Comparative Study of the Mode of Action of Clinically Approved Platinum-Based Chemotherapeutics.

Platinum drugs are among the most effective anticancer agents, but their mode of action is still not fully understood. We therefore carried out a systematic investigation on the cellular activities of cisplatin, carboplatin and oxaliplatin in A498 kidney cancer cells. Cytotoxicity was higher for cisplatin and oxaliplatin compared to carboplatin, with induction of apoptosis as the preferred mode of cell death.

PARP1 Is Required for ATM-Mediated p53 Activation and p53-Mediated Gene Expression after Ionizing Radiation.

PARP1 and p53 are key players in maintaining genomic stability, but their interplay is still not fully understood. We investigated the impact of PARP1 knockout on the DNA damage response after ionizing radiation (IR) by comparing a U2OS-based PARP1-knockout cell line, established by using the genome-editing system CRISPR/Cas9, with its wild-type counterpart. We intended to gain more insight into the impact of PARP1 on the transcriptional level under basal conditions, after low dose (1 Gy) and high dose (10 Gy) DNA damage induced by IR, aiming to reveal the potential connections between the involved pathways.

Activity profile of the cisplatin analogue PN149 in different tumor cell lines.

The efficacy of the anticancer drug cisplatin is restricted by tumor cell resistance and occurrence of severe side effects. One strategy to overcome these limitations is the development of new, improved platinum drugs. Previous investigations showed that platinum(IV)-nitroxyl complexes are able to circumvent cisplatin resistance in bladder cancer cells.