Abstract
BackgroundTumour necrosis factor (TNF) is central to the immune response to Plasmodium infection. Its plasma concentration is influenced by allele variants in the promoter region of TNF. The study’s objectives were to assess TNF allele variants (TNF−1031, TNF−308): (1) modulation of malaria rates in young Tanzanian children; (2) modulation of the severity of malaria as indicated by haemoglobin concentrations at the time of presentation with febrile episodes; and (3) the association between Plasmodium infection and haemoglobin concentration in symptomless parasite carriers.MethodsData from a placebo-controlled trial in which 612 Tanzanian children aged 6–60 months with height-for-age z-score in the range −3 SD to 1.5 SD was utilised. Those with Plasmodium infection at baseline were treated with artemether-lumefantrine. An episode of malaria was predefined as current Plasmodium infection with an inflammatory response (axillary temperature ≥37.5°C or whole blood C-reactive protein concentration ≥8 mg/L) in children reported sick. Linkage disequilibrium (LD) pattern assessment as well as haplotype analysis was conducted using HAPLOVIEW. Cox regression models used in the primary analysis accounted for multiple episodes per child.ResultsGenotyping of 94.9% (581/612) children for TNF−1031 (TNF−1031T>C); allele frequency was 0.39. Corresponding values for rs1800629 (TNF−308G>A) were 95.4% (584/612) and 0.17. Compared to the wild type genotype (TT), malaria rates were increased in the TNF−1031CC genotype (hazard ratio, HR [95% CI]: 1.41 [1.01‒1.97] and 1.31 [0.97‒1.76] for crude analysis and adjusting for pre-specified baseline factors, respectively) but decreased in those with the TNF−308AA genotype (corresponding HR: 0.13 [0.02‒0.63] and 0.16 [0.04‒0.67]). These associations were weaker when analysing first episodes of malaria (P value −0.59 and 0.38, respectively). No evidence that allele variants of TNF−1031 and TNF−308 affected haemoglobin concentration at first episode of malaria, or that they modified the association between Plasmodium infection and haemoglobin concentrations at baseline was observed.ConclusionIn this cohort of Tanzanian children, the TNF−1031CC genotype was associated with increased rates of malarial episodes, whereas the TNF−308AA genotype was associated with decreased rates.
Highlights
Tumour necrosis factor (TNF) is central to the immune response to Plasmodium infection
The TNF−1031C allele has been associated with decreased risk of severe malaria in a child cohort of Gambian malaria patients but this observation was not made in similar cohorts from Kenya and Malawi [9]
Of 612 children recruited in the original study, 581 (94.9%) and 584 (95.4%) had DNA typed for TNF−1031 and TNF−308, respectively
Summary
Tumour necrosis factor (TNF) is central to the immune response to Plasmodium infection. Its plasma concentration is influenced by allele variants in the promoter region of TNF. The study’s objectives were to assess TNF allele variants (TNF−1031, TNF−308): (1) modulation of malaria rates in young Tanzanian children; (2) modulation of the severity of malaria as indicated by haemoglobin concentrations at the time of presentation with febrile episodes; and (3) the association between Plasmodium infection and haemoglobin concentration in symptomless parasite carriers. The TNF−1031C allele has been associated with decreased risk of severe malaria in a child cohort of Gambian malaria patients but this observation was not made in similar cohorts from Kenya and Malawi [9]. Observations from a case–control study in India indicate that the TNF−1031C allele is associated with elevated plasma TNF concentrations and increased susceptibility to severe falciparum malaria [10]. Another study of Tanzanian infants observed minor clinical parameters to differ in TNF−308GA heterozygotes but did not observe major differences in other malaria related indices [16]
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