Synthesis, modeling and evaluation of 3′-(1-aryl-1H-tetrazol-5-ylamino)-substituted 3′-deoxythymidine derivatives as potent and selective human mitochondrial thymidine kinase inhibitors

Abstract

Based on the presumed binding mode of an earlier identified inhibitor, we herein report new 3'-modified nucleosides as potent and selective inhibitors of mitochondrial thymidine kinase (TK2). A series of thirteen 3'-amino-, 3'-guanidino- and 3'-tetrazole-containing nucleosides were synthesized and evaluated for their TK2 inhibitory activity. Within the tetrazole series, compounds with nanomolar inhibitory activity were identified. A homology model of TK2 allowed to elucidate the observed activities. Introduction of a 2-bromovinyl group on C-5 of the pyrimidine base of the most promising 3'-derivative further improved the inhibitory activity, and caused a significant increase in the selectivity for TK2 versus TK1. Interestingly, for the current series of analogues, a strong correlation was observed between TK2 and Drosophila melanogaster dNK inhibition, further substantiating the phylogenetic relationship between these two nucleoside kinases.