The epigenome of the malaria parasite, Plasmodium falciparum, is associated with regulation of various essential processes in the parasite including control of proliferation during asexual development as well as control of sexual differentiation. The unusual nature of the epigenome has prompted investigations into the potential to target epigenetic modulators with novel chemotypes. Here, we explored the diversity within a library of 95 compounds, active against various epigenetic modifiers in cancerous cells, for activity against multiple stages of P. falciparum development. We show that P. falciparum is differentially susceptible to epigenetic perturbation during both asexual and sexual development, with early stage gametocytes particularly sensitive to epi-drugs targeting both histone and nonhistone epigenetic modifiers. Moreover, 5 compounds targeting histone acetylation and methylation show potent multistage activity against asexual parasites, early and late stage gametocytes, with transmission-blocking potential. Overall, these results warrant further examination of the potential antimalarial properties of these hit compounds. The almost inevitable development of drug resistance in malaria parasites enforces continued discovery of novel classes of antimalarial compounds 1. To contribute to global malaria elimination strategies, such compounds would need to target multiple life cycle stages of the parasite 2. This includes targeting the rapidly dividing (~48 h) asexual parasites to reduce parasite burden, as well as targeting mature, terminally differentiated sexual gametocytes to block onward human-to-mosquito transmission of the parasite, or exo-erythrocytic liver stage development to block mosquito-to-human transmission. Importantly, to prolong or prevent resistance development, new chemical matter should target novel biological activities in the parasite 3. In oncology research, epigenetic therapeutics ('epi-drugs') evidently hold great promise as targets for anticancer therapies 4 , with several drugs approved for clinical use, including Azacitidine, Decitabine, Vorinostat and Romidepsin 5. The antitumor activity is ascribed to epigenetic deregulation as a result of inhibition of epigenetic modulators, including histone modifying enzymes and DNA methyltransferases. This results in particular changes in histone post-translational modifications (PTMs), disruption of transcriptional processes, chromatin structure maintenance and DNA repair 6,7. Plasmodium falciparum relies heavily on epigenetic mechanisms to drive both asexual proliferation and sexual differentiation (reviewed in 8-11). The parasite's genome encodes a unique complement of histone modifying enzymes including histone deacetylases (HDACs), histone acetyltransferases (HATs), histone methyltransferases (HMTs, including lysine HKMT), protein arginine methyltransferases (PRMTs), and histone demethylases (HDMs) 12 in addition to other non-histone epigenetic modifiers. As a result, inhibitors of histone modifying enzymes have been investigated as no...
We have demonstrated previously that amino-artemisinins including artemiside and artemisone in which an amino group replaces the oxygen-bearing substituents attached to C-10 of the current clinical artemisinin derivatives dihydroartemisinin (DHA), artemether and artesunate, display potent activities in vitro against the asexual blood stages of Plasmodium falciparum (Pf). In particular, the compounds are active against late blood stage Pf gametocytes, and are strongly synergistic in combination with the redox active drug methylene blue. In order to fortify the eventual selection of optimum amino-artemisinins for development into new triple combination therapies also active against artemisinin-resistant Pf mutants, we have prepared new amino-artemisinins based on the easily accessible and inexpensive DHA-piperazine. The latter was converted into alkyl-and aryl sulfonamides, ureas and amides. These derivatives were screened together with the comparator drugs DHA and the hitherto most active amino-artemisinins artemiside and artemisone against asexual and sexual blood stages of Pf and liver stage P. berghei (Pb) sporozoites. Several of the new amino-artemisinins bearing aryl-urea and-amide groups are potently active against both asexual, and late blood stage gametocytes (IC 50 0.4-1.0 nM). Although the activities are superior to those of artemiside (IC 50 1.5 nM) and artemisone (IC 50 42.4 nM), the latter are more active against the liver stage Pb sporozoites (IC 50 artemisone 28 nM). In addition, early results indicate these compounds tend not to display reduced susceptibility against parasites bearing the Pf Kelch 13 propeller domain C580Y mutation characteristic of Wong et al. Transmission-Blocking Amino-Artemisinins for New ACTs artemisinin-resistant Pf. Thus, the advent of the amino-artemisinins including artemiside and artemisone will enable the development of new combination therapies that by virtue of the amino-artemisinin component itself will possess intrinsic transmission-blocking capabilities and may be effective against artemisinin resistant falciparum malaria.
A novel diazaspiro [3.4]octane series was identified from a Plasmodium falciparum whole-cell high-throughput screening campaign. Hits displayed activity against multiple stages of the parasite lifecycle, which together with a novel sp 3 -rich scaffold provided an attractive starting point for a hit-to-lead medicinal chemistry optimization and biological profiling program. Structure−activity-relationship studies led to the identification of compounds that showed low nanomolar asexual blood-stage activity (<50 nM) together with strong gametocyte sterilizing properties that translated to transmission-blocking activity in the standard membrane feeding assay. Mechanistic studies through resistance selection with one of the analogues followed by wholegenome sequencing implicated the P. falciparum cyclic amine resistance locus in the mode of resistance.
39New chemical matter is needed to target the divergent biology associated with the different 40 life cycle stages of Plasmodium. Here, we report the parallel screening of the Medicines for 41 Malaria Venture Pandemic Response Box to identify multistage-active and stage-specific 42 compounds against various life cycle stages of Plasmodium parasites (asexual parasites, 43 stage IV/V gametocytes, gametes, oocysts and liver stages) and for endectocidal activity. Hits 44 displayed unique chemotypes and included two multistage-active compounds, 16 asexual-45 targeted, six with prophylactic potential and ten gametocyte-targeted compounds. Notably, 46 four structurally diverse gametocyte-targeted compounds with potent transmission-blocking 47 activity were identified: the JmjC inhibitor ML324, two azole antifungals including 48 eberconazole, and the antitubercular clinical candidate SQ109. Besides ML324, none of these 49 have previously attributed antiplasmodial activity, emphasizing the success of de novo parallel 50 screening against different Plasmodium stages to deliver leads with novel modes-of-action. 51Importantly, the discovery of such transmission-blocking targeted compounds covers a 52 previously unexplored base for delivery of compounds required for malaria elimination 53 strategies. 55 56Malaria treatment solely relies on drugs that target the parasite but current treatment options 57 have a finite lifespan due to resistance development. Moreover, whilst current antimalarials 58 are curative of asexual blood stage parasitemia and associated malaria symptoms, they 59 cannot all be used prophylactically and typically do not effectively block transmission. This 60 limits their utility in malaria elimination strategies, where the latter dictates that chemotypes 61 should block human-to-mosquito (gametocyte and gametes) and mosquito-to-human 62 (sporozoites and liver schizonts) transmission. 63The transmission stages of malaria parasites are seen as parasite population 64 bottlenecks, 1 with as few as 100 sporozoites able to initiate an infection after migrating to the 65 liver where exoerythrocytic schizogony occurs. The subsequent release of thousands of 66 daughter cells, which in turn infect erythrocytes, initiates the extensive population expansion 67 that occurs during asexual replication. A minor proportion (~1%) 2 of the proliferating asexual 68 parasites will undergo sexual differentiation to form mature stage V gametocytes, a 10-14 day 69 process in the most virulent parasite Plasmodium falciparum. Only ~10 3 of these falciform-70 shaped mature gametocytes are taken up by the next feeding mosquito to transform into male 71 and female gametes in the mosquito's midgut. 3 Fertilization results in zygote development, 72 and a motile ookinete that passes through the midgut wall forms an oocyst from which 73 sporozoites develop, making the mosquito infectious.74 The sporozoite and gametocyte population bottlenecks have been the basis of enticing 75 arguments towards the development of chemotypes able to targe...
Background: KwaZulu-Natal, one of South Africa's three malaria endemic provinces, is nearing malaria elimination, reporting fewer than 100 locally-acquired cases annually since 2010. Despite sustained implementation of essential interventions, including annual indoor residual spraying, prompt case detection using malaria rapid diagnostics tests and treatment with effective artemisinin-based combination therapy, low-level focal transmission persists in the province. This malaria prevalence and entomological survey was therefore undertaken to identify the drivers of this residual transmission.Methods: Malaria prevalence as well as malaria knowledge, attitudes and practices among community members and mobile migrant populations within uMkhanyakude district, KwaZulu-Natal were assessed during a communitybased malaria prevalence survey. All consenting participants were tested for malaria by both conventional and highlysensitive falciparum-specific rapid diagnostic tests. Finger-prick filter-paper blood spots were also collected from all participants for downstream parasite genotyping analysis. Entomological investigations were conducted around the surveyed households, with potential breeding sites geolocated and larvae collected for species identification and insecticide susceptibility testing. A random selection of households were assessed for indoor residual spray quality by cone bioassay.
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