Evaluation of modulators of cAMP-response in terms of their impact on cell cycle and mitochondrial activity of Leishmania donovani

Abstract

AbstractWith the identification of novel cAMP binding effecter molecules in Trypanosoma, role of cAMP in kinetopalstida parasites gained an intriguing break through. Despite earlier demonstrations of role of cAMP in survival of Leishmania during macrophage infection, there is essential need to specifically clarify involvement of cAMP in various cellular processes in the parasite. In this context, we sought to gain a comprehensive understanding of the effect of cAMPanalogs and cAMP-phosphodiesterase (PDE) inhibitors on proliferation of log phase parasites. Administration of both hydrolysable (8-pCPT-cAMP) and non-hydrolysable analogs (Sp-8-pCPT-cAMPS) of cAMP resulted in significant decrease of Leishmania proliferation. Amongst the various PDE inhibitors, etazolate was found to be potently anti-proliferative. BrdU cell proliferation and K/N/F-enumeration microscopic study revealed that both cAMP analogues and selective PDE inhibitors resulted in significant cell cycle arrest at G1 phase with reduced S-phase population. Furthermore, careful examination of the flagellar motility patterns revealed significantly reduced coordinated forward flagellar movement of the promastigotes with a concomitant decrease in cellular ATP levels. Alongside, 8-pCPT-cAMP and PDE inhibitors etazolate and trequinsin showed marked reduction in mitochondrial membrane potential. Treatment of etazolate at subcytotoxic concentration to infected macrophages significantly reduced parasite burden and administration of etazolate to Leishmania-infected BALB/c mice showed reduced liver and spleen parasite burden. Collectively, these results imply involvement of cAMP in various crucial processes paving the avenue for developing potent anti-leishmanial agent.Author SummaryLeishmania donovani is the causative agent of fatal Visceral Leishmaniasis. The current available medications are toxic, expensive and require long term daily administrations. With an aim to develop improved therapeutic, components of cAMP homeostasis, particularly cAMP-phosphodiesteares, has been targeted for Leishmania and other kinetoplastid pathogens. cAMP plays diverse roles in functional processes involved in cell division, transition into different stages of the life cycle of Leishmania and motility. In this study, the authors found administration of both hydrolysable and non-hydrolysable analogs of cAMP and certain PDE inhibitors resulted in remarkable decrease proliferation with considerable cytopathic impact on promastigotes. The mammalian phosphodiestearse inhibitor etazolate caused significant reduction in parasite load in L. donovani infected macrophages and demonstrated considerable reduction of liver and spleen parasite burden in in vivo mouse infection model. The study suggested that etazolate, with its slightest impact on mammalian host, can be repurposed for developing effective anti-leishmanials.