1. N7-platinated ribonucleotides are not incorporated by RNA polymerases. New perspectives for a rational design of platinum antitumor drugs
- Author
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Tiziano Verri, Michele Benedetti, Federica De Castro, Francesco Paolo Fanizzi, Danilo Migoni, Alessandro Romano, Chiara Roberta Girelli, Daniela Antonucci, Benedetti, Michele, Romano, Alessandro, DE CASTRO, Federica, Girelli, CHIARA ROBERTA, Antonucci, Daniela, Migoni, Danilo, Verri, Tiziano, and Fanizzi, Francesco Paolo
- Subjects
DNA, Bacterial ,GTP' ,Organoplatinum Compounds ,Antineoplastic Agents ,Antitumor drug ,010402 general chemistry ,01 natural sciences ,Biochemistry ,Metalated purine ,Inorganic Chemistry ,chemistry.chemical_compound ,Viral Proteins ,Transcription (biology) ,medicine ,Escherichia coli ,T7 RNA polymerase ,Polymerase ,biology ,010405 organic chemistry ,Escherichia coli Proteins ,RNA ,Nuclease protection assay ,DNA ,DNA-Directed RNA Polymerases ,Ribonucleotides ,0104 chemical sciences ,RNA, Bacterial ,chemistry ,Lac Operon ,Drug Design ,Nucleic acid ,biology.protein ,Cisplatin ,medicine.drug - Abstract
In this work, we assessed the capacity of RNA polymerases to use platinated ribonucleotides as substrates for RNA synthesis by testing the incorporation of the model compound [Pt(dien)(N7-5'-GTP)] (dien=diethylenetriamine; GTP=5'-guanosine triphosphate) into a natural RNA sequence. The yield of in vitro transcription operated by T7 RNA polymerase, on the LacZ (Escherichia coli gene encoding for β-galactosidase) sequence, decreases progressively with decreasing the concentration of natural GTP, in favor of the platinated nucleotide, [Pt(dien)(N7-5'-GTP)]. Comparison of the T7 RNA polymerase transcription activities for [Pt(dien)(N7-5'-GTP)] compound incorporation reaction test, with respect to the effect of a decreasing concentration of natural GTP, showed no major differences. A specific inhibitory effect of compound [Pt(dien)(N7-5'-GTP)] (which may pair the complementary base on the DNA strand, without being incorporated in the RNA by the T7 RNA polymerase) was evidenced. Our findings therefore suggest that RNA polymerases, unlike DNA polymerases, are unable to incorporate N7-platinated nucleotides into newly synthesized nucleic acids. In this respect, specifically designed N7-platinated nucleotides based compounds could be used in alternative to the classical platinum based drugs. This approach may offer a possible strategy to target specifically DNA, without affecting RNA, and is potentially able to better modulate pharmacological activity.
- Published
- 2016