Whole-genome scans provide evidence of adaptive evolution in Malawian Plasmodium falciparum isolates

Harold Ocholla; Mark D. Preston; Mwapatsa Mipando; Anja T.R. Jensen; Susana Campino; Bronwyn Macinnis; Daniel Alcock; Anja Terlouw; Issaka Zongo; Jean Bosco Oudraogo; Abdoulaye A. Djimde; Samuel Assefa; Ogobara K. Doumbo; Steffen Borrmann; Alexis Nzila; Kevin Marsh; Rick M. Fairhurst; Francois Nosten; Tim J.C. Anderson; Dominic P. Kwiatkowski; Alister Craig; Taane G. Clark; Jacqui Montgomery

doi:10.1093/infdis/jiu349

Whole-genome scans provide evidence of adaptive evolution in Malawian Plasmodium falciparum isolates

Harold Ocholla
, Mark D. Preston
, Mwapatsa Mipando
, Anja T.R. Jensen
, Susana Campino
, Bronwyn Macinnis
, Daniel Alcock
, Anja Terlouw
, Issaka Zongo
, Jean Bosco Oudraogo
, Abdoulaye A. Djimde
, Samuel Assefa
, Ogobara K. Doumbo
, Steffen Borrmann
, Alexis Nzila
, Kevin Marsh
, Rick M. Fairhurst
, Francois Nosten
, Tim J.C. Anderson
, Dominic P. Kwiatkowski

Alister Craig, Taane G. Clark, Jacqui Montgomery

Research output: Contribution to journal › Article › peer-review

43 Citations (Scopus)

Abstract

BACKGROUND

Selection by host immunity and antimalarial drugs has driven extensive adaptive evolution in Plasmodium falciparum, and continues to produce ever-changing landscapes of genetic variation.

METHODS

We carried out whole-genome sequencing of 69 P. falciparum isolates from Malawi and used population genetics approaches to investigate genetic diversity and population structure, and identify loci under selection.

RESULTS

High genetic diversity (π=2.4 x 10(-4)), moderately high multiplicity of infection (2.7), and low linkage disequilibrium (500-bp) were observed in Chikhwawa District, Malawi, an area of high malaria transmission. Allele frequency-based tests provided evidence of recent population growth in Malawi and detected potential targets of host immunity and candidate vaccine antigens. Comparing the sequence variation between isolates from Malawi and those from 5 geographically dispersed countries (Kenya, Burkina Faso, Mali, Cambodia, and Thailand) detected population genetic differences between Africa and Asia, within Southeast Asia, and within Africa. Applying haplotype-based tests of selection to sequence data from all 6 populations identified signals of directional selection at known drug-resistance loci, including pfcrt, pfdhps, pfmdr1, and pfgch1.

CONCLUSIONS

The sequence variations observed at drug-resistance loci reflect differences in each country's historical use of antimalarial drugs, and may be useful in formulating local malaria treatment guidelines.

Original language	English
Pages (from-to)	1991-2000
Number of pages	10
Journal	Journal of Infectious Diseases
Volume	210
Issue number	12
DOIs	https://doi.org/10.1093/infdis/jiu349
Publication status	Published - 19 Jun 2014

UN SDGs

This output contributes to the following UN Sustainable Development Goals (SDGs)

SDG 3 Good Health and Well-being

Keywords

Genetic epidemiology
Genomes
Malawi
Plasmodium falciparum

Access to Document

10.1093/infdis/jiu349Licence: CC BY

J Infect Dis 210 12 1991-2000Final published version, 331 KBLicence: CC BY

Cite this

Ocholla, H., Preston, M. D., Mipando, M., Jensen, A. T. R., Campino, S., Macinnis, B., Alcock, D., Terlouw, A., Zongo, I., Oudraogo, J. B., Djimde, A. A., Assefa, S., Doumbo, O. K., Borrmann, S., Nzila, A., Marsh, K., Fairhurst, R. M., Nosten, F., Anderson, T. J. C., ... Montgomery, J. (2014). Whole-genome scans provide evidence of adaptive evolution in Malawian Plasmodium falciparum isolates. Journal of Infectious Diseases, 210(12), 1991-2000. https://doi.org/10.1093/infdis/jiu349

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title = "Whole-genome scans provide evidence of adaptive evolution in Malawian Plasmodium falciparum isolates",

abstract = "BACKGROUND Selection by host immunity and antimalarial drugs has driven extensive adaptive evolution in Plasmodium falciparum, and continues to produce ever-changing landscapes of genetic variation.METHODS We carried out whole-genome sequencing of 69 P. falciparum isolates from Malawi and used population genetics approaches to investigate genetic diversity and population structure, and identify loci under selection.RESULTS High genetic diversity (π=2.4 x 10(-4)), moderately high multiplicity of infection (2.7), and low linkage disequilibrium (500-bp) were observed in Chikhwawa District, Malawi, an area of high malaria transmission. Allele frequency-based tests provided evidence of recent population growth in Malawi and detected potential targets of host immunity and candidate vaccine antigens. Comparing the sequence variation between isolates from Malawi and those from 5 geographically dispersed countries (Kenya, Burkina Faso, Mali, Cambodia, and Thailand) detected population genetic differences between Africa and Asia, within Southeast Asia, and within Africa. Applying haplotype-based tests of selection to sequence data from all 6 populations identified signals of directional selection at known drug-resistance loci, including pfcrt, pfdhps, pfmdr1, and pfgch1.CONCLUSIONS The sequence variations observed at drug-resistance loci reflect differences in each country's historical use of antimalarial drugs, and may be useful in formulating local malaria treatment guidelines.",

keywords = "Genetic epidemiology, Genomes, Malawi, Plasmodium falciparum",

author = "Harold Ocholla and Preston, \{Mark D.\} and Mwapatsa Mipando and Jensen, \{Anja T.R.\} and Susana Campino and Bronwyn Macinnis and Daniel Alcock and Anja Terlouw and Issaka Zongo and Oudraogo, \{Jean Bosco\} and Djimde, \{Abdoulaye A.\} and Samuel Assefa and Doumbo, \{Ogobara K.\} and Steffen Borrmann and Alexis Nzila and Kevin Marsh and Fairhurst, \{Rick M.\} and Francois Nosten and Anderson, \{Tim J.C.\} and Kwiatkowski, \{Dominic P.\} and Alister Craig and Clark, \{Taane G.\} and Jacqui Montgomery",

year = "2014",

month = jun,

day = "19",

doi = "10.1093/infdis/jiu349",

language = "English",

volume = "210",

pages = "1991--2000",

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publisher = "Oxford University Press",

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Ocholla, H, Preston, MD, Mipando, M, Jensen, ATR, Campino, S, Macinnis, B, Alcock, D, Terlouw, A, Zongo, I, Oudraogo, JB, Djimde, AA, Assefa, S, Doumbo, OK, Borrmann, S, Nzila, A, Marsh, K, Fairhurst, RM, Nosten, F, Anderson, TJC, Kwiatkowski, DP, Craig, A, Clark, TG & Montgomery, J 2014, 'Whole-genome scans provide evidence of adaptive evolution in Malawian Plasmodium falciparum isolates', Journal of Infectious Diseases, vol. 210, no. 12, pp. 1991-2000. https://doi.org/10.1093/infdis/jiu349

TY - JOUR

T1 - Whole-genome scans provide evidence of adaptive evolution in Malawian Plasmodium falciparum isolates

AU - Ocholla, Harold

AU - Preston, Mark D.

AU - Mipando, Mwapatsa

AU - Jensen, Anja T.R.

AU - Campino, Susana

AU - Macinnis, Bronwyn

AU - Alcock, Daniel

AU - Terlouw, Anja

AU - Zongo, Issaka

AU - Oudraogo, Jean Bosco

AU - Djimde, Abdoulaye A.

AU - Assefa, Samuel

AU - Doumbo, Ogobara K.

AU - Borrmann, Steffen

AU - Nzila, Alexis

AU - Marsh, Kevin

AU - Fairhurst, Rick M.

AU - Nosten, Francois

AU - Anderson, Tim J.C.

AU - Kwiatkowski, Dominic P.

AU - Craig, Alister

AU - Clark, Taane G.

AU - Montgomery, Jacqui

PY - 2014/6/19

Y1 - 2014/6/19

N2 - BACKGROUND Selection by host immunity and antimalarial drugs has driven extensive adaptive evolution in Plasmodium falciparum, and continues to produce ever-changing landscapes of genetic variation.METHODS We carried out whole-genome sequencing of 69 P. falciparum isolates from Malawi and used population genetics approaches to investigate genetic diversity and population structure, and identify loci under selection.RESULTS High genetic diversity (π=2.4 x 10(-4)), moderately high multiplicity of infection (2.7), and low linkage disequilibrium (500-bp) were observed in Chikhwawa District, Malawi, an area of high malaria transmission. Allele frequency-based tests provided evidence of recent population growth in Malawi and detected potential targets of host immunity and candidate vaccine antigens. Comparing the sequence variation between isolates from Malawi and those from 5 geographically dispersed countries (Kenya, Burkina Faso, Mali, Cambodia, and Thailand) detected population genetic differences between Africa and Asia, within Southeast Asia, and within Africa. Applying haplotype-based tests of selection to sequence data from all 6 populations identified signals of directional selection at known drug-resistance loci, including pfcrt, pfdhps, pfmdr1, and pfgch1.CONCLUSIONS The sequence variations observed at drug-resistance loci reflect differences in each country's historical use of antimalarial drugs, and may be useful in formulating local malaria treatment guidelines.

AB - BACKGROUND Selection by host immunity and antimalarial drugs has driven extensive adaptive evolution in Plasmodium falciparum, and continues to produce ever-changing landscapes of genetic variation.METHODS We carried out whole-genome sequencing of 69 P. falciparum isolates from Malawi and used population genetics approaches to investigate genetic diversity and population structure, and identify loci under selection.RESULTS High genetic diversity (π=2.4 x 10(-4)), moderately high multiplicity of infection (2.7), and low linkage disequilibrium (500-bp) were observed in Chikhwawa District, Malawi, an area of high malaria transmission. Allele frequency-based tests provided evidence of recent population growth in Malawi and detected potential targets of host immunity and candidate vaccine antigens. Comparing the sequence variation between isolates from Malawi and those from 5 geographically dispersed countries (Kenya, Burkina Faso, Mali, Cambodia, and Thailand) detected population genetic differences between Africa and Asia, within Southeast Asia, and within Africa. Applying haplotype-based tests of selection to sequence data from all 6 populations identified signals of directional selection at known drug-resistance loci, including pfcrt, pfdhps, pfmdr1, and pfgch1.CONCLUSIONS The sequence variations observed at drug-resistance loci reflect differences in each country's historical use of antimalarial drugs, and may be useful in formulating local malaria treatment guidelines.

KW - Genetic epidemiology

KW - Genomes

KW - Malawi

KW - Plasmodium falciparum

U2 - 10.1093/infdis/jiu349

DO - 10.1093/infdis/jiu349

M3 - Article

SN - 0022-1899

VL - 210

SP - 1991

EP - 2000

JO - Journal of Infectious Diseases

JF - Journal of Infectious Diseases

IS - 12

ER -

Whole-genome scans provide evidence of adaptive evolution in Malawian Plasmodium falciparum isolates

Abstract

UN SDGs

Keywords

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