底膜样物质在中央区合成,类晶状体(作为纤维分化模型)主要在中周边区形成。周边区未观察到囊膜物质或类晶状体。通过抗体反应检测,囊膜样物质厚2至2.5微米,并显示存在IV型胶原和层粘连蛋白。
本研究首次证明长期培养中的HLE细胞合成了连续的囊膜样物质片层。研究结果还表明,紧密的细胞间关系的重建或类似于体内的高细胞密度的产生可能是晶状体囊膜合成的重要因素。
