Expression of protein kinase C (PKC) isoenzymes -alpha, -beta, -delta, -epsilon, -gamma, -iota, -lambda, -mu, -theta, and -zeta, and of their common receptor for activated C-kinase (RACK)-1, was determined immunohistochemically using specific antibodies in formalin-fixed and paraffin-embedded specimens of early prostatic adenocarcinomas (n = 23) obtained at radical prostatectomy. Expression of each isoenzyme by malignant tissues was compared with nonneoplastic prostate tissues removed at radical cystectomy (n = 10). The most significant findings were decreased PKC-beta expression in early neoplasia when compared to benign epithelium (P < 0.0001), together with a reciprocal increase in expression of PKC-epsilon (P < 0.0001). Detectable levels of PKC-alpha and PKC-zeta were also significantly increased in the cancers (P = 0.045 and P = 0.015 respectively) but did not correlate with either PKC-beta or PKC-epsilon for individual cases. Alterations in the levels of the four PKC isoenzymes occurred specifically and consistently during the genesis and progression of human prostate cancer. PKC-delta, -gamma, and -theta were not expressed in the epithelium of either the benign prostates or the cancers. Levels of expression for PKC-A, -iota, -mu, and RACK-1 were not significantly different between the benign and malignant groups. Although changes in PKC isoenzyme expression may assist in explaining an altered balance between proliferation and apoptosis, it is likely that changes in activity or concentrations of these isoenzymes exert important modulating influences on particular pathways regulating cellular homeostasis. The findings of this study raise an exciting possibility of novel therapeutic intervention to regulate homeostatic mechanisms controlling proliferation and/or apoptosis, including expression of the p170 drug-resistance glycoprotein, intracellular Ca2+ concentrations, and enhanced cellular mobility resulting in the metastatic dissemination of human prostate cancer cells. Attenuation of PKC-beta expression is currently being assessed as a reliable objective adjunct to morphological appearance for the diagnosis of early progressive neoplasia in human prostatic tissues.
Many women who present with symptoms of bladder dysfunction relate the onset to the operation of simple hysterectomy. A group of 42 women undergoing simple hysterectomy was studied prospectively. Urinary symptoms, urodynamic findings and sacral reflex latencies (SRLs) were assessed pre- and post-operatively. After hysterectomy the incidence of urinary symptoms increased from 58.3 to 75.0%. Vesicourethral dysfunction was altered in 30.6% of patients, 72.7% of whom had evidence of pelvic neuropathy as detected by SRLs. The results show that simple hysterectomy is associated with a significant incidence of post-operative vesicourethral dysfunction and that there is an identifiable neurological abnormality incurred at operation which is pertinent to the subsequent disordered voiding.
Loss of p53 function is a critical event in tumor evolution. This occurs through a range of molecular events, typically a missense p53 mutation followed by loss of heterozygosity. In many cancers, there is compelling evidence that cells that can compromise p53 function have a selective advantage. The situation in renal cell carcinoma is unclear. It has recently been suggested that p53 function is unusually compromised in renal carcinoma cells by a novel dominant, MDM2/p14 ARF -independent mechanism. This is hard to reconcile with other recent studies that have identified p53 as an important prognostic indicator. Indeed, one of these latter studies found that the best predictor of poor outcome was the presence of high levels of both p53 (usually indicative of p53 mutation) and MDM2. Thus, it is important that we gain a clearer understanding of the regulation of p53 and the role of MDM2 in renal cell cancer. To address this, we have investigated the transcriptional activity of p53 in a panel of renal cell carcinoma cell lines and the contribution of MDM2 and p14 ARF to p53 regulation. We have found that p53 is functional in p53 wild-type renal cell carcinoma cells and that this activity is significantly regulated by MDM2 and to a much lesser extent by p14 ARF . Moreover, following induction of DNA damage with UV, the p53 response in these cells is intact. Thus, future studies of renal cell carcinoma that focus on p53 and MDM2 and their role in determining disease outcome will be required to create a better understanding of this notoriously difficult to manage disease. (Cancer Res 2005; 65(15): 6498-503)
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