Skip to main content
Key Specialties
Cardiology Diabetology Endocrinology Gastroenterology Geriatrics and Gerontology Gynecology and Obstetrics Hematology Infectious Disease Internal Medicine Nephrology Neurology Oncology Pediatrics Respiratory Medicine Rheumatology Surgery
Congress Coverage
2024 ACC Congress 2023 ESMO Congress 2023 EASD Congress 2023 ERS Congress 2023 ESC Congress
Clinical Collections
Advances in Alzheimer’s

At a glance: The ONWARDS insulin icodec trials

A round-up of the ONWARDS phase 3 clinical trials evaluating the novel weekly insulin icodec in people with diabetes.
ADVANCED SEARCH
Log in
Top
Malaria Journal
Published in: Malaria Journal 1/2015

Open Access 01-12-2015 | Research

G6PD gene variants and its association with malaria in a Sri Lankan population

Authors: Rajika L Dewasurendra, Kirk A Rockett, S Deepika Fernando, Richard Carter, Dominic P Kwiatkowski, Nadira D Karunaweera, in collaboration with the MalariaGEN Consortium

Published in: Malaria Journal | Issue 1/2015

Login to get access

Abstract

Background

Glucose-6-phosphate dehydrogenase (G6PD) is an enzyme that plays an important role in many cellular functions. Deficiency of this enzyme results from point mutations in the coding region of the G6PD gene. G6PD-deficiency is important in malaria, as certain anti-malarial drugs could induce haemolysis in such patients and mutations in this gene may influence the susceptibility or resistance to the disease. Detailed information on genetic variations in the G6PD gene for Sri Lankan populations is yet to be revealed. This study describes a set of G6PD mutations present in a Sri Lankan population and their association with uncomplicated malaria.

Methods

DNA was extracted from 1,051 individuals. Sixty-eight SNPs in the region of the G6PD gene were genotyped. A database created during the 1992–1993 malaria epidemic for the same individuals was used to assess the associations between the G6PD SNPs and parasite density or disease severity of uncomplicated malaria infections. Linkage disequilibrium for SNPs and haplotype structures were identified.

Results

Seventeen genetic variants were polymorphic in this population. The mutant allele was the major allele in 9 SNPs. Common G6PD variants already described in Asians or South-Asians seemed to be absent or rare in this population. Both the severity of disease in uncomplicated malaria infections and parasitaemia were significantly lower in males infected with Plasmodium falciparum carrying the ancestral allele of rs915942 compared to those carrying the mutant allele. The parasite density of males infected with P. falciparum was significantly lower also in those who possessed the mutant alleles of rs5986877, rs7879049 and rs7053878. Two haplotype blocks were identified, where the recombination rates were higher in males with no history of malaria when compared to those who have experienced the disease in the past.

Conclusions

This is the most detailed survey of G6PD SNPs in a Sri Lankan population undertaken so far that enabled novel description of single nucleotide polymorphisms within the G6PD gene. A few of these genetic variations identified, demonstrated a tendency to be associated with either disease severity or parasite density in uncomplicated disease in males. Known G6PD gene polymorphisms already described from elsewhere were either absent or rare in the local study population.
Literature
1.
Vulliamy T, Mason P, Luzzatto L. The molecular basis of glucose-6-phosphate dehydrogenase deficiency. Trends Genet. 1992;8:138–43.CrossRefPubMed
2.
Beutler E, Vulliamy T. Hematologically important mutations: glucose-6-phosphate dehydrogenase. Blood Cells Mol Dis. 2002;28:93–103.CrossRefPubMed
3.
Minucci A, Moradkhani K, Hwang MJ, Zuppi C, Giardina B, Capoluongo E. Glucose-6-phosphate dehydrogenase (G6PD) mutations database: review of the “old” and update of the new mutations. Blood Cells Mol Dis. 2012;48:154–65.CrossRefPubMed
4.
Phompradit P, Kuesap J, Chaijaroenkul W, Rueangweerayut R, Hongkaew Y, Rujira Y, et al. Prevalence and distribution of glucose-6-phosphate dehydrogenase (G6PD) variants in Thai and Burmese populations in malaria endemic areas of Thailand. Malar J. 2011;10:368.CrossRefPubMedCentralPubMed
5.
Sukumar S, Mukherjee MB, Colah RB, Mohanty D. Two distinct Indian G6PD variants G6PD Jamnagar and G6PD Rohini caused by the same 949 G A mutation. Blood Cells Mol Dis. 2005;35:193–5.CrossRefPubMed
6.
Verma C, Wijnen JT, Khan PM. G6PD Punjab, a dialysis sensitive variant of human glucose-6-phosphate dehydrogenase. J Genet. 1987;66:17–24.CrossRef
7.
Ruwende C, Khoo SC, Snow RW, Yates SN, Kwiatkowski D, Gupta S, et al. Natural selection of hemi and heterozygotes for G6PD deficiency in Africa by resitance to severe malaria. Nature. 1995;376:246–9.CrossRefPubMed
8.
Guindo A, Fairhurst RM, Doumbo OK, Wellems TE, Diallo DA. X-linked G6PD deficiency protects hemizygous males but not heterozygous females against severe malaria. PLoS Med. 2007;4:e66.CrossRefPubMedCentralPubMed
9.
Louicharoen C, Patin E, Paul R, Nuchprayoon I, Witoonapanich B, Peerapittayamongkot C, et al. Positively selected G6PD-Mahidol mutation reduces Plasmodium vivax density in Southeast Asians. Science. 2009;326:1564–49.CrossRef
10.
Abeyratne KP, Halpe NL. Sensitivity to primaquine in celonese children due to deficiency of erythrocytic glucose-6-phosphate dehydrogenase. Ceylon Med J. 1968;13:134–8.
11.
Nagaratnam N, Leelawathie PK, Weerasinghe WMT. Enzyme glucose-6phosphate dehydrogenase (G6PD) deficiency among Sinhalese in Ceylon as revealed by the methaemoglobin reduction test. Indian J Med Res. 1969;57:569–72.PubMed
12.
13.
Gunawardena DM, Wickremasinghe AR, Muthuwatta L, Weerasingha S, Rajakaruna J, Senanayaka T, et al. Malaria risk factors in an endemic region of Sri Lanka, and the impact and cost implications of risk factor-based interventions. Am J Trop Med Hyg. 1988;58:533–42.
14.
Karunaweera ND, Galappaththy GNL, Wirth DF. On the road to eliminate malaria in Sri Lanka: lessons from history, challenges, gaps in knowledge and research needs. Malar J. 2014;13:59.CrossRefPubMedCentralPubMed
15.
Dewasurendra RL, Suriyaphol P, Fernando SD, Carter R, Rockett K, Corran P, et al. Genetic polymorphisms associated with anti-malarial antibody levels in a low and unstable malaria transmission area in southern Sri Lanka. Malar J. 2012;11:281.CrossRefPubMedCentralPubMed
16.
Mackinnon MJ, Gunawardena DM, Rajakaruna J, Weerasingha S, Mendis KN, Carter R. Quantifying genetic and nongenetic controbutions to malarial infection in a Sri Lankan population. Proc Natl Acad Sci U S A. 2000;97:12661–6.CrossRefPubMedCentralPubMed
17.
Zhang L, Cui X, Schmitt K, Hubert R, Navidi W, Arnheim N. Whole genome amplification from a single cell: implications for genetic analysis. Proc Natl Acad Sci U S A. 1992;89:5847–51.CrossRefPubMedCentralPubMed
18.
Shah SS, Macharia A, Makale J, Uyoga S, Kivinen K, Craik R, et al. Genetic determinants of glucose-6-phosphate dehydrogenase activity in Kenya. BMC Med Genet. 2014;15:93.CrossRefPubMedCentralPubMed
19.
Network MGE. Reappraisal of known malaria resistance loci in a large multicenter study. Nat Genet. 2014;46:1197–20420.CrossRef
20.
Karunaweera ND, Carter R, Georges C, Grau E, Mendis KN. Demonstration of anti-disease immunity to Plasmodium vivax malaria in Sri Lanka using a quantitative method to assess clinical disease. Am J Trop Med Hyg. 1998;58:204–10.PubMed
21.
Sabeti PC, Rich DE, Higgins JM, Levine HZP, Richter DJ, Schaffner SF, et al. Detecting recent positive election in the human genome from haplotype structure. Nature. 2002;416:832.CrossRef
22.
Wang N, Akey JM, Zhang K, Chakraborty R, Jin L. Distribution of recombination crossovers and the origina of haplotype blocks: The interplay of population history, recombination and mutation. Am J Hum Genet. 2002;71:1227–34.CrossRefPubMedCentralPubMed
23.
Qin ZS, Niu T, Liu JS. Partition ligation expectation maximization algorithm for haplotype inference with Single Nucleotide Polymorphisms. Am J Hum Genet. 2002;71:1242–7.CrossRefPubMedCentralPubMed
24.
Keerthiratne TP. The prevalence of G6PD deficiency among patients with chronic kidney disease of unknown etiology attending the Kandy General Hospital. Kidney Unit. M. Phil thesis: University of Colombo, Faculty of Medicine, Department of Biochemistry and Molecular Biology; 2012.
25.
26.
Leslie T, Briceno M, Mayan I, Mohammed N, Klinkenberg E, Sibley CH, et al. The impact of phenotypic and genotypic G6PD deficiency on risk of plasmodium vivax infection: a case–control study among Afghan refugees in Pakistan. PLoS Med. 2010;7:e1000283–90.CrossRefPubMedCentralPubMed
27.
Bienzle U, Ayeni O, Lucas AO, Luzzatto L. Glucose-6-Phosphate dehydrogenase and malaria. Greater resistance of female heterozygous for enzyme deficiency and of males with non-deficient variant. Lancet. 1972;i:107–10.CrossRef
28.
Hayes RJ, Marsh K, Snow RW. Case control studies of severe malaria. J Trop Med Hyg. 1992;95:157–66.PubMed
29.
Saunders MA, Hammer MF, Nachman MW. Nucleotide variability at G6PD and the signatures of malaria selection in humans. Gemetocs. 2002;162:1849–61.
Metadata
Title
G6PD gene variants and its association with malaria in a Sri Lankan population
Authors
Rajika L Dewasurendra
Kirk A Rockett
S Deepika Fernando
Richard Carter
Dominic P Kwiatkowski
Nadira D Karunaweera
in collaboration with the MalariaGEN Consortium
Publication date
01-12-2015
Publisher
BioMed Central
Published in
Malaria Journal / Issue 1/2015
Electronic ISSN: 1475-2875
DOI
https://doi.org/10.1186/s12936-015-0603-9

Other articles of this Issue 1/2015

Malaria Journal 1/2015 Go to the issue

Research

Mosquito age and avian malaria infection

Research

Monitoring the efficacy of artemether-lumefantrine for the treatment of uncomplicated malaria in Malawian children

Case report

Airport malaria: report of four cases in Tunisia

Research

A WD40-repeat protein unique to malaria parasites associates with adhesion protein complexes and is crucial for blood stage progeny

Research

Determinants of malaria diagnostic uptake in the retail sector: qualitative analysis from focus groups in Uganda

Research

A comparative study of the localization and membrane topology of members of the RIFIN, STEVOR and PfMC-2TM protein families in Plasmodium falciparum-infected erythrocytes

ACC 2024 Congress Coverage

Heart Failure Video

Year in Review: Heart failure and cardiomyopathies

Watch now

Watch this official video from ACC.24. Dr. Biykem Bozkurt discuss last year's major advances in heart failure and cardiomyopathies.

Semaglutide benefits people with type 2 diabetes and obesity-related heart failure

16-04-2024 Type 2 Diabetes News

Incentivised to exercise

11-04-2024 Lifestyle Modifications News

New intervention for STEMI-related cardiogenic shock

10-04-2024 Myocardial Infarction News

» View more highlights on the ACC 2024 congress hub page

Image Credits