Protein kinase Cepsilon interacts with Bax and promotes survival of human prostate cancer cells.

Prostatic glandular epithelial cells express protein kinase Cepsilon (PKCepsilon ), an oncoprotein that coordinately disrupts the reactivation of the tumor suppressor Rb, derepressess transcriptional elongation of the c-myc oncogene, and propagates survival signals in LNCaP cells. Since the activation of such a program may contribute to the progression of human prostate cancer, a proteomic analysis was performed to gain a more global perspective on the signaling network that PKCepsilon might be capable of engaging in prostate cancer cells. Using CWR22 xenografts, we identified at least 18 different structural, signaling, and stress-related proteins that associated with PKCepsilon, including an interaction with the proapoptotic protein Bax that was novel to recurrent CWR22 tumors. An investigation into the biological significance of the PKCepsilon association with Bax provided the first evidence of an inverse relationship between endogenous levels of PKCepsilon and susceptibility of prostate cancer cells to the apoptotic effects of phorbol esters. Western blot and antisense experiments demonstrated that CWR-R1 cells expressed moderate levels of PKCepsilon and relied on this protein to survive in the presence of phorbol esters, while the apoptosis normally induced by phorbol esters in PKCepsilon -deficient LNCaP cells was dependent on the presence of Bax. Forced expression of PKCepsilon in LNCaP cells was sufficient to confer a significant resistance to phorbol esters and this resistance was associated with an inhibition of phorbol ester-induced Bax conformational rearrangements that are important for Bax oligomerization, mitochondrial integration, and cytochrome c release. Considered in their entirety, our data suggest that an association of PKCepsilon with Bax may neutralize apoptotic signals propagated through a mitochondrial death-signaling pathway.

Mechanism of androgen receptor corepression by CKßBP2/CRIF1, a multifunctional transcription factor coregulator expressed in prostate cancer.

The transcription factor coregulator Casein kinase IIß-binding protein 2 or CR6-interacting factor 1 (CKßBP2/CRIF1) binds the androgen receptor (AR) in prostate cancer cells and in response to dihydrotestosterone localizes with AR on the prostate-specific antigen gene enhancer, but does not bind DNA suggesting CKßBP2/CRIF1 localization in chromatin is determined by AR. In this study we show also that CKßBP2/CRIF1 inhibits wild-type AR and AR N-terminal transcriptional activity, binds to the AR C-terminal region, inhibits interaction of the AR N- and C-terminal domains (N/C interaction) and competes with p160 coactivator binding to the AR C-terminal domain, suggesting CKßBP2/CRIF1 interferes with AR activation functions 1 and 2. CKßBP2/CRIF1 is expressed mainly in stromal cells of benign prostatic hyperplasia and in stroma and epithelium of prostate cancer. CKßBP2/CRIF1 protein is increased in epithelium of androgen-dependent prostate cancer compared to benign prostatic hyperplasia and decreased slightly in castration recurrent epithelium compared to androgen-dependent prostate cancer. The multifunctional CKßBP2/CRIF1 is a STAT3 interacting protein and reported to be a coactivator of STAT3. CKßBP2/CRIF1 is expressed with STAT3 in prostate cancer where STAT3 may help to offset the AR repressor effect of CKßBP2/CRIF1 and allow AR regulation of prostate cancer growth.