Your search keyword '"Rowlands, Kate"' showing total 3 results

1. Host candidate gene polymorphisms and clearance of drug-resistant Plasmodium falciparum parasites

Author

Rockett Kirk, Ouedraogo Jean, Jezan Sabah, Mbacham Wilfred F, Kwiatkowski Dominic P, Kimani Francis, Khan Baldip K, Jeffreys Anna, Ibrahim Muntasir, Hubbart Christina, Green Angie, Evehe Marie-Solange B, Djimde Abdoulaye A, Craik Rachel, Achonduh Olivia, Achidi Eric A, Diakite Mahamadou, Rowlands Kate, Tagelsir Nawal, Tekete Mamadou M, Zongo Issaka, and Ranford-Cartwright Lisa C

Subjects

Arctic medicine. Tropical medicine, RC955-962, Infectious and parasitic diseases, RC109-216

Abstract

Abstract Background Resistance to anti-malarial drugs is a widespread problem for control programmes for this devastating disease. Molecular tests are available for many anti-malarial drugs and are useful tools for the surveillance of drug resistance. However, the correlation of treatment outcome and molecular tests with particular parasite markers is not perfect, due in part to individuals who are able to clear genotypically drug-resistant parasites. This study aimed to identify molecular markers in the human genome that correlate with the clearance of malaria parasites after drug treatment, despite the drug resistance profile of the protozoan as predicted by molecular approaches. Methods 3721 samples from five African countries, which were known to contain genotypically drug resistant parasites, were analysed. These parasites were collected from patients who subsequently failed to clear their infection following drug treatment, as expected, but also from patients who successfully cleared their infections with drug-resistant parasites. 67 human polymorphisms (SNPs) on 17 chromosomes were analysed using Sequenom's mass spectrometry iPLEX gold platform, to identify regions of the human genome, which contribute to enhanced clearance of drug resistant parasites. Results An analysis of all data from the five countries revealed significant associations between the phenotype of ability to clear drug-resistant Plasmodium falciparum infection and human immune response loci common to all populations. Overall, three SNPs showed a significant association with clearance of drug-resistant parasites with odds ratios of 0.76 for SNP rs2706384 (95% CI 0.71-0.92, P = 0.005), 0.66 for SNP rs1805015 (95% CI 0.45-0.97, P = 0.03), and 0.67 for SNP rs1128127 (95% CI 0.45-0.99, P = 0.05), after adjustment for possible confounding factors. The first two SNPs (rs2706384 and rs1805015) are within loci involved in pro-inflammatory (interferon-gamma) and anti-inflammatory (IL-4) cytokine responses. The third locus encodes a protein involved in the degradation of misfolded proteins within the endoplasmic reticulum, and its role, if any, in the clearance phenotype is unclear. Conclusions The study showed significant association of three loci in the human genome with the ability of parasite to clear drug-resistant P. falciparum in samples taken from five countries distributed across sub-Saharan Africa. Both SNP rs2706384 and SNP1805015 have previously been reported to be associated with risk of malaria infection in African populations. The loci are involved in the Th1/Th2 balance, and the association of SNPs within these genes suggests a key role for antibody in the clearance of drug-resistant parasites. It is possible that patients able to clear drug-resistant infections have an enhanced ability to control parasite growth.

Published

2011

2. Host candidate gene polymorphisms and clearance of drug-resistant Plasmodium falciparum parasites

Author

Diakite, Mahamadou, primary, Achidi, Eric A, additional, Achonduh, Olivia, additional, Craik, Rachel, additional, Djimde, Abdoulaye A, additional, Evehe, Marie-Solange B, additional, Green, Angie, additional, Hubbart, Christina, additional, Ibrahim, Muntasir, additional, Jeffreys, Anna, additional, Khan, Baldip K, additional, Kimani, Francis, additional, Kwiatkowski, Dominic P, additional, Mbacham, Wilfred F, additional, Jezan, Sabah Omar, additional, Ouedraogo, Jean Bosco, additional, Rockett, Kirk, additional, Rowlands, Kate, additional, Tagelsir, Nawal, additional, Tekete, Mamadou M, additional, Zongo, Issaka, additional, and Ranford-Cartwright, Lisa C, additional

Published

2011

3. Genetic determinants of anti-malarial acquired immunity in a large multi-centre study.

Author

Shelton, Jennifer M. G., Corran, Patrick, Risley, Paul, Silva, Nilupa, Hubbart, Christina, Jeffreys, Anna, Rowlands, Kate, Craik, Rachel, Cornelius, Victoria, Hensmann, Meike, Molloy, Sile, Sepulveda, Nuno, Clark, Taane G., Band, Gavin, Clarke, Geraldine M., Spencer, Christopher C. A., Kerasidou, Angeliki, Campino, Susana, Auburn, Sarah, and Tall, Adama

Subjects

MALARIA immunology, HUMAN genetics, IMMUNOGLOBULINS, DNA, ANTIGENS

Abstract

Background: Many studies report associations between human genetic factors and immunity to malaria but few have been reliably replicated. These studies are usually country-specific, use small sample sizes and are not directly comparable due to differences in methodologies. This study brings together samples and data collected from multiple sites across Africa and Asia to use standardized methods to look for consistent genetic effects on anti-malarial antibody levels. Methods: Sera, DNA samples and clinical data were collected from 13,299 individuals from ten sites in Senegal, Mali, Burkina Faso, Sudan, Kenya, Tanzania, and Sri Lanka using standardized methods. DNA was extracted and typed for 202 Single Nucleotide Polymorphisms with known associations to malaria or antibody production, and antibody levels to four clinical grade malarial antigens [AMA1, MSP1, MSP2, and (NANP)4] plus total IgE were measured by ELISA techniques. Regression models were used to investigate the associations of clinical and genetic factors with antibody levels. Results: Malaria infection increased levels of antibodies to malaria antigens and, as expected, stable predictors of anti-malarial antibody levels included age, seasonality, location, and ethnicity. Correlations between antibodies to blood-stage antigens AMA1, MSP1 and MSP2 were higher between themselves than with antibodies to the (NANP)4 epitope of the pre-erythrocytic circumsporozoite protein, while there was little or no correlation with total IgE levels. Individuals with sickle cell trait had significantly lower antibody levels to all blood-stage antigens, and recessive homozygotes for CD36 (rs321198) had significantly lower anti-malarial antibody levels to MSP2. Conclusion: Although the most significant finding with a consistent effect across sites was for sickle cell trait, its effect is likely to be via reducing a microscopically positive parasitaemia rather than directly on antibody levels. However, this study does demonstrate a framework for the feasibility of combining data from sites with heterogeneous malaria transmission levels across Africa and Asia with which to explore genetic effects on anti-malarial immunity. [ABSTRACT FROM AUTHOR]

Published

2015