Leishmaniasis causes high mortality and morbidity in tropical and subtropical regions of Africa, Asia, the Americas and southern Europe, and is characterized by diverse clinical manifestations. As a neglected tropical disease, limited resources are allocated for antileishmanial drug discovery. The Leishmania parasite is deficient in de novo purine synthesis, and therefore acquires purines from the host and processes these using a purine salvage pathway. By making use of purine transport systems and interfering with this salvage pathway, purine (nucleoside) analogues might exert a selective detrimental impact on its growth and survival. In vitro screening of an in-house purine nucleoside library and analogue synthesis afforded the 6-methyl-7-(2-pyridyl)-7-deazapurine ribonucleoside analogue 18 as a promising hit. Optimization of the 7-substituent afforded 31 and 32 which displayed potent activity against wild-type and resistant L. infantum, intracellular amastigote and extracellular promastigote forms, and favorable selectivity versus primary mouse macrophages (Mφ) and MRC-5 cells. Encouraged by the favorable in vitro metabolic stability of 32, an in vivo study was performed using an early curative L. infantum hamster model. When orally administrated at 50 mg/kg once daily (s.i.d) for 10 days, 32 was devoid of side effects, however, it only poorly reduced amastigote burdens in the major target organs.