Adenosine analogues as antimetabolites against Plasmodium falciparum malaria

Analogues of purine nucleosides and deoxynucleosides were tested for toxicity against the intraerythrocytic parasite Plasmodium falciparum in vitro culture. Sangivamycin (7-deaza-7-amido-adenosine) (IC 37 of 0.3 μM), tubercidin (7-deaza-adenosine) (IC 37 of 0.7 μM), 6-methylamino-deoxyadenosine (IC 37 of 10 μM), 8-aza-2-amino-deoxy-adenosine (IC 37 of 11 μM) and 2-chloro-adenosine (IC 37 of 11 μM) were found to be the most toxic towards the parasite. Structure-activity analysis suggested that alteration of the purine ring at the 7 or 8 position significantly increased the toxicity of the compound against P. falciparum. Analysis by HPLC of parasite lysates which had been subjected to the cytotoxic compounds confirmed that alterations in the flux of the purine salvage pathways of the parasite had occurred. Comparison of the toxicity of these compounds against P. falciparum with the toxicity against a similar intraerythrocytic parasite, Babesia bovis, or human melanoma cell lines indicated a differential toxicity, in that many of the compounds toxic towards P. falciparum were relatively non-toxic towards human melanoma cell lines or B. bovis and vice versa. The mechanism of toxicity of the deoxyadenosine and adenosine analogues, whose normal metabolism involves transport, metabolism and incorporation into nucleic acids appears to vary significantly between P. falciparum, B. bovis and mammalian cells.