Here we report a role in these processes for the kidney cancer-related gene KR-POK (ZBTB7C), a POZ domain and Krüppel-like zinc finger transcription factor that we found to physically interact with p53.
However, there are very few studies of p53 alterations in the other two rare and highly malignant renal tumors in childhood, in other words, clear cell sarcoma of the kidney (CCSK) and malignant rhabdoid tumor of the kidney (MRTK).
Statistical analyses showed that grade, vascular invasion, and necrosis in bladder cancer, a high Gleason score in prostate cancer, and the 1-year mortality rate in renal cancer were significantly related with p53 nuclear overexpression (P < 0.05).
Summarizing these results, it seems unlikely that p53 gene alterations will serve as an important new factor for the clinical prognosis of patients with renal-cell cancer.
These results suggest that, while the primary disease gene for kidney cancer appears to be on chromosome 3, abnormalities of p53 are common and may be involved in the progression of this malignancy.
However, the methylation change is the only one of the 17p abnormalities which occurs at a high incidence in early-stage renal cancers (hypermethylation, 50%; 17p allelic loss, 13%; p53 mutations, 0%).