p53 protein subcellular localization and apoptosis in rodent corneal epithelium cell culture following ultraviolet irradiation.

The tumor-suppressor gene p53 encodes a phosphoprotein involved in the control of cell growth. p53 expression and function have been documented in malignancy, apoptosis and the aging processes. Recently, p53 has been mapped and characterized in the normal cornea across different species. In the present study, high levels of cytoplasmic p53 protein were noted in normal primary corneal epithelium cultures by immunohistochemistry and western blot analysis. Following ultraviolet (UV) irradiation, the level of cytoplasmic p53 protein expression was increased beginning from 30 min and lasting until 6 h post-irradiation and then returned close to control levels by 24 h. Cytoplasmic p53 phosphorylation was detected from 30 min following UV treatment until 6 h post-irradiation. p53 protein became apparent in the nucleus in a fraction of these cultured cells beginning 30 min following UV irradiation and was still present 24 h later. We also found that p53 colocalized with mitochondria 2 h following UV irradiation in some of the cells and remained there up to 24 h. As the expression levels of p53 transcription following UV irradiation were not significantly altered, the increase in cytoplasmic p53 protein expression may be conditional only upon post-translational stabilization. We also observed that the apoptotic index increased following UV irradiation in the same time frame as the p53 nuclear transfer and was partially suppressed by pifithrin-α, which is a reversible inhibitor of p53-mediated apoptosis and p53-dependent gene transcription. The present study offers new evidence suggesting that cytoplasmic p53 in rodent corneal epithelium is functionally active.

Identification of cytoplasmic p53 protein in corneal epithelium of vertebrates.

The tumour suppressor gene p53 encodes a phosphoprotein involved in the control of cell growth. It's expression and function have been documented in malignancy, apoptosis and the aging processes. Recently, p53 expression has been demonstrated in normal murine tissues, including whole eye. Currently, we intend to map and to characterize p53 expression in the normal cornea across different species. To do this, eyes of animals were enucleated after sacrifice by CO(2) narcosis and then p53 expression in whole eyes (cornea) was mapped by indirect immunohistochemical staining techniques using the anti-p53 monoclonal antibodies PAb 248, PAb 421 and PAb 240 (alternatively called mAb 248, mAb 421 and mAb 240, respectively). Additionally, eyes were freshly dissected to separate the corneas, for quantitating p53 expression, using Western blot analysis. We found strong cytoplasmic p53 expression in the corneal epithelium of various vertebrate species by immunohistochemistry and by Western analysis. High levels of cytoplasmic p53 protein were normally found in normal corneal epithelium of various vertebrate species. Hence, these data may indicate that p53 may have a new evolutionary significant function in the eye.