Influence of Ligand and Nuclearity on the Cytotoxicity of Cyclometallated C^N^C Platinum(II) Complexes

Q: How does OCRA curate its research paper database?

OCRA indexes peer-reviewed papers from PubMed and CrossRef, enriched with MeSH terms, author profiles, and citation metrics. Papers are categorized by cancer type, research method, and clinical relevance.

Q: Can I search papers by MeSH term or author?

Yes. Use the search bar to filter papers by MeSH term, author name, journal, keyword, or cancer type. Each paper includes linked MeSH terms and author profiles for further exploration.

Q: How current is the paper database?

The database is updated regularly through automated ingestion from PubMed and CrossRef. Most papers appear within days of their PubMed indexing date.

Rianne M. Lord; Sarah J. Pike

doi:10.1002/chem.202002517

Abstract

A series of cyclometallated mono‐ and di‐nuclear platinum(II) complexes and the parent organic ligand, 2,6‐diphenylpyridine 1 (HC^N^CH), have been synthesized and characterized. This library of compounds includes [(C^N^C)Pt^II(L)] (L=dimethylsulfoxide (DMSO) 2 and triphenylphosphine (PPh₃) 3) and [((C^N^C)Pt^II)₂(L‘)] (where L‘=N‐heterocycles (pyrazine (pyr) 4, 4,4‘‐bipyridine (4,4‘‐bipy) 5 or diphosphine (1,4‐bis(diphenylphosphino)butane (dppb) 6). Their cytotoxicity was assessed against four cancerous cell lines and one normal cell line, with results highlighting significantly increased antiproliferative activity for the dinuclear complexes (4–6), when compared to the mononucleated species (2 and 3). Complex 6 is the most promising candidate, displaying very high selectivity towards cancerous cells, with selectivity index (SI) values >29.5 (A2780) and >11.2 (A2780cisR), and outperforming cisplatin by >4‐fold and >18‐fold, respectively.

Influence of Ligand and Nuclearity on the Cytotoxicity of Cyclometallated C^N^C Platinum(II) Complexes

Abstract

Links

Journal

Institutions

Authors

Funding