AI Article Synopsis

  • The fluorescent platinum(II) compounds cis-[Pt(A9opy)Cl(2)] and cis-[Pt(A9pyp)(dmso)Cl(2)] demonstrate strong anticancer activity against various human tumor cell lines, including both sensitive and cisplatin-resistant ovarian carcinoma cells.
  • These compounds show higher levels of cellular platinum accumulation and more efficient DNA binding compared to cisplatin, indicating enhanced effectiveness in targeting cancer cells.
  • Notably, cis-[Pt(A9opy)Cl(2)] exhibits greater accumulation and DNA adduct formation in the resistant A2780R cell line, suggesting it can bypass common resistance mechanisms associated with cisplatin treatment.

Article Abstract

The anticancer properties of two new fluorescent platinum(II) compounds, cis-[Pt(A9opy)Cl(2)] and cis-[Pt(A9pyp)(dmso)Cl(2)] are described. These compounds are highly active against several human tumor cell lines, including human ovarian carcinoma sensitive and cisplatin-resistant cell lines (A2780 and A2780R). To study the cellular processing of these new compounds, a series of in vitro studies have been performed, including the investigation of intracellular platinum accumulation and DNA-platination experiments in A2780 and A2780R cells. Compared to cisplatin, both compounds are accumulated highly in both sensitive and resistant cell lines, and more platinum has been found to bind to the nuclear DNA. Interestingly, cis-[Pt(A9opy)Cl(2)] shows high accumulation and DNA adduct formation in the resistant cell line A2780R, as compared to the sensitive counterpart A2780 cell line. This suggests that cis-[Pt(A9opy)Cl(2)] is able to overcome some of the well-known resistance mechanisms in this cell line, such as decreased cellular uptake and increased DNA repair.

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Source
http://dx.doi.org/10.1016/j.jinorgbio.2009.02.005DOI Listing

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