Watsky M A
Department of Physiology and Biophysics, University of Tennessee, Memphis 38163, USA.
Invest Ophthalmol Vis Sci. 1995 Dec;36(13):2568-76.
Several studies have indicated the anatomic and biochemical presence of gap junctions in corneal keratocytes. The current study was designed to demonstrate that these gap junctions are functional in rabbit and human corneal keratocytes. This study also examined dye coupling between keratocytes migrating into the wound region of freeze-wounded rabbit corneas.
Freeze wounds were created on anesthetized rabbit corneas using a liquid nitrogen-cooled brass probe. Freeze-wounded corneas were examined at several time periods from days 0 to 5 after wounding. Nonwounded rabbit corneas also were examined. Human corneal buttons were examined immediately after removal from patients who underwent keratoplasty. Gap junctional coupling was examined by microinjecting carboxyfluorescein from microelectrodes into the basal-most keratocytes and capturing dye spread images with a cooled charge coupled device camera.
Significant dye spread was observed between cells in the unwounded areas of corneas at wound time 0 and between cells migrating into the wound areas as early as 24 hours after wounding. In control corneas, dye spread to as many as 50 cells from the source cell. Dye spread also was seen between keratocytes in human corneas with pseudophakic bullous keratopathy and keratoconus.
Gap junctions observed in keratocytes from normal rabbit corneas are functional. Gap junctions also are present and functional in keratocytes within unwounded and wounded regions of freeze-injured corneas. In addition, functional gap junctions are present between keratocytes in human corneas. This study confirms the long-held contention that corneal keratocytes form a large intercommunicating network within the corneal stroma.
多项研究已表明角膜基质细胞中存在缝隙连接的解剖学和生物化学证据。本研究旨在证明这些缝隙连接在兔和人角膜基质细胞中具有功能。本研究还检测了迁移至冷冻损伤兔角膜伤口区域的基质细胞之间的染料偶联情况。
使用液氮冷却的黄铜探针在麻醉的兔角膜上造成冷冻损伤。在损伤后0至5天的多个时间段检查冷冻损伤的角膜。也检查未受伤的兔角膜。从接受角膜移植术的患者身上取出人角膜组织块后立即进行检查。通过将羧基荧光素从微电极微量注射到底层基质细胞中,并用冷却电荷耦合器件相机捕获染料扩散图像来检测缝隙连接偶联。
在损伤时间为0时,在角膜未受伤区域的细胞之间以及早在损伤后24小时迁移至伤口区域的细胞之间观察到明显的染料扩散。在对照角膜中,染料从源细胞扩散到多达50个细胞。在患有假晶状体大泡性角膜病变和圆锥角膜的人角膜基质细胞之间也观察到染料扩散。
在正常兔角膜基质细胞中观察到的缝隙连接具有功能。在冷冻损伤角膜的未受伤和受伤区域的基质细胞中也存在且具有功能的缝隙连接。此外,人角膜基质细胞之间存在功能性缝隙连接。本研究证实了长期以来的观点,即角膜基质细胞在角膜基质内形成一个庞大的相互连通的网络。
