Genomic epidemiology of artemisinin resistant malaria

doi:10.7554/eLife.08714

Genomic epidemiology of artemisinin resistant malaria

King Fahd University of Petroleum & Minerals

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

218 Scopus citations

Abstract

The current epidemic of artemisinin resistant Plasmodium falciparum in Southeast Asia is the result of a soft selective sweep involving at least 20 independent kelch13 mutations. In a large global survey, we find that kelch13 mutations which cause resistance in Southeast Asia are present at low frequency in Africa. We show that African kelch13 mutations have originated locally, and that kelch13 shows a normal variation pattern relative to other genes in Africa, whereas in Southeast Asia there is a great excess of non-synonymous mutations, many of which cause radical amino-acid changes. Thus, kelch13 is not currently undergoing strong selection in Africa, despite a deep reservoir of variations that could potentially allow resistance to emerge rapidly. The practical implications are that public health surveillance for artemisinin resistance should not rely on kelch13 data alone, and interventions to prevent resistance must account for local evolutionary conditions, shown by genomic epidemiology to differ greatly between geographical regions.

Original language	English
Article number	e08714
Journal	eLife
Volume	5
Issue number	MARCH2016
DOIs	https://doi.org/10.7554/eLife.08714
State	Published - 4 Mar 2016

Bibliographical note

Publisher Copyright:
© 2016, eLife Sciences Publications Ltd. All rights reserved.

UN SDGs

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

SDG 3 Good Health and Well-being

ASJC Scopus subject areas

General Neuroscience
General Biochemistry, Genetics and Molecular Biology
General Immunology and Microbiology

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10.7554/eLife.08714

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@article{f4446063d8be4eaf991903fcf498ff18,

title = "Genomic epidemiology of artemisinin resistant malaria",

abstract = "The current epidemic of artemisinin resistant Plasmodium falciparum in Southeast Asia is the result of a soft selective sweep involving at least 20 independent kelch13 mutations. In a large global survey, we find that kelch13 mutations which cause resistance in Southeast Asia are present at low frequency in Africa. We show that African kelch13 mutations have originated locally, and that kelch13 shows a normal variation pattern relative to other genes in Africa, whereas in Southeast Asia there is a great excess of non-synonymous mutations, many of which cause radical amino-acid changes. Thus, kelch13 is not currently undergoing strong selection in Africa, despite a deep reservoir of variations that could potentially allow resistance to emerge rapidly. The practical implications are that public health surveillance for artemisinin resistance should not rely on kelch13 data alone, and interventions to prevent resistance must account for local evolutionary conditions, shown by genomic epidemiology to differ greatly between geographical regions.",

author = "Roberto Amato and Olivo Miotto and Woodrow, \{Charles J.\} and Jacob Almagro-Garcia and Ipsita Sinha and Susana Campino and Daniel Mead and Eleanor Drury and Mihir Kekre and Mandy Sanders and Alfred Amambua-Ngwa and Chanaki Amaratunga and Lucas Amenga-Etego and Voahangy Andrianaranjaka and Tobias Apinjoh and Elizabeth Ashley and Sarah Auburn and Awandare, \{Gordon A.\} and Vito Baraka and Alyssa Barry and Boni, \{Maciej F.\} and Steffen Borrmann and Teun Bousema and Oralee Branch and Bull, \{Peter C.\} and Kesinee Chotivanich and Conway, \{David J.\} and Alister Craig and Day, \{Nicholas P.\} and Abdoulaye Djimd{\'e} and Christiane Dolecek and Dondorp, \{Arjen M.\} and Chris Drakeley and Patrick Duffy and Echeverry, \{Diego F.\} and Egwang, \{Thomas G.\} and Fairhurst, \{Rick M.\} and Abul Faiz and Fanello, \{Caterina I.\} and Hien, \{Tran Tinh\} and Abraham Hodgson and Mallika Imwong and Deus Ishengoma and Pharath Lim and Chanthap Lon and Jutta Marfurt and Kevin Marsh and Mayfong Mayxay and Rintis Noviyanti and Alexis Nzila",

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AU - Amato, Roberto

AU - Miotto, Olivo

AU - Woodrow, Charles J.

AU - Almagro-Garcia, Jacob

AU - Sinha, Ipsita

AU - Campino, Susana

AU - Mead, Daniel

AU - Drury, Eleanor

AU - Kekre, Mihir

AU - Sanders, Mandy

AU - Amambua-Ngwa, Alfred

AU - Amaratunga, Chanaki

AU - Amenga-Etego, Lucas

AU - Andrianaranjaka, Voahangy

AU - Apinjoh, Tobias

AU - Ashley, Elizabeth

AU - Auburn, Sarah

AU - Awandare, Gordon A.

AU - Baraka, Vito

AU - Barry, Alyssa

AU - Boni, Maciej F.

AU - Borrmann, Steffen

AU - Bousema, Teun

AU - Branch, Oralee

AU - Bull, Peter C.

AU - Chotivanich, Kesinee

AU - Conway, David J.

AU - Craig, Alister

AU - Day, Nicholas P.

AU - Djimdé, Abdoulaye

AU - Dolecek, Christiane

AU - Dondorp, Arjen M.

AU - Drakeley, Chris

AU - Duffy, Patrick

AU - Echeverry, Diego F.

AU - Egwang, Thomas G.

AU - Fairhurst, Rick M.

AU - Faiz, Abul

AU - Fanello, Caterina I.

AU - Hien, Tran Tinh

AU - Hodgson, Abraham

AU - Imwong, Mallika

AU - Ishengoma, Deus

AU - Lim, Pharath

AU - Lon, Chanthap

AU - Marfurt, Jutta

AU - Marsh, Kevin

AU - Mayxay, Mayfong

AU - Noviyanti, Rintis

AU - Nzila, Alexis

PY - 2016/3/4

Y1 - 2016/3/4

N2 - The current epidemic of artemisinin resistant Plasmodium falciparum in Southeast Asia is the result of a soft selective sweep involving at least 20 independent kelch13 mutations. In a large global survey, we find that kelch13 mutations which cause resistance in Southeast Asia are present at low frequency in Africa. We show that African kelch13 mutations have originated locally, and that kelch13 shows a normal variation pattern relative to other genes in Africa, whereas in Southeast Asia there is a great excess of non-synonymous mutations, many of which cause radical amino-acid changes. Thus, kelch13 is not currently undergoing strong selection in Africa, despite a deep reservoir of variations that could potentially allow resistance to emerge rapidly. The practical implications are that public health surveillance for artemisinin resistance should not rely on kelch13 data alone, and interventions to prevent resistance must account for local evolutionary conditions, shown by genomic epidemiology to differ greatly between geographical regions.

AB - The current epidemic of artemisinin resistant Plasmodium falciparum in Southeast Asia is the result of a soft selective sweep involving at least 20 independent kelch13 mutations. In a large global survey, we find that kelch13 mutations which cause resistance in Southeast Asia are present at low frequency in Africa. We show that African kelch13 mutations have originated locally, and that kelch13 shows a normal variation pattern relative to other genes in Africa, whereas in Southeast Asia there is a great excess of non-synonymous mutations, many of which cause radical amino-acid changes. Thus, kelch13 is not currently undergoing strong selection in Africa, despite a deep reservoir of variations that could potentially allow resistance to emerge rapidly. The practical implications are that public health surveillance for artemisinin resistance should not rely on kelch13 data alone, and interventions to prevent resistance must account for local evolutionary conditions, shown by genomic epidemiology to differ greatly between geographical regions.

UR - https://www.scopus.com/pages/publications/84961932806

U2 - 10.7554/eLife.08714

DO - 10.7554/eLife.08714

M3 - Article

C2 - 26943619

AN - SCOPUS:84961932806

SN - 2050-084X

VL - 5

JO - eLife

JF - eLife

IS - MARCH2016

M1 - e08714

ER -

Genomic epidemiology of artemisinin resistant malaria

Abstract

Bibliographical note

UN SDGs

ASJC Scopus subject areas

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