BACKGROUND: We examined the immunolocalization of proto-oncogene products, including c-Fos and c-Jun, in the rat cornea during epithelial and stromal wound healing after simple epithelial ablation, penetrating injury or alkali burn. METHODS: Eighty-four male Wistar rats were divided into three groups and subjected to treatments as follows: (a) ablation of central corneal epithelium leaving basement membrane intact, (b) alkali burn in the central cornea with 1 N NaOH and (c) penetrating injury at the central cornea. The affected eyes were then enucleated after various intervals of healing. The frozen sections were immunohistochemically stained with the antibodies against proto-oncogene products. RESULTS: c-Fos- and c-Jun-immunoreactive cells were detected in the epithelium around the epithelial defect from 60 to 120 min after these treatments. The distribution of these cells were varied in these three types of injury. The immunoreactivities for these proteins were also detected in keratocytes after epithelial ablation. In the corneas with alkali burn, the immunoreactivities were detected in the keratocytes in the whole corneal stroma, and these immunoreactions were stronger than those observed in simple epithelial ablation. In the corneas with penetrating injury, such immunoreaction was seen only in keratocytes around the wound. CONCLUSION: These findings indicate that activator protein 1-mediated transcriptional activation for epithelial migration is initiated in the early phase after each injury, and that stromal keratocytes are also transcriptionally activated not only by alkali burn or penetrating injury but also by simple epithelial ablation in which basement membrane was not affected.
BACKGROUND: We examined the immunolocalization of proto-oncogene products, including c-Fos and c-Jun, in the rat cornea during epithelial and stromal wound healing after simple epithelial ablation, penetrating injury or alkali burn. METHODS: Eighty-four male Wistar rats were divided into three groups and subjected to treatments as follows: (a) ablation of central corneal epithelium leaving basement membrane intact, (b) alkali burn in the central cornea with 1 N NaOH and (c) penetrating injury at the central cornea. The affected eyes were then enucleated after various intervals of healing. The frozen sections were immunohistochemically stained with the antibodies against proto-oncogene products. RESULTS:c-Fos- and c-Jun-immunoreactive cells were detected in the epithelium around the epithelial defect from 60 to 120 min after these treatments. The distribution of these cells were varied in these three types of injury. The immunoreactivities for these proteins were also detected in keratocytes after epithelial ablation. In the corneas with alkali burn, the immunoreactivities were detected in the keratocytes in the whole corneal stroma, and these immunoreactions were stronger than those observed in simple epithelial ablation. In the corneas with penetrating injury, such immunoreaction was seen only in keratocytes around the wound. CONCLUSION: These findings indicate that activator protein 1-mediated transcriptional activation for epithelial migration is initiated in the early phase after each injury, and that stromal keratocytes are also transcriptionally activated not only by alkali burn or penetrating injury but also by simple epithelial ablation in which basement membrane was not affected.