Global diversity of soil-transmitted helminths reveals population-biased genetic variation that impacts diagnostic targets

Marina Papaiakovou; Andrea Waeschenbach; Olumide Ajibola; Sitara Sr Ajjampur; Roy M. Anderson; Robin Bailey; Jade Benjamin-Chung; Maria Cambra-Pellejà; Nicolas R. Caro; David Chaima; Rubén O. Cimino; Piet Cools; Anélsio Cossa; Julia Dunn; Sean Galagan; Javier Gandasegui; Berta Grau-Pujol; Emma L. Houlder; Moudachirou Ibikounlé; Timothy P. Jenkins; Khumbo Kalua; Eyrun F. Kjetland; Alejandro J. Krolewiecki; Bruno Levecke; Adrian JF Luty; Andrew S. MacDonald; Inácio Mandomando; Malathi Manuel; Maria Martínez-Valladares; Rojelio Mejia; Zeleke Mekonnen; Augusto Messa Jr.; Harriet Mpairwe; Osvaldo Muchisse; Jose Muñoz; Pauline Mwinzi; Valdemiro Novela; Maurice R. Odiere; Charfudin Sacoor; Judd L. Walson; Steven A. Williams; Stefan Witek-McManus; D. Timothy J. Littlewood; Cinzia Cantacessi; Stephen R. Doyle

doi:10.1038/s41467-025-61687-0

Global diversity of soil-transmitted helminths reveals population-biased genetic variation that impacts diagnostic targets

Marina Papaiakovou
, Andrea Waeschenbach
, Olumide Ajibola
, Sitara Sr Ajjampur
, Roy M. Anderson
, Robin Bailey
, Jade Benjamin-Chung
, Maria Cambra-Pellejà
, Nicolas R. Caro
, David Chaima
, Rubén O. Cimino
, Piet Cools
, Anélsio Cossa
, Julia Dunn
, Sean Galagan
, Javier Gandasegui
, Berta Grau-Pujol
, Emma L. Houlder
, Moudachirou Ibikounlé
, Timothy P. Jenkins

Khumbo Kalua, Eyrun F. Kjetland, Alejandro J. Krolewiecki, Bruno Levecke, Adrian JF Luty, Andrew S. MacDonald, Inácio Mandomando, Malathi Manuel, Maria Martínez-Valladares, Rojelio Mejia, Zeleke Mekonnen, Augusto Messa Jr., Harriet Mpairwe, Osvaldo Muchisse, Jose Muñoz, Pauline Mwinzi, Valdemiro Novela, Maurice R. Odiere, Charfudin Sacoor, Judd L. Walson, Steven A. Williams, Stefan Witek-McManus, D. Timothy J. Littlewood, Cinzia Cantacessi, Stephen R. Doyle

University of Cambridge
Natural History Museum
Nigerian Institute of Medical Research
Christian Medical College
Imperial College London
University of Washington
Stanford University
Barcelona Institute for Global Health
Universidad Nacional de Salta
Ghent University
Centro de investigação de Saúde de Manhiça
Wellcome Sanger Institute
Leiden University
Oslo University Hospital
University of Edinburgh
University of Leon
Baylor College of Medicine
Jimma University Ethiopia
Uganda Virus Research Institute
Kenya Medical Research Institute
Smith College

Research output: Contribution to journal › Journal article › Research › peer-review

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Abstract

Soil-transmitted helminths (STHs) are intestinal parasites that affect over a billion people worldwide. STH control relies on microscopy-based diagnostics to monitor parasite prevalence and enable post-treatment surveillance; however, molecular diagnostics are rapidly being developed due to increased sensitivity, particularly in low-STH-prevalence settings. The genetic diversity of helminths and its potential impact on molecular diagnostics remain unclear. Using low-coverage genome sequencing, we assess the genetics of STHs within worm, faecal, and purified egg samples from 27 countries, identifying differences in the genetic connectivity and diversity of STH-positive samples across regions and cryptic diversity between closely related human- and pig-infective species. We define substantial copy number and sequence variants in current diagnostic target regions and validate the impact of genetic variation on qPCR diagnostics using in vitro assays. Our study provides insights into the diversity and genomic epidemiology of STHs, highlighting both the challenges and opportunities for developing molecular diagnostics needed to support STH control efforts.

Original language	English
Article number	6374
Journal	Nature Communications
Volume	16
Number of pages	13
ISSN	2041-1723
DOIs	https://doi.org/10.1038/s41467-025-61687-0
Publication status	Published - 2025

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Papaiakovou, M., Waeschenbach, A., Ajibola, O., Ajjampur, S. S., Anderson, R. M., Bailey, R., Benjamin-Chung, J., Cambra-Pellejà, M., Caro, N. R., Chaima, D., Cimino, R. O., Cools, P., Cossa, A., Dunn, J., Galagan, S., Gandasegui, J., Grau-Pujol, B., Houlder, E. L., Ibikounlé, M., ... Doyle, S. R. (2025). Global diversity of soil-transmitted helminths reveals population-biased genetic variation that impacts diagnostic targets. Nature Communications, 16, Article 6374. https://doi.org/10.1038/s41467-025-61687-0

@article{973b6d48cc1044f8b50fcf2de22c997f,

title = "Global diversity of soil-transmitted helminths reveals population-biased genetic variation that impacts diagnostic targets",

abstract = "Soil-transmitted helminths (STHs) are intestinal parasites that affect over a billion people worldwide. STH control relies on microscopy-based diagnostics to monitor parasite prevalence and enable post-treatment surveillance; however, molecular diagnostics are rapidly being developed due to increased sensitivity, particularly in low-STH-prevalence settings. The genetic diversity of helminths and its potential impact on molecular diagnostics remain unclear. Using low-coverage genome sequencing, we assess the genetics of STHs within worm, faecal, and purified egg samples from 27 countries, identifying differences in the genetic connectivity and diversity of STH-positive samples across regions and cryptic diversity between closely related human- and pig-infective species. We define substantial copy number and sequence variants in current diagnostic target regions and validate the impact of genetic variation on qPCR diagnostics using in vitro assays. Our study provides insights into the diversity and genomic epidemiology of STHs, highlighting both the challenges and opportunities for developing molecular diagnostics needed to support STH control efforts.",

author = "Marina Papaiakovou and Andrea Waeschenbach and Olumide Ajibola and Ajjampur, \{Sitara Sr\} and Anderson, \{Roy M.\} and Robin Bailey and Jade Benjamin-Chung and Maria Cambra-Pellej{\`a} and Caro, \{Nicolas R.\} and David Chaima and Cimino, \{Rub{\'e}n O.\} and Piet Cools and An{\'e}lsio Cossa and Julia Dunn and Sean Galagan and Javier Gandasegui and Berta Grau-Pujol and Houlder, \{Emma L.\} and Moudachirou Ibikounl{\'e} and Jenkins, \{Timothy P.\} and Khumbo Kalua and Kjetland, \{Eyrun F.\} and Krolewiecki, \{Alejandro J.\} and Bruno Levecke and Luty, \{Adrian JF\} and MacDonald, \{Andrew S.\} and In{\'a}cio Mandomando and Malathi Manuel and Maria Mart{\'i}nez-Valladares and Rojelio Mejia and Zeleke Mekonnen and \{Messa Jr.\}, Augusto and Harriet Mpairwe and Osvaldo Muchisse and Jose Mu{\~n}oz and Pauline Mwinzi and Valdemiro Novela and Odiere, \{Maurice R.\} and Charfudin Sacoor and Walson, \{Judd L.\} and Williams, \{Steven A.\} and Stefan Witek-McManus and Littlewood, \{D. Timothy J.\} and Cinzia Cantacessi and Doyle, \{Stephen R.\}",

year = "2025",

doi = "10.1038/s41467-025-61687-0",

language = "English",

volume = "16",

journal = "Nature Communications",

issn = "2041-1723",

publisher = "Nature Research",

}

Papaiakovou, M, Waeschenbach, A, Ajibola, O, Ajjampur, SS, Anderson, RM, Bailey, R, Benjamin-Chung, J, Cambra-Pellejà, M, Caro, NR, Chaima, D, Cimino, RO, Cools, P, Cossa, A, Dunn, J, Galagan, S, Gandasegui, J, Grau-Pujol, B, Houlder, EL, Ibikounlé, M, Jenkins, TP, Kalua, K, Kjetland, EF, Krolewiecki, AJ, Levecke, B, Luty, AJF, MacDonald, AS, Mandomando, I, Manuel, M, Martínez-Valladares, M, Mejia, R, Mekonnen, Z, Messa Jr., A, Mpairwe, H, Muchisse, O, Muñoz, J, Mwinzi, P, Novela, V, Odiere, MR, Sacoor, C, Walson, JL, Williams, SA, Witek-McManus, S, Littlewood, DTJ, Cantacessi, C & Doyle, SR 2025, 'Global diversity of soil-transmitted helminths reveals population-biased genetic variation that impacts diagnostic targets', Nature Communications, vol. 16, 6374. https://doi.org/10.1038/s41467-025-61687-0

TY - JOUR

T1 - Global diversity of soil-transmitted helminths reveals population-biased genetic variation that impacts diagnostic targets

AU - Papaiakovou, Marina

AU - Waeschenbach, Andrea

AU - Ajibola, Olumide

AU - Ajjampur, Sitara Sr

AU - Anderson, Roy M.

AU - Bailey, Robin

AU - Benjamin-Chung, Jade

AU - Cambra-Pellejà, Maria

AU - Caro, Nicolas R.

AU - Chaima, David

AU - Cimino, Rubén O.

AU - Cools, Piet

AU - Cossa, Anélsio

AU - Dunn, Julia

AU - Galagan, Sean

AU - Gandasegui, Javier

AU - Grau-Pujol, Berta

AU - Houlder, Emma L.

AU - Ibikounlé, Moudachirou

AU - Jenkins, Timothy P.

AU - Kalua, Khumbo

AU - Kjetland, Eyrun F.

AU - Krolewiecki, Alejandro J.

AU - Levecke, Bruno

AU - Luty, Adrian JF

AU - MacDonald, Andrew S.

AU - Mandomando, Inácio

AU - Manuel, Malathi

AU - Martínez-Valladares, Maria

AU - Mejia, Rojelio

AU - Mekonnen, Zeleke

AU - Messa Jr., Augusto

AU - Mpairwe, Harriet

AU - Muchisse, Osvaldo

AU - Muñoz, Jose

AU - Mwinzi, Pauline

AU - Novela, Valdemiro

AU - Odiere, Maurice R.

AU - Sacoor, Charfudin

AU - Walson, Judd L.

AU - Williams, Steven A.

AU - Witek-McManus, Stefan

AU - Littlewood, D. Timothy J.

AU - Cantacessi, Cinzia

AU - Doyle, Stephen R.

PY - 2025

Y1 - 2025

N2 - Soil-transmitted helminths (STHs) are intestinal parasites that affect over a billion people worldwide. STH control relies on microscopy-based diagnostics to monitor parasite prevalence and enable post-treatment surveillance; however, molecular diagnostics are rapidly being developed due to increased sensitivity, particularly in low-STH-prevalence settings. The genetic diversity of helminths and its potential impact on molecular diagnostics remain unclear. Using low-coverage genome sequencing, we assess the genetics of STHs within worm, faecal, and purified egg samples from 27 countries, identifying differences in the genetic connectivity and diversity of STH-positive samples across regions and cryptic diversity between closely related human- and pig-infective species. We define substantial copy number and sequence variants in current diagnostic target regions and validate the impact of genetic variation on qPCR diagnostics using in vitro assays. Our study provides insights into the diversity and genomic epidemiology of STHs, highlighting both the challenges and opportunities for developing molecular diagnostics needed to support STH control efforts.

AB - Soil-transmitted helminths (STHs) are intestinal parasites that affect over a billion people worldwide. STH control relies on microscopy-based diagnostics to monitor parasite prevalence and enable post-treatment surveillance; however, molecular diagnostics are rapidly being developed due to increased sensitivity, particularly in low-STH-prevalence settings. The genetic diversity of helminths and its potential impact on molecular diagnostics remain unclear. Using low-coverage genome sequencing, we assess the genetics of STHs within worm, faecal, and purified egg samples from 27 countries, identifying differences in the genetic connectivity and diversity of STH-positive samples across regions and cryptic diversity between closely related human- and pig-infective species. We define substantial copy number and sequence variants in current diagnostic target regions and validate the impact of genetic variation on qPCR diagnostics using in vitro assays. Our study provides insights into the diversity and genomic epidemiology of STHs, highlighting both the challenges and opportunities for developing molecular diagnostics needed to support STH control efforts.

U2 - 10.1038/s41467-025-61687-0

DO - 10.1038/s41467-025-61687-0

M3 - Journal article

C2 - 40640199

SN - 2041-1723

VL - 16

JO - Nature Communications

JF - Nature Communications

M1 - 6374

ER -

Global diversity of soil-transmitted helminths reveals population-biased genetic variation that impacts diagnostic targets

Abstract

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