Bioactive Furanyl- or Thienyl-Substituted Nucleobases, Nucleosides and Their Analogues

Abstract

Five-membered heterocycles, including furan and thiophene, play a prominent role in drug design as structural units of bioactive molecules. This review is intended to demonstrate the importance of the furan-2-yl, furan-3-yl, thien-2-yl and thien-3-yl substituents in the medicinal chemistry of purine and pyrimidine nucleobases, nucleosides and selected analogues. Data presented in the article are limited to compounds containing heteroaromatic ring connected through a bond and not fused to other systems. The impact of bioisosteric replacement of aryl substituents with heteroaryl ones on activities was assessed by comparison of the title compounds with their aryl counterparts. A total of 135 heteroaryl-substituted and 35 aryl-substituted derivatives are mentioned in the text and shown in the figures. The following classes of compounds are included in the article: (i) 5-heteroaryl-2'-deoxyuridines and related compounds; (ii) 8-heteroaryl- 2,9-disubstituted adenine derivatives; (iii) O⁶-(heteroarylmethyl)guanines; (iv) 6-heteroaryl tricyclic guanine analogues; (v) 6-heteroaryl-9-benzylpurines and analogous compounds; (vi) N⁴- furfurylcytosine, N⁶-furfuryladenine, their derivatives and analogues; (vii) 6-heteroaryl purine and 7- deazapurine ribonucleosides; (viii) 7-heteroaryl-7-deazaadenosines, their derivatives and analogues; (ix) 4-heteroaryl fused 7-deazapurine nucleosides. In most cases various modifications of the lead compound structure performed in order to obtain the most favorable activity and selectivity are briefly discussed. The reviewed structure-activity relationship studies exemplify the search for compounds with optimized antiviral, antitumor, antimycobacterial or antiparkinsonian action.

Keywords: Nucleoside analogue; adenosine receptor antagonist; antimycobacterial activity; antiviral activity; cytostatic activity; heteroaryl substituent; structure-activity relationship.