Conclusions
Our study suggests that the aberration in the MMR repair mechanism may be significantly more important regarding the grading among PC cells in comparison to the impact of alterations in the DSB repair mechanism. The lack of correlation between expression of the TP53BP1 protein and Gleason pattern and Gleason score suggests that the radiation resistance of PC is independent of alterations connected with TP53BP1.
Material and methods
A total of 500 prostate cancer specimens were recruited in this study. From among all gathered specimens the 52 most suitable cases were selected. The expression of examined proteins was detected by immunohistochemistry, and its correlation with the Gleason score and pattern were further analyzed through standard statistical algorithms.
Methods
A total of 500 prostate cancer specimens were recruited in this study. From among all gathered specimens the 52 most suitable cases were selected. The expression of examined proteins was detected by immunohistochemistry, and its correlation with the Gleason score and pattern were further analyzed through standard statistical algorithms.
Results
The results show a significant correlation between Gleason pattern and the nuclear expression of the MSH2 protein and the cytoplasmic expression of the MLH1 protein. Gleason score significantly correlates with the nuclear and the cytoplasmic expression of the MSH2 protein and the cytoplasmic expression of the MDC1 protein. There is no correlation between the nuclear or cytoplasmic expression of the TP53BP1 protein and Gleason pattern or score. Conclusions: Our study suggests that the aberration in the MMR repair mechanism may be significantly more important regarding the grading among PC cells in comparison to the impact of alterations in the DSB repair mechanism. The lack of correlation between expression of the TP53BP1 protein and Gleason pattern and Gleason score suggests that the radiation resistance of PC is independent of alterations connected with TP53BP1.