el-Habashi, A. H., S. M. Freeman, B. el-Morsi, G. F. Morris, and A. J. Marrogi,
"p53 and PCNA coexpression of 81 pleural and peritoneal effusion specimens: an immunohistochemical study.",
Pathology, research and practice, vol. 192, issue 8, pp. 834-9, 1996 Aug.
AbstractSeveral studies have indicated that wild type p53 plays an important role in controlling cell growth and acts as a cyclin modifier. Abnormalities in p53 induce the overexpression of proliferating cell nuclear antigen. The aim of this study is to correlate immunocytochemically the expression of mutant p53 and the proliferative index (PI) as indicated by image analysis of PCNA immunoreactivity in 81 cases of pleural and peritoneal effusions. There was a strong correlation (r = 73%) between p53 immunoreactivity and PCNA PIs. Forty-three (71%) cases indicated p53 immunostaining out of 61 cases with PCNA immunoreactivity, forty of which (93%) proved to have a diagnosis of malignancy using histological or clinical data. Furthermore, 7 malignant cases showed PCNA reactivity but no p53 immunostaining. An additional four malignant cases indicated no reactivity for either p53 or PCNA. Also, there was a significant difference in the PCNA PI between benign and malignant effusions (p < 0.001). These clinical observations confirm the function of wild p53 as a check point during cell cycling, and as a strong negative feedback effect on PCNA expression. Furthermore, such co-expression represents a significant indicator for malignancy.
Mahran, L. G., A. S. el-Khatib, A. M. Agha, and M. T. Khayyal,
"The protective effect of aqueous propolis extract on isolated rat hepatocytes against carbon tetrachloride toxicity.",
Drugs under experimental and clinical research, vol. 22, issue 6, pp. 309-16, 1996.
AbstractThe protective effect of honeybee aqueous propolis extract (APE) against the hepatotoxicity of carbon tetrachloride was investigated using isolated liver-cell suspensions as the experimental model. Various concentrations of the extract were preincubated with the hepatocyte suspensions for 30 min before being subjected to the hepatotoxin for a further 30 min. The hepatocyte toxicity was assessed using three parameters, namely, the release of lactate dehydrogenase, the formation of lipid peroxides and the depletion of intracellular reduced glutathione. It was found that a dose-related protection against the induced cell injury was conferred by APE as evidenced by its inhibitory influence on the changes induced by CCl4 on the measured parameters. The hepatocyte protective effect of APE is probably a result of its antioxidant and free-radical-scavenging properties which in turn help to maintain the intracellular level of reduced glutathione.
Mahran, L. G., A. S. el-Khatib, A. M. Agha, and M. T. Khayyal,
"The protective effect of aqueous propolis extract on isolated rat hepatocytes against carbon tetrachloride toxicity.",
Drugs under experimental and clinical research, vol. 22, issue 6, pp. 309-16, 1996.
AbstractThe protective effect of honeybee aqueous propolis extract (APE) against the hepatotoxicity of carbon tetrachloride was investigated using isolated liver-cell suspensions as the experimental model. Various concentrations of the extract were preincubated with the hepatocyte suspensions for 30 min before being subjected to the hepatotoxin for a further 30 min. The hepatocyte toxicity was assessed using three parameters, namely, the release of lactate dehydrogenase, the formation of lipid peroxides and the depletion of intracellular reduced glutathione. It was found that a dose-related protection against the induced cell injury was conferred by APE as evidenced by its inhibitory influence on the changes induced by CCl4 on the measured parameters. The hepatocyte protective effect of APE is probably a result of its antioxidant and free-radical-scavenging properties which in turn help to maintain the intracellular level of reduced glutathione.