Association of a functional TNF variant with Plasmodium falciparum parasitaemia in a congolese population.

Several studies have provided evidence of both helpful and harmful effects of TNF on the outcome of Plasmodium falciparum malaria infection. Several TNF polymorphisms that are located within non-coding regions have been associated with parasitaemia, mild malaria or severe malaria. We investigated the association of TNF1304 (rs3093664), TNF-308 (rs1800629), TNF-238 (rs361525) and TNF-244 (rs673) with mild malaria and symptomatic maximum parasitaemia in a population-based design (n=310). We obtained nominal evidence for an association between symptomatic maximum parasitaemia and TNF-308, TNF-238, and TNF-244 on the one hand, and between the number of mild malaria attacks and TNF-244 on the other hand. After accounting for multiple tests, we confirmed the association of symptomatic maximum parasitaemia with TNF-244. We further provide bioinformatics and experimental evidence that TNF-244 has a cis-regulatory effect. This is the first report that emphasizes the potential role of TNF-244 in malaria.

[Malaria in health centres in the southern districts of Brazzaville, Congo]. / Le paludisme dans deux centres de santé au sud de Brazzaville, Congo.

During the surveys on antimalarial drug efficacy carried out from 2003 to 2006, we systematically checked the presence of Plasmodium falciparum in patients consulting in two health centres located in the south of Brazzaville. The first centre is situated in the urban zone; the second, in the semi rural area. The objective of this survey was to determine the prevalence of malaria-infected patients among the consulting patients and the prevalence of symptomatic patients with acute malaria attacks based on the parasitic density. Patients with parasites were assigned to one of the 5 following classifications: <2000, > or =2000, <5000, > or =5000 and > or =10,000 asexual parasites/microl of blood. Based on the threshold of parasite density 10,000 asexual parasites/microl, 10% and 24% of febrile patients in Tenrikyo and Madibou health centres were diagnosed as cases of malaria, respectively; 13.6% and 26.8% of patients under 5 years old consulting in these two health centres had malaria attacks. If the threshold of parasite density is lowered to 2000 asexual parasites/microl for patients > or =15 years old, 8% and 14% of adults in Tenrikyo and Madibou had malaria attacks, respectively The malaria burden was higher in the periphery of the city of Brazzaville than in the urbanized central districts. The Madibou health centre located in semi rural zone receives twice as many malaria cases for consultation than Tenrikyo located in the urban zone.

Complexity of the msp2 locus and the severity of childhood malaria, in south-western Nigeria.

As the genetic diversity of Plasmodium falciparum infections in humans is implicated in the pathogenesis of malaria, the association between P. falciparum diversity at the merozoite surface protein-2 (msp2) locus and the severity of childhood malaria was investigated in Ibadan, in south-western Nigeria. The 400 children enrolled had acute uncomplicated malaria (144), cerebral malaria (64), severe malarial anaemia (67) or asymptomatic infections with P. falciparum (125). Nested PCR was used to investigate the msp2 genotype(s) of the parasites infecting each child. In terms of the complexity of infection and frequency of polyinfection, the children with asymptomatic infection were significantly different from those with uncomplicated malaria or severe malaria. The median number of FC27 alleles detected was higher in the asymptomatic children than in the symptomatic. After controlling for age and level of parasitaemia (with 'asymptomatic infection' as the reference category), a child in whom no FC27 alleles were detected was found to be at five-fold greater risk of uncomplicated malaria, and a child without polyinfection was found to have a three-fold increased risk of severe malarial anaemia and a six-fold increased risk of cerebral malaria. It therefore appears that msp2 genotypes are associated with asymptomatic carriage and that children with mono-infections are more likely to develop severe malaria than children with polyinfection.

Allelic family-specific humoral responses to merozoite surface protein 2 (MSP2) in Gabonese residents with Plasmodium falciparum infections.

Merozoite surface protein 2 (MSP2) expressed by Plasmodium falciparum asexual blood stages has been identified as a promising vaccine candidate. In order to explore allelic family-specific humoral responses which may be responsible for parasite neutralization during natural infections, isolates from individuals with either asymptomatic infections or uncomplicated malaria and residing in a Central African area where Plasmodium transmission is high and perennial, were analysed using MSP2 as polymorphic marker. The family-specific antibody responses were assessed by ELISA using MSP2 synthetic peptides. We observed an age-dependence of P. falciparum infection complexity. The decrease of infection complexity around 15 years of age was observed simultaneously with an increase in the mean number of MSP2 variants recognized. No significant difference in the P. falciparum genetic diversity and infection complexity was found in isolates from asymptomatic subjects and patients with uncomplicated malaria. The longitudinal follow-up showed a rapid development of immune responses to various regions of MSP2 variants within one week. Comparing humoral responses obtained with the other major antigen on the merozoite surface, MSP1, our findings suggest that different pathways of responsiveness are involved in antibody production to merozoite surface antigens.

Amodiaquine-artesunate versus amodiaquine for uncomplicated Plasmodium falciparum malaria in African children: a randomised, multicentre trial.

BACKGROUND: Increasing drug resistance limits the choice of efficacious chemotherapy against Plasmodium falciparum malaria in Africa. Amodiaquine still retains efficacy against P falciparum in many African countries. We assessed the safety, treatment efficacy, and effect on gametocyte carriage of adding artesunate to amodiaquine in three randomised trials in Kenya, Sénégal, and Gabon. METHODS: We enrolled 941 children (400 in Kenya, 321 in Sénégal, and 220 in Gabon) who were 10 years or older and who had uncomplicated P falciparum malaria. Patients were randomly assigned amodiaquine (10 mg/kg per day for 3 days) plus artesunate (4 mg/kg per day for 3 days) or amodiaquine (as above) and placebo (for 3 days). The primary endpoints were parasitological cure rates at days 14 and 28. Analysis was by intention to treat and by an evaluability method. FINDINGS: Both regimens were well tolerated. Six patients in the amodiaquine-artesunate group and five in the amodiaquine group developed early, drug-induced vomiting, necessitating alternative treatment. By intention-to-treat analysis, the day-14 cure rates for amodiaquine-artesunate versus amodiaquine were: 175/192 (91%) versus 140/188 (74%) in Kenya (D=16.7% [95% CI 9.3-24.1], p<0.0001), 148/160 (93%) versus 147/157 (94%) in Sénégal (-1.1% [-6.7 to 4.5], p=0.7), and 92/94 (98%) versus 86/96 (90%) in Gabon (8.3% [1.5-15.1], p=0.02). The corresponding rates for day 28 were: 123/180 (68%) versus 75/183 (41%) in Kenya (27.3% [17.5-37.2], p<0.0001), 130/159 (82%) versus 123/156 (79%) in Sénégal (2.9% [-5.9 to 11.7], p=0.5), and 80/94 (85%) versus 70/98 (71%) in Gabon (13.7% [2.2-25.2], p=0.02). Similar rates were obtained by evaluability analysis. INTERPRETATION: The combination of artesunate and amodiaquine improved treatment efficacy in Gabon and Kenya, and was equivalent in Sénégal. Amodiaquine-artesunate is a potential combination for use in Africa. Further investigations to assess the potential effect on the evolution of drug resistance, disease transmission, and safety of amodiaquine-artesunate are warranted.

Molecular analysis of DHFR and DHPS genes in P. falciparum clinical isolates from the Haut--Ogooué region in Gabon.

The main objective of this work was to determine the prevalence of mutations in genes coding for the dihydropteroate synthase (DHPS) and the dihydrofolate reductase (DHFR) enzymes which are implicated in resistance of P. falciparum to antifolate (pyrimethamine-sulfadoxine (P/S)). In this study, 117 human blood samples were collected at Franceville located in the region of Haut-Ogooué (South-eastern Gabon). In this area, a relatively low level of sensitivity of Plasmodium falciparum to P/S has been reported with 18.2% of RII and 12.1% of RI resistance. A nested polymerase chain reaction was used to amplify a fragment of the DHFR gene containing codon 108, where a point mutation causing a Serine (wild type) to Asparagine or to a Threonine (resistant types) change occurs in pyrimethamine resistant parasites. Eleven DHFR fragments were sequenced and mutations occurring at codons 51, 59 and 108 were analysed. The DHPS gene was amplified by polymerase chain reaction (PCR) and sequenced directly or after cloning. Variant amino acid residues 436, 437, 540, 581, 613 associated with sulfadoxine resistance were analysed. The analysis of codon 108 of the DHFR gene was undertaken for 81 isolates. More than one DHFR P. falciparum genotype was present in 64% of the samples. We showed that 47% of 141 DHFR gene PCR products had Serine (wild phenotype), and 52% had Asparagine. We found one isolate with the Thr-108 confirmed by sequencing of the PCR product. Triple, double and single DHFR mutant at positions 51, 59 and 108 were found. Only codons 436 and 437 of the 38 analysed sequences of the DHPS gene revealed point mutations. These results have been compared with those reported from different sites in Africa, Asia or South-America.

[Allelic polymorphism of Plasmodium falciparum MSP-2 gene in blood samples from Gabonese children]. / Polymorphisme allélique du gène MSP-2 de Plasmodium falciparum analysé a partir d'échantillons sanguins d'enfants gabonais.

In this study we have undertaken the molecular analysis of the MSP-2 gene of R falciparum isolates collected from schoolchildren living in the village of Dienga (Gabon). Using conventional microscopy and the polymerase chain reaction, 61% of these children harboured parasites without any symptom of malaria (asymptomatic status). Children with a malaria episode were those with an axillary temperature > or = 37.5 degrees C and a parasitaemia > or =800 parasites/microl of blood. Comparisons of the allelic diversity and distribution of MSP-2 gene were carried out according to the clinical status at the time of sampling. Polymorphism of the MSP-2 gene was large in both clinical groups, both asymptomatic and symptomatic (11 identified alleles). The allele FC27/560bp (base pairs) was found significantly in clinical isolates. Prevalence of the 3D7 family was 68% and 44% in asymptomatic infections and clinical infections, respectively. Multiple P. falciparum genotypes were more predominant in clinical cases (2.96 clones/child with a malaria attack vs 2.01 clones/child with asymptomatic infections). We observed also a reduction of the complexity of infection beyond the age of 10 years. These results are discussed in regard to studies conducted in other areas in Africa.

[No influence of season of transmission nor age of patients on the complexity and genetic diversity of Plasmodium falciparum infection in Cotonou, Benin]. / Pas d'influence de la saison de transmission ni de l'âge des patients sur la complexité et la diversité génétique des infections dues a Plasmodium falciparum à Cotonou (Bénin).

The aim of the present study was to determine the genetic diversity and allelic frequencies of the genes encoding for the merozoite surface protein-1 (MSP-1) and protein-2 (MSP-2) of P. falciparum collected from Beninese patients during the high and low transmission seasons in Cotonou, in South Benin. Sixty and twenty-four patients were sampled during the dry and wet seasons, respectively Parasite DNA was analysed using allele-specific primers to amplify block2 of MSP-1 and central variable region of MSP-2. A total of 12 (K1, Mad20, Ro33) MSP-1 and 23 (3D7, FC27 and hybrids) MSP-2 alleles were detected. Neither age nor transmission season modified the genetic diversity of P. falciparum nor the distribution of MSP-1 and MSP-2 alleles. Combining the results of MSP-1 and MSP-2 genotyping, multiple P. falciparum infections were observed in 57% and 70% of isolates during the wet and dry seasons, respectively. The complexity of infections defined as the number of parasite genotype per isolate was 2.4 and it was not affected either by the season or by the age of the host. We conclude that change of season did not influence the permanent turn-over of parasites and the complexity of infections. Data obtained here will serve as a baseline for future studies, such as the impact of malaria control measures on parasite populations, to be conducted in Cotonou.

No influence of the transmission season on genetic diversity and complexity of infections in Plasmodium falciparum isolates from Benin.

The principal goals of the present study were to determine the genetic diversity of the merozoite surface protein-1 (MSP-1) and protein-2 (MSP-2) genes and the complexity of infections in P. falciparum isolates collected from Beninese patients during high and low transmission season at Cotonou, in South Benin. Sixty and twenty-four patients were sampled during dry and wet season respectively. Parasite DNA was analysed using allele-specific primers to amplify block 2 of MSP-1 and central variable region of MSP-2 genes. A total of 12 (K1, Mad20, Ro33) MSP-1 and 13 (3D7 and FC27) MSP-2 alleles were detected in overall samples. Neither influence of age nor transmission season was observed in the genetic diversity of parasites and in the distribution ofMSP-1 and MSP-2 alleles. Combining the results of MSP-1 and MSP-2 genotyping, we observed 57% and 70% of multiple infections during dry and wet season respectively. The complexity of infections 2.4 fragments/individual was not affected either by the season or by the age of the host. We speculate that in an area with perennial transmission, change of season did not influence the permanent turn-over of parasites and the number of parasite genotype per person. Data obtained here will be serve as a baseline for future studies which will carried out at Cotonou to analyse the impact of any malaria control measures on parasite populations.

[Evaluation of a simple and rapid method of Plasmodium falciparum DNA extraction using thick blood smears from Gabonese patients]. / Evaluation d'une méthode simple et rapide d'extraction de l'ADN de Plasmodium falciparum à partir de gouttes épaisses de patients gabonais.

In field-based studies, sometimes it is difficult to collect and store samples. We have evaluated a method of malaria parasite deoxyribonucleic (DNA) extraction from non-stained thick dried blood smears collected from 108 Gabonese patients. This method of DNA isolation was compared to those using phenol/chloroform. Patients parasitemia ranged from 0 to 240,000 parasites/microliter of blood. Both methods of DNA preparation gave similar results. Of the 108 slides, 57% were Plasmodium falciparum positive after PCR analysis of the MSA-2 gene and 34% were positive by microscopical examination. Thirty-six and seventy-two blood smears from patients were also tested after one and four weeks' storage respectively, at room temperature, and the parasite DNA was successfully extracted. We conclude that this simple method of collection and rapid procedure of parasite DNA isolation are adequate and convenient in the field when a large number of samples are required and in the case of repetitive samplings of patients.

Site-based study on polymorphism of Plasmodium falciparum MSP-1 and MSP-2 genes in isolates from two villages in Central Africa.

We investigated Plasmodium falciparum genetic diversity in isolates collected from school-going residents aged from 5 to 15 years in the village of Pouma (Cameroon, Central Africa). Seventy-six children were grouped according to the clinical status. Asymptomatic status was defined as parasite carriage in the absence of any clinical symptom and malaria symptomatic status with patent parasitemia over 5000 parasites/microliter of blood and an axillary temperature > 37.5 degrees C. Parasite DNA was analysed prior to malaria treatment. Genotyping of the P. falciparum merozoite surface proteins (MSP) 1 and 2 was performed by polymerase chain reaction using allele-specific primers. K1, MAD20, Ro33 and 3D7/CAMP, FC27 allelic families were attributed to MSP-1 and MSP-2 genes, respectively. No association was found between P. falciparum MSP-1 and MSP-2 genotypes and the clinical status of children. Mixed P. falciparum infections were detected in 78% of overall samples and all isolates from symptomatic children contained more than 1 clone. The results obtained in the village of Pouma were compared to those of the village of Dienga in Gabon where a similar study, using the same genotyping methods, had been carried out in the same age group of schoolchildren. Data are interpreted in the context of malaria epidemiology in both settings.

Imbalanced distribution of Plasmodium falciparum MSP-1 genotypes related to sickle-cell trait.

BACKGROUND: The sickle-cell trait protects against severe Plasmodium falciparum malaria and reduces susceptibility to mild malaria but does not prevent infection. The exact mechanism of this protection remains unclear. We have hypothesized that AS individuals are protected by virtue of being less susceptible to a subset of parasite strains; thus we compared some genetic characteristics of parasites infecting AS and AA subjects. MATERIALS AND METHODS: Blood was collected from asymptomatic individuals living in two different regions of Africa. The polymorphic MSP-1 and MSP-2 loci were genotyped using a PCR-based methodology. Individual alleles were identified by size polymorphism, amplification using family-specific primers, and hybridization using family-specific probes. Multivariate logistic regression was used to analyze allele distribution. RESULTS: In Senegalese carriers, age and hemoglobin type influenced differently the distribution of the three MSP-1 families and had an impact on distinct individual alleles, whereas the distribution of MSP-2 alleles was marginally affected. There was no influence of other genetic traits, including the HLA Bw53 genotype, or factors such as place of residence within the village. In a cohort of Gabonese schoolchildren in which the influence of age was abrogated, a similar imbalance in the MSP-1 allelic distribution but not of MSP-2 allelic distribution by hemoglobin type was observed. CONCLUSIONS: The influence of the host's hemoglobin type on P. falciparum genotypes suggests that parasite fitness for a specific host is strain-dependent, which is consistent with our hypothesis that innate resistance might result from reduced fitness of some parasite strains for individuals with sickle-cell traits.

Plasmodium falciparum: sickle-cell trait is associated with higher prevalence of multiple infections in Gabonese children with asymptomatic infections.

Through PCR amplifications of the gene encoding the merozoite surface antigen 2, utilizing allele-specific 3D7 and FC27 probes, we have examined the prevalence of Plasmodium falciparum in children aged from 7 to 14 years living in a village located in the equatorial forest region of Central Africa (Gabon). Using this technique, 61% (100/163) of the blood samples were shown to be infected with P. falciparum with 24 alleles distinguished by size polymorphism and sequence type. The two main families (3D7 and FC27) and hybrid alleles were detected regardless of sex and hemoglobin phenotype. No age-related changes in prevalence of P. falciparum strains were observed; however, the prevalence of infection (42%) was significantly lower in individuals with the sickle-cell trait compared with their normal-hemoglobin counterparts (68%). Mixtures of genetically distinct parasite clones were present in 82% of children carrying the sickle-cell trait but in only 58% of normal-hemoglobin carriers. The significance of these observations regarding the design and interpretation of epidemiological investigations is discussed in the context of malaria transmission in the region studied.

Extensive genetic diversity of Plasmodium falciparum isolates collected from patients with severe malaria in Dakar, Senegal.

While some genetic host factors are known to protect against severe Plasmodium falciparum malaria, little is known about parasite virulence factors. We have compared the genetic characteristics of P. falciparum isolates collected from 56 severe malaria patients and from 30 mild malaria patients recruited in Hôpital Principal, Dakar, Senegal. All isolates were typed using polymerase chain reaction amplification of polymorphic genetic loci (MSP-1, MSP-2, HRP1, GLURP, CSP, RESA, and the multigene family Pf60). The complexity of infections was lower in severe than in mild malaria and the parasite genetic diversity in both groups was very large. No specific genetic make-up was associated with severity; there were, however, marked differences in allele frequencies in both groups, with a prevalence up to 60% of MSP-2 alleles specifically observed in the severe malaria isolates. In addition, the presence of MSP-1/RO33 alleles was significantly associated with a higher plasma level of tumour necrosis factor alpha receptor 1 (P < 0.05), a reported indicator of severity in human malaria. These results point to potential differences in the genetic characteristics of parasites inducing severe versus mild pathology.

PCR typing of field isolates of Plasmodium falciparum.

We report on an analysis of the constraints of PCR typing of field Plasmodium falciparum isolates by using a few highly polymorphic markers, MSA-1, MSA-2, TRAP, and CS. We show that the reactions are specific for the P. falciparum species. The detection threshold (minimum number of parasites required to detect a visible band by ethidium bromide) differed from one marker to the other and, within one locus, from one primer combination to the other. Importantly, the various MSA-1 and MSA-2 reference alleles were amplified with the same efficiency. Amplification from reconstituted allele mixtures indicated that at certain allele ratios, the most abundant allele interfered with the amplification of the less abundant one. An analysis of nine isolates collected from patients with acute malaria in Dielmo, Senegal, during a transmission season when the inoculation rate was one infective bite every second night is presented and discussed. All samples contained more than one parasite type. A significant polymorphism was observed for the four markers. Novel TaqI restriction fragment length polymorphisms were found for the TRAP gene, and TRAP gene typing alone allowed a distinction between the various isolates. MSA-1 and MSA-2 gave multiple band patterns specific for each sample.