In vitro activity of halofantrine and its relationship to other standard antimalarial drugs against African isolates and clones of Plasmodium falciparum.

The in vitro activity of halofantrine was studied in chloroquine-susceptible and chloroquine-resistant African clones of Plasmodium falciparum over a period of six months. The susceptibility level remained stable in both clones. The chloroquine-susceptible clone (50% inhibitory concentration [IC50] 6.88 nM) was less susceptible to halofantrine than the chloroquine-resistant clone (IC50 2.98 nM). Using an isotopic semimicro drug susceptibility test, the in vitro activity of halofantrine was compared with the activities of chloroquine, quinine, and mefloquine to study the cross-resistance patterns against 76 African isolates of P. falciparum isolated from cases of malaria imported into France. Chloroquine-resistant isolates (n = 47) were significantly less susceptible to quinine (IC50 234 nM), but were more susceptible to both mefloquine (IC50 3.20 nM) and halofantrine (IC50 1.14 nM) compared with the chloroquine-susceptible isolates (n = 29; IC50 147 nM for quinine, 7.16 nM for mefloquine, and 2.62 nM for halofantrine). A significant positive correlation was found between the activities of chloroquine and quinine and between those of mefloquine and halofantrine, indicating cross-resistance between these drugs, while a negative correlation was observed between chloroquine and mefloquine or halofantrine. The responses to quinine and mefloquine or halofantrine showed no correlation with each other. These results reinforce the importance of a cautious use of antimalarial drugs in Africa.     

Madagascan isolates of Plasmodium falciparum showing low sensitivity to artemether in vitro

In Madagascar, although chloroquine (CQ) remains the first-line treatment of choice for malaria, the gradual spread of resistance to this antimalarial drug is of increasing concern. As part of a larger investigation of the effectiveness of the second- and third-line drugs used to treat malaria, the in-vitro susceptibilities of Plasmodium falciparum collected in Madagascar to CQ, mefloquine (MQ) and artemether (ART) were therefore investigated. Median inhibitory concentrations (IC(50)) were determined for isolates collected from residents of two villages in the foothills of the central highlands. The IC(50) for ART ranged from 0.23-17.50 nM [N = 51; geometric mean = 4.02 nM; 95% confidence interval (CI) = 2.99-5.05 nM], four isolates exhibiting IC(50) (> 12 nM) indicative of resistance to this drug. The artemether IC(50) were found to be correlated with those of CQ (N = 46; Spearman's r = 0.51; P = 0.0002), which varied widely (0.4-254.3 nM; mean = 23.4 nM; CI = 7.1-39.7 nM; N = 46). Five (11%) of the 46 isolates exposed to CQ in vitro were considered resistant to this drug (i.e. to have IC(50) > 100 nM), with IC(50) ranging from 109-245.3 nM (mean = 171.6 nM; CI = 110.4-232.8 nM). However, all the CQ-resistant isolates were considered sensitive to ART and vice versa. All the isolates tested also appeared sensitive to MQ (IC(50) = 2.21-43.1 nM; mean = 10.5 nM; CI = 7.95-13.07 nM; N = 46), the IC(50) for MQ being correlated with those for CQ (N = 46; Spearman's r =0.46; P = 0.001). There was no significant correlation between ART and MQ activities. Although the sample was fairly small, the present results indicate that P. falciparum in Madagascar is generally becoming less sensitive to CQ and ART. The observation of a correlation between the IC(50) for these two drugs perhaps indicates that artemisinin derivatives would be better used in combination with antimalarial drugs other than 4-aminoquinolines.     

In vitro activity of pyronaridine against field isolates and reference clones of Plasmodium falciparum

Pyronaridine, a 9-substituted 1-aza-acridine, was assayed for in vitro activity against clinical and field isolates as well as characterized clones of Plasmodium falciparum. The in vitro antimalarial activity of pyronaridine was compared to activities of standard antimalarials against multidrug-resistant isolates of P. falciparum from eastern and northern Thailand using an assay based on the inhibition of schizont maturation. Isolates from eastern Thailand (n = 30) were susceptible to pyronaridine (IC50 8.40 nM), mefloquine (IC50 6.97 nM), and amodiaquine (IC50 12.7 nM) and resistant to chloroquine (IC50 361 nM), quinine (IC50 388 nM), and pyrimethamine (IC50 11,800 nM). The isolates from northern Thailand (n = 7) showed no statistical difference in susceptibility to pyronaridine (IC50 10.1 nM), amodiaquine (IC50 7.29 nM), and mefloquine (IC50 5.48 nM); however, isolates were significantly more susceptible to chloroquine (IC50 167 nM), quinine (IC50 248 nM), and pyrimethamine (IC50 1,980 nM). These data suggest a lack of cross-resistance between pyronaridine and either chloroquine, quinine, or pyrimethamine. Using the same assay system the in vitro activity of pyronaridine was evaluated against isolates from treatment failures of mefloquine or enpiroline from eastern Thailand. The IC50 values for mefloquine against five recrudescent isolates were significantly higher (IC50 16.4 nM) than the field isolates collected from the same region (IC50 6.97 nM); however, there was no significant difference in the pyronaridine susceptibility between the isolates from the field study (IC50 8.89 nM) and the isolates from the treatment failures (IC50 8.40 nM). These observations suggest a lack of cross-resistance to mefloquine following treatment failure with either mefloquine or enpiroline.(ABSTRACT TRUNCATED AT 250 WORDS)     

The in-vitro susceptibilities of Ghanaian Plasmodium falciparum to antimalarial drugs

In Ghana in 2004 (when choroquine was still the nationally recommended drug for the first-line treatment of malaria), the sensitivities, to chloroquine, amodiaquine, quinine, mefloquine, artesunate and halofantrine, of 60 Plasmodium falciparum isolates from two ecologically distinct areas of the country were assessed in vitro. The aim was to make available, to policy-makers, the field-based evidence needed to review the national strategy for malaria treatment. Drug susceptibilities were explored using the standardized protocol of the Antimalarial Drug Resistance Network. Although 32 of the P. falciparum isolates evaluated (56.1% of the 57 isolates successfully investigated for their susceptibility to choroquine) showed resistance to chloroquine and two showed slightly reduced sensitivity to amodiaquine, all the isolates were sensitive to mefloquine, artesunate, quinine and halofantrine. The median inhibitory concentrations (IC(50)) of chloroquine were positively correlated with those of quinine (r=0.4528; P=0.0008) but not those of any of the other drugs investigated. The IC(50) of amodiaquine and artesunate were also positively correlated (r=0.3703; P=0.0067). These results provide evidence of the presence, in Ghana, of P. falciparum isolates that are highly resistant to chloroquine but generally sensitive to most of the other antimalarial drugs commonly used in the country. Partly in consequence of these observations, the recommended first-line treatment for malaria in Ghana was changed to an amodiaquine-artesunate combination in January 2005.     

In vitro susceptibility of Plasmodium falciparum isolates to chloroquine and mefloquine in southeastern Mindanao Island, the Philippines

Although the presence of multi-drug-resistant falciparum malaria has been reported in the Philippines, the distribution of drug-resistant malaria parasites has not yet been determined in Mindanao Island. In vitro susceptibility of P. falciparum to both chloroquine and mefloquine was assessed to forecast the spread of drug-resistant parasites in various foci in southeastern Mindanao Island. Of the 33 isolates of P. falciparum successfully tested, 10 (30%) were susceptible, 12 (36%) showed decreased susceptibility (80 nM < or = IC50 < 114 nM), and 11 (33%) were resistant (IC50 > or = 114 nM) to chloroquine. Ten (91%) of the resistant isolates and 9 (75%) of those with decreased susceptibility were from northern and northwestern Davao del Norte Province. Chloroquine-susceptible isolates were found among patients in the eastern parts of Davao del Norte and Davao Oriental provinces. Seven isolates from several foci in the study area were all mefloquine- susceptible (IC50 < 10 nM). This is the first report indicating the potential emergence of chloroquine-resistant P. falciparum on Mindanao Island, which is presently regarded as a drug-susceptible area.     

A histidine-rich protein 2-based malaria drug sensitivity assay for field use

With the spread of antimalarial drug resistance, simple and reliable tools for the assessment of antimalarial drug resistance, particularly in endemic regions and under field conditions, have become more important than ever before. We therefore developed a histidine-rich protein 2 (HRP2)-based drug sensitivity assay for testing of fresh isolates of Plasmodium falciparum in the field. In contrast to the HRP2 laboratory assay, the field assay uses a procedure that further simplifies the handling and culturing of malaria parasites by omitting centrifugation, washing, the use of serum, and dilution with uninfected red blood cells. A total of 40 fresh Plasmodium falciparum isolates were successfully tested for their susceptibility to dihydroartemisinin, mefloquine, quinine, and chloroquine (50% inhibitory concentration [IC50] = 3.43, 61.89, 326.75, and 185.31 nM, respectively). Results very closely matched those obtained with a modified World Health Organization schizont maturation assay (R2 = 0.96, P < 0.001; mean log difference at IC50 = 0.054).     

In vitro susceptibility of Plasmodium falciparum isolates from Myanmar to antimalarial drugs.

In vitro drug susceptibility profiles were assessed in 75 Plasmodium falciparum isolates from 4 sites in Myanmar. Except at Mawlamyine, the site closest to the Thai border, prevalence and degree of resistance to mefloquine were lower among the Myanmar isolates as compared with those from Thailand. Geometric mean concentration that inhibits 50% (IC50) and 90% (IC90) of Mawlamyine isolates were 51 nM (95% confidence interval [CI], 40-65) and 124 nM (95% CI, 104-149), respectively. At the nearest Thai site, Maesod, known for high-level multidrug resistance, the corresponding values for mefloquine IC50 and IC90 were 92 nM (95% CI, 71-121) and 172 nM (95% CI, 140-211). Mefloquine susceptibility of P. falciparum in Myanmar, except for Mawlamyine, was consistent with clinical-parasitological efficacy in semi-immune people. High sensitivity to artemisinin compounds was observed in this geographical region. The data suggest that highly mefloquine-resistant P. falciparum is concentrated in a part of the Thai-Myanmar border region.     

Plasmodium falciparum in Madagascar: in vivo and in vitro sensitivity to seven drugs

The sensitivity level of Plasmodium falciparum isolates to chloroquine and the activity of six other antimalarials were studied in the different climatic zones of Madagascar in 1983. In vivo tests were done with 10 and 25 mg kg-1 of chloroquine and amodiaquine. Early recrudescence or RII resistance was observed after treatment with 10 mg kg-1 of these drugs in 34% of the cases for chloroquine and 6.5% for amodiaquine, and after the 25 mg kg-1 dose in 7% and 0% of the cases respectively. In vitro sensitivity of 84 P. falciparum isolates to seven drugs were studied with a semi-microtest. For chloroquine, 9% of the isolates had an IC50 above 250 nM, indicating resistance. In vitro activity of piperaquine was high for all isolates except two. In vitro activity of amodiaquine, dichlorquinazine, quinine, mefloquine and halofantrine was good against all isolates (maximum IC50 was 76, 92, 560, less than or equal to 20 and less than or equal to 12 nM, respectively). Correlation between the WHO standard field test and the in vitro semi-microtest was good. Resistance of P. falciparum to chloroquine was observed in the six survey areas, but the other tested drugs showed good activity. Since no cross-resistance to 4-aminoquinolines seems to exist in Madagascar, amodiaquine (the only one available at present) should be studied as an alternative to chloroquine in the prevention and treatment of falciparum malaria in this area.     

In vitro activities of ferrochloroquine against 55 Senegalese isolates of Plasmodium falciparum in comparison with those of standard antimalarial drugs

The in vitro activities of ferrochloroquine, chloroquine, quinine, mefloquine, halofantrine, amodiaquine, artesunate, atovaquone, cycloguanil and pyrimethamine were evaluated against Plasmodium falciparum isolates from Senegal (Dielmo, Ndiop), using an isotopic micro-drug susceptibility test. The IC50 values for ferrochloroquine ranged from 0.55 to 28.2 nM and the geometric mean IC50 for the 55 isolates was 7.9 nM (95% CI, 6.5-9.7 nM). Ferrochloroquine was 35 times more active than chloroquine (35-fold greater against chloroquine-resistant isolates), quinine, mefloquine, amodiaquine, cycloguanil and pyrimethamine. Weak positive correlations were observed between the responses to ferrochloroquine and that to chloroquine, quinine, and amodiaquine, but not compulsorily predictive of cross-resistance. There was no significant correlation between the response to ferrochloroquine and that to mefloquine, halofantrine, artesunate, atovaquone, cycloguanil and pyrimethamine. Ferrochloroquine may be an important alternative drug for the treatment of chloroquine-resistant malaria.     

Declining mefloquine sensitivity of Plasmodium falciparum along the Thai-Myanmar border

Mefloquine sensitivity of Plasmodium falciparum along the Thai-Myanmar border, both in vitro and in vivo, following different first-line treatments for uncomplicated falciparum malaria patients in these areas during the period 1997--2003 were studied. Standard in vitro micro tests and in vivo efficacy according to World Health Organization methodologies were performed. P. falciparum isolates along the Thai-Myanmar border with in vitro sensitivity to mefloquine have had up to a ten-fold decrease in sensitivity compared to a baseline done in 1986, conducted one year after the drug was first introduced to Thailand. The reduction in the mefloquine sensitivity of P. falciparum isolates in Tak Province developed rapidly, with the highest IC50 of 1,254 nM in 1997. The IC50 declined to 1,067 and 737 nM in 1999 and 2001, respectively, but there was no statistically significant difference in the sensitivity. The sensitivity of P. falciparum isolates from Mae Hong Son, Kanchanaburi, and Ranong, where the first line treatment was mefloquine 15 mg/kg single dose, continued to decline, where in 2001 the IC50 were 1,087, 941, and 1,116 nM, respectively, in these provinces. The difference in sensitivities of P. falciparum isolates in Mae Hong Son and Ranong in 2001, compared to 1997, was statistically significant (p<0.05). Good therapeutic efficacy of the artesunate-mefloquine combination in Tak Province was observed. Adequate clinical responses (ACR) were 89.5% and 92.3% in 1997 and 2002, respectively. The efficacy of mefloquine alone in Mae Hong Son, Kanchanaburi, and Ranong has significantly dropped. ACR in 1997 and 2001 in Mae Hong Son were 87.8% and 73.2%, respectively, in Kanchanaburi were 82% and 59.6%, respectively, and in Ranong were 96% and 31.6%, respectively.     

Effects of hydroxypyridinone iron chelators in combination with antimalarial drugs on the in vitro growth of Plasmodium falciparum

Using standard in vitro drug susceptibility methods, we assessed the antimalarial activity of 3 orally administered iron chelators (hydroxypyridinones) alone and in combination with conventional antimalarials drugs (quinine, mefloquine, artesunate, tetracycline, atovaquone) against a chloroquine-resistant Plasmodium falciparum isolate. When tested alone, all iron chelators and antimalarial compounds inhibited the growth of the parasites. IC50 values for iron chelators were 60-70 microM, whereas the IC50 values for antimalarial drugs were in nM ranges, with artesunate being the most potent. The derived isobolograms for the interaction of hydroxypyridinones and antimalarial drugs showed addition or mild antagonism, similar to desferroxamine (Sum of Fractional Inhibitory Concentration, sigma FIC < 0.5 or > 4.0). Despite the absence of synergy with conventional drugs, intrinsic antimalarial activity of hydroxypyridinones supports the continued assessment of these iron chelators as treatment adjuncts.     

In vitro monitoring of Plasmodium falciparum susceptibility to artesunate, mefloquine, quinine and chloroquine in Cambodia: 2001-2002

We used a classical isotopic microtest to assess the in vitro sensitivity of 352 Plasmodium falciparum isolates collected in Cambodia in 2001 and 2002 to chloroquine, mefloquine, quinine and artesunate. Our results confirm conclusions drawn from earlier studies conducted by the Cambodian national malaria centre. Chloroquine-resistant phenotypes were highly prevalent in Cambodia. Similarly, a high proportion of isolates displayed elevated IC50 to mefloquine. In contrast, only 0.67 and 1.7% of isolates presented decreased susceptibility to quinine and artesunate, respectively. Distributions of mean IC50 according to drug and geographic origin indicated that the parasites circulating to the west of Cambodia largely account for the global situation of drug resistances in Cambodia. Isolates with decreased susceptibility to chloroquine and mefloquine were common along the border with Thailand. In contrast, most of the isolates from eastern Cambodia were susceptible to these compounds. Isolates collected at the western and eastern borders did not respond differently to artesunate. No major differences in responses to antimalarial drugs were observed between 2001 and 2002, suggesting that the situation of drug resistance is now stabilized and under control in Cambodia. However, the decreased susceptibility of isolates collected in the western provinces of Cambodia to mefloquine and the correlation between susceptibility to artesunate and susceptibility to mefloquine and quinine justify the need for an improved international surveillance program for malaria drug resistance in the Mekong sub region.     

In vitro mefloquine resistance of Plasmodium falciparum isolated from the Burmese border region of Thailand

The in vitro susceptibility of twenty isolates of Plasmodium falciparum from Tha Song Yang, Tak province, Thailand were determined. The isolates were resistant to chloroquine (IC50 = 220 nM; MIC = 762 nM), quinine (IC50 = 252 nM; MIC = 1010 nM), and pyrimethamine (IC50 = 16400 nM; MIC = 43100 nM) but generally sensitive to mefloquine (IC50 = 6.90 nM; MIC = 20.9 nM) and halofantrine (IC50 = 8.73 nM; MIC = 2.71 nM). Two isolates were identified which appeared resistant to mefloquine (IC50 = 23.1 nM; MIC = 56.6 nM). These isolates may represent an extension of a population of parasites from eastern Thailand.     

Drug-resistant malaria in Bangladesh: an in vitro assessment

Forty-four Plasmodium falciparum isolates from Bangladesh and 22 from western Thailand were successfully tested for their drug susceptibility. High degrees of resistance were observed against chloroquine with geometric mean IC50s of 114.25 and 120.5 nM, respectively, for Bangladesh and western Thailand. Most isolates from both sites were sensitive to quinine, and all were sensitive to artesunate. Many isolates were considered in vitro resistant to mefloquine, but the geometric mean IC50 for the Thai isolates (98.79 nM) was 1.6 times (P = 0.002) higher than that of isolates from Bangladesh (60.3 nM). The high prevalence of in vitro mefloquine resistance in Bangladesh suggests that close surveillance is necessary to delay widespread multidrug resistant problems in the area.     

Antimalarial drug susceptibility testing of Plasmodium falciparum in Thailand using a microdilution radioisotope method

Antimalarial activity of chloroquine, quinine, mefloquine and halofantrine against 33 strains of P. falciparum isolated from naturally acquired malaria infections in Thailand was determined using a radioisotope microdilution method. A microtitration procedure was used to test isolates of P. falciparum against the 4 drugs simultaneously. The mean ID50 for chloroquine and quinine reflected known resistance to those drugs in Thailand. The mean ID50 for mefloquine and halofantrine showed susceptibility to these drugs. Four isolates of P. falciparum however had markedly decreased susceptibility to mefloquine (ID50 greater than 15 ng/ml); one case of which was confirmed as the first case of RII resistance for mefloquine in Thailand. Several parasite isolates were also observed to have decreased susceptibility to the new drug, halofantrine. These studies strongly recommend that in vitro testing be done in conjunction with field evaluation of new antimalarial drugs.     

The effect of mefloquine and volume-regulated anion channel inhibitors on induced transport in Plasmodium falciparum-infected human red blood cells

The malaria parasite Plasmodium falciparum activates new permeation pathways (NPP) in the host cell membrane of infected human red blood cells (RBCs), which are permeable to anions, cations and a range of organic solutes. It has been suggested from inhibitor and substrate selectivity studies that the NPP may be identical to the volume-activated anion channel (VRAC) present in many mammalian cell types. Here we have tested several known inhibitors of VRAC on the transport of choline and lactate in malaria-infected human RBCs and on parasite growth. Mefloquine, tamoxifen and clomiphene were all without effect on malaria-induced transport at concentrations up to 10 microM and only mefloquine (IC(50) = 24 nM) and, to a lesser degree, clomiphene (IC(50) = 6.2 microM) inhibited parasite growth below this level. It is concluded that the antimalarial effect of mefloquine does not involve the inhibition of malaria-induced transport via the NPP and there is no evidence at present for VRAC and the NPP being identical.     

Comparison of two in vitro sensitivity tests for Plasmodium falciparum

The main purpose of the study was to compare the in vitro sensitivity results obtained from the two widely-used in vitro systems: (1) standard WHO micro-technique based on schizont maturation inhibition using fresh isolates (M-I), and (2) micro-technique based on incorporation of [3H]-hypoxanthine using culture-adapted isolates (M-II). The study was conducted during 1998 and 2002. A total of 473 Plasmodium falciparum isolates were collected from five highly malaria endemic areas of Thailand, ie, Mae Sot district, Tak (north-western), Kanchanaburi (western), Ranong (south-western), Ratchaburi (south-western) and Chantaburi (eastern) Provinces. The antimalarials tested were: mefloquine, quinine, chloroquine, artemisinin and dihydroartemisinin. The sensitivity results for mefloquine obtained from the two methods were significantly different from each other. The IC50 values for M-II was less than M-I. The median (95%C.I.) IC50 value for mefloquine using the M-II method was significantly lower [696.47 (393.11-1,233.2) nM] than for M-I [3,955.4 (1,035.61-5,108.9) nM]. The in vitro sensitivity results for quinine were significantly different from each other. The median (95% C.I.) IC50 value for M-II [161 (42-351) nM] was 2.5-fold that of M-I [66 (24-450) nM].     

In vitro activity of chloroquine,quinine, mefloquine and halofantrine against Gabonese isolates of Plasmodium falciparum

OBJECTIVES: To determine the in vitro activity of antimalarial drugs against isolates of Plasmodium falciparum in Gabon. METHODS: Plasmodium falciparum isolates were collected from symptomatic infections in the hospitals of Bakoumba and Franceville, south-east Gabon and in 2000. In vitro activity of chloroquine, quinine, mefloquine, halofantrine was measured by the isotopic microtest. RESULTS: A total of 60 and 62 isolates gave interpretable data in Franceville and Bakoumba, respectively. In Franceville, 50.0% (mean IC50 = 111.7 nm), 0% (mean IC50 = 156.7 nm), and 21.2% (mean IC50 = 12.4 nm) of isolates, respectively, showed in vitro resistance to chloroquine, quinine and mefloquine. In Bakoumba, we saw resistance to chloroquine, quinine, mefloquine and halofantrine in 95.0% (mean IC50 = 325.8 nm), 10.2% (mean IC50 = 385.5 nm), 47.5% (mean IC50 = 24.5 nm) and 18.2% (mean IC50 = 1.9 nm) of isolates, respectively. Activities of chloroquine and mefloquine, chloroquine and quinine, and mefloquine and quinine were positively correlated. CONCLUSIONS: Antimalarial drug resistance is high in this area of Gabon. The extent of resistance is disparate, as all tested drugs were less efficacious in Bakoumba than in Franceville.     

Prevalent pfmdr1 n86y mutant Plasmodium falciparum in Madagascar despite absence of pfcrt mutant strains

We assessed the status of point mutations associated with chloroquine resistance in pfcrt codon 76 and in pfmdr1 codon 86 among Plasmodium falciparum isolates from symptomatic patients in 3 sites in Madagascar. The in vitro susceptibility of P. falciparum isolates to quinoline-containing drugs was also determined. All isolates (N = 117) successfully typed were pfcrt wild-type, except one from Tsiroanomandidy (1 of 27). However, 67.5% (95% CI: 58.2-75.9%) of these isolates contained mutant pfmdr1 86Y. The pfmdr1 N86Y mutation is associated with higher mefloquine susceptibility, but it did not affect the sensitivity of parasites to chloroquine or quinine. Our findings demonstrate that pfmdr1 mutant P. falciparum are prevalent in Madagascar and confirm the low prevalence of pfcrt mutant P. falciparum after 60 years of chloroquine use. They provide additional field-based evidence for increased mefloquine susceptibility in pfmdr1 mutant P. falciparum and are suggestive of the intrahost selection of pfmdr1 mutant parasites.     

Activity of selected phytochemicals against Plasmodium falciparum

According to the WHO, in 2008, there were 247 million reported cases of malaria and nearly one million deaths from the disease. Parasite resistance against first-line drugs, including artemisinin and mefloquine, is increasing. In this study the plant-derived compounds aglafolin, rocaglamid, kokusaginine, arborine, arborinine and tuberostemonine were investigated for their anti-plasmodial activity in vitro. Fresh Plasmodium falciparum isolates were taken from patients in the area of Mae Sot, north-western Thailand in 2008 and the inhibition of schizont maturation was determined for the respective compounds. With inhibitory concentrations effecting 50%, 90% and 99% inhibition (IC(50), IC(90) and IC(99)) of 60.95 nM, 854.41 nM and 7351.49 nM, respectively, rocaglamid was the most active of the substances, closely followed by aglafoline with 53.49 nM, 864.55 nM and 8354.20 nM. The activity was significantly below that of artemisinin, but moderately higher than that of quinine. Arborine, arborinine, tuberostemonine and kokusaginine showed only marginal activity against P. falciparum characterized by IC(50) and IC(99) values higher than 350 nM and 180 μM, respectively, and regressions with relatively shallow slopes S>14.38. Analogues of rocaglamid and aglafoline merit further exploration of their anti-plasmodial activity.