Recently, we described a new biological function of p53 in inhibiting recombination processes when encountering mismatches in heteroduplexes (DudenhoÈ er et al., 1998). Here, we characterized protein domains of p53 participating in this process by in vitro analysis of mutated p53 proteins, and by applying our SV40-based assay system on monkey cells, which express di erent p53 variants. We present evidence that both binding of arti®cial recombination intermediates and p53-dependent recombination control require an intact p53 core and the oligomerization domain, strongly suggesting that the recognition of DNA undergoing recombination represents an essential step of this genomic surveillance mechanism. Further analyses indicated a role of the C-terminus in negatively regulating recombination control, an e ect which can be neutralized by concurrent mismatch recognition. p53 lacking the oligomerization domain totally lost its ability to suppress homologous recombination. The cancer-related mutant p53(273H) was also signi®cantly defective in this function, although we observed only twofold reductions in the corresponding transactivation activities on p53-response elements in episomal constructs. HDM2, an inhibitor of p53's transcriptional and growth regulatory activities, interfered with the inhibition of DNA exchange processes by p53 only weakly. Thus, functions of p53 in recombination control can be structurally dissociated from p53-dependent transcriptional transactivation.
The serine/threonine-specific casein kinase I delta (CKIdelta) is ubiquitously expressed in all tissues, is p53 dependently induced in stress situations and plays an important role in various cellular processes. Our immunohistochemical analysis of the human placenta revealed strongest expression of CKIdelta in extravillous trophoblast cells and in choriocarcinomas. Investigation of the functional role of CKIdelta in an extravillous trophoblast hybrid cell line revealed that CKIdelta was constitutively localized at the centrosomes and the mitotic spindle. Inhibition of CKIdelta with the CKI-specific inhibitor IC261 led to structural alterations of the centrosomes, the formation of multipolar spindles, the inhibition of mitosis and, in contrast to other cell lines, the induction of apoptosis. Our findings indicate that CKIdelta plays an important role in the mitotic progression and in the survival of cells of trophoblast origin. Therefore, IC261 could provide a new tool in treating choriocarcinomas.
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