Profiling of signaling molecules in four different human prostate carcinoma cell lines before and after induction of apoptosis.

We have treated four prostate tumor cell lines, DU-145, PC-3, LNCaP and 22RV1 with various concentrations of cisplatin in order to check for influence on viability and for onset of apoptosis induction. At a cisplatin concentration of 20 microM, 22RV1 and DU-145 cells showed approximately 22% and 18% and PC-3 and LNCaP cells showed approximately 4 and 10% dead cells, respectively. When checking for apoptosis induction, the differences among the cell lines became even more evident. DU-145 and 22RV1 cells showed apoptosis induction at 5- and 2-microM cisplatin, whereas in the case of LNCaP and PC-3 cells comparable apoptosis induction was observed at 100-microM cisplatin; hence, the difference between the two groups of cell lines with respect to apoptosis induction is 20- and 50-fold, respectively. We used 37 antibodies to screen the expression levels of key signaling molecules and their phosphorylation status where appropriate. DU-145 and PC-3 cells are androgen-receptor negative and harbor non-functional p53, whereas LNCaP and 22RV1 cells are androgen-receptor positive and harbor wild-type p53. The results of the profiling of DU-145 and PC-3 support the notion that an intact PTEN/AKT pathway (as found in DU-145 and 22RV1 cells) and the presence of active p38 are responsible for the high sensitivity to apoptosis induction and that neither the androgen receptor nor the p53 status is of primary importance for the differences observed with respect to apoptosis induction.

Biochemical characterization of the recombinant human Drosophila homologues Timekeeper and Andante involved in the Drosophila circadian oscillator.

The Drosophila clock proteins timekeeper (CK2a(Tik)) and andante (CK2beta(And)) are mutated CK2alpha and CK2beta subunits, respectively. In order to revisit the hypothesis concerning a perturbation of the beta/beta and/or alpha/beta subunit association, involving the andante mutant we have cloned, expressed and purified the recombinant andante mutant CK2beta(And) and a CK2 holoenzyme composed of CK2beta(And) and the wildtype CK2alpha subunit. Biochemical analyses using gel filtration analysis, inhibitor and heat treatment, as well as urea denaturation studies did not yield significant differences between the wildtype holoenzyme (alpha2beta2) and a holoenzyme containing wildtype CK2alpha and andante CK2beta(And). The timekeeper mutant, CK2alpha(Tik) has been reported to show a significant reduction in enzyme activity. In order to closely investigate the reason for this reduction in activity, we have also cloned and expressed the human homologue of Drosophila timekeeper. Using a CK2 holoenzyme containing the human timekeeper mutant and the wildtype CK2beta subunit we could confirm a strongly reduced activity towards CK2 substrates, but also a significant reduction in the autophosphorylation of the CK2beta in the absence of any substrate. Based on a structure-based model we postulate that the mutation M161K in Drosophila (i.e. M163K in human) is responsible for the drastic loss of activity, where the lysine residue may cause improper binding of the tri-nucleotide.