Distribution of capsule and O types in Klebsiella pneumoniae causing neonatal sepsis in Africa and South Asia: A meta-analysis of genome-predicted serotype prevalence to inform potential vaccine coverage

Thomas D. Stanton; Shaun P. Keegan; Jabir A. Abdulahi; Anne V. Amulele; Matthew Bates; Eva Heinz; Yogesh Hooda; Weiming Hu; Kajal Jain; Samiah Kanwar; Rindidzani Magobo; Courtney P. Olwagen; John M. Tembo; Tolbert Sonda; Jonathan Strysko; Caroline C. Tigoi; Sameen Ahmad Amin; Kyle Bittinger; Jennifer Cornick; Ebenezer Foster-Nyarko; Wilson Gumbi; Aneeta Hotwani; Naveed Iqbal; Steven M. Jones; Furqan Kabir; Waqasuddin Khan; Chileshe L. Musyani; Carolyn M. McGann; Varsha Mittal; Ahmed M. Moustafa; Patrick Musicha; James C.L. Mwansa; Moreka L. Ndumba; Erkison E. Odih; Donwilliams O. Omuoyo; Oliver Pearse; Laura T. Phillips; Paul J. Planet; Aniqa Abdul Rasool; Charlene M.C. Rodrigues; Kirsty Sands; Arif M. Tanmoy; Erin Theiller; Allan M. Zuza; Sulagna Basu; Grace J. Chan; Kenneth C. Iregbu; Jean Baptiste Mazarati; Semaria Solomon Alemayehu; Timothy R. Walsh; Rabaab Zahra; Angela Dramowski; Sombo Fwoloshi; Appiah Korang Labi; Lola Madrid; Noah Obeng-Nkrumah; David Ojok; Boaz D. Wadugu; Andrew C. Whitelaw; Adhisivam Bethou; Anudita Bhargava; Atul Jindal; Ruchi N. Nanavati; Priyanka S. Prasad; Apurba Sastry; Joveria Q. Farooqi; Najia Ghanchi; Fyezah Jehan; Erum Khan; Ramesh K. Agarwal; Alexander M. Aiken; James A. Berkley; Susan E. Coffin; Nicholas A. Feasey; Nelesh P. Govender; Davidson H. Hamer; Shabir A. Madhi; Muhammad Imran Nisar; Samir K. Saha; Senjuti Saha; M. Jeeva Sankar; Kelly L. Wyres; Kathryn E. Holt

doi:10.1371/journal.pmed.1004879

Distribution of capsule and O types in Klebsiella pneumoniae causing neonatal sepsis in Africa and South Asia: A meta-analysis of genome-predicted serotype prevalence to inform potential vaccine coverage

Thomas D. Stanton
, Shaun P. Keegan
, Jabir A. Abdulahi
, Anne V. Amulele
, Matthew Bates
, Eva Heinz
, Yogesh Hooda
, Weiming Hu
, Kajal Jain
, Samiah Kanwar
, Rindidzani Magobo
, Courtney P. Olwagen
, John M. Tembo
, Tolbert Sonda
, Jonathan Strysko
, Caroline C. Tigoi
, Sameen Ahmad Amin
, Kyle Bittinger
, Jennifer Cornick
, Ebenezer Foster-Nyarko

Wilson Gumbi, Aneeta Hotwani, Naveed Iqbal, Steven M. Jones, Furqan Kabir, Waqasuddin Khan, Chileshe L. Musyani, Carolyn M. McGann, Varsha Mittal, Ahmed M. Moustafa, Patrick Musicha, James C.L. Mwansa, Moreka L. Ndumba, Erkison E. Odih, Donwilliams O. Omuoyo, Oliver Pearse, Laura T. Phillips, Paul J. Planet, Aniqa Abdul Rasool, Charlene M.C. Rodrigues, Kirsty Sands, Arif M. Tanmoy, Erin Theiller, Allan M. Zuza, Sulagna Basu, Grace J. Chan, Kenneth C. Iregbu, Jean Baptiste Mazarati, Semaria Solomon Alemayehu, Timothy R. Walsh, Rabaab Zahra, Angela Dramowski, Sombo Fwoloshi, Appiah Korang Labi, Lola Madrid, Noah Obeng-Nkrumah, David Ojok, Boaz D. Wadugu, Andrew C. Whitelaw, Adhisivam Bethou, Anudita Bhargava, Atul Jindal, Ruchi N. Nanavati, Priyanka S. Prasad, Apurba Sastry, Joveria Q. Farooqi, Najia Ghanchi, Fyezah Jehan, Erum Khan, Ramesh K. Agarwal, Alexander M. Aiken, James A. Berkley, Susan E. Coffin, Nicholas A. Feasey, Nelesh P. Govender, Davidson H. Hamer, Shabir A. Madhi, Muhammad Imran Nisar, Samir K. Saha, Senjuti Saha, M. Jeeva Sankar, Kelly L. Wyres, Kathryn E. Holt

Monash University
London School of Hygiene & Tropical Medicine
Wellcome Trust Research Laboratories Nairobi
University of Lincoln
University of Strathclyde
Wellcome Sanger Institute
Child Health Research Foundation
Children's Hospital of Philadelphia
All India Institute of Medical Sciences, New Delhi
The Aga Khan University
National Health Laboratory Services
Human Sciences Research Council of South Africa
University of the Witwatersrand, Johannesburg
HerpeZ
Kilimanjaro Clinical Research Institute
University of Botswana-University of Pennsylvania Partnership
University of Pennsylvania Perelman School of Medicine
University of Liverpool
Malawi-Liverpool-Wellcome Trust Clinical Research Programme
Balochistan University of Information Technology, Engineering and Management Sciences
Zambia National Public Health Institute
Levy Mwanawasa Medical University
Liverpool School of Tropical Medicine
Lusaka Apex Medical University
University of Pennsylvania
Imperial College Healthcare NHS Trust
UK Health Security Agency
University of Oxford
Cardiff University
School of Medicine
Indian Council of Medical Research
University of Abuja
National Hospital Abuja
Institut d’Enseignement Supérieur de Ruhengeri
INES Centre for Genomic Biology
St. Paul‘s Hospital Millennium Medical College
International Centre for Antimicrobial Resistance Solutions (ICARS)
Quaid-i-Azam University
Trinity College Dublin
Stellenbosch University
University Teaching Hospital Lusaka
Infectious Diseases Unit
Haramaya University
Centre for Infectious Disease Research in Zambia
Stellenbosch University & National Health Laboratory Service
Jawaharlal Institute of Postgraduate Medical Education & Research (JIPMER)
All India Institute of Medical Sciences, Raipur
King Edward Memorial Hospital
Nuffield Department of Medicine
University of the Witwatersrand
Boston University
Boston University Chobanian & Avedisian School of Medicine

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

1 Citation (Scopus)

Abstract

Background: Klebsiella pneumoniae causes ∼20% of sepsis in neonates, with ∼40% crude mortality. A vaccine administered to pregnant women, protecting against =70% of K. pneumoniae infections, could avert ∼400,000 cases and ∼80,000 deaths annually, mostly in Africa and South Asia. Vaccine formulations targeting the capsular polysaccharide (K) or lipopolysaccharide (O) antigens are in development. Global K. pneumoniae populations display extensive K and O diversity, necessitating a polyvalent vaccine-targeted to the serotypes associated with neonatal disease in relevant geographical regions. We investigated the prevalence of K and O types associated with neonatal sepsis in Africa and South Asia to inform maternal vaccine design. Methods and findings: We analysed 1,930 K. pneumoniae neonate blood isolates from 13 surveillance studies across 35 sites in 13 countries. We used pathogen whole-genome sequencing to predict K and O serotypes and adjust for local transmission clusters, and Bayesian hierarchical meta-analysis to estimate K and O prevalence overall and per region, treating site as a random effect. Eighty-seven K loci were identified. KL2, KL102, KL25, KL15, and KL62 accounted for 49% of isolates. We estimate that 20K loci, combining the eight most prevalent per region, could cover 72.9% of all infections (95% credible interval: [69.4%, 76.5%]) and =70% in each of Eastern, Western, and Southern Africa and South Asia. Preliminary findings from three sites suggested sufficient temporal stability of K loci to maintain 20-valent K vaccine coverage over 5-10 years, but more longitudinal data are needed to support this prediction. O types were far less diverse (n=14 types). We estimate the top-5 (O1αβ,2α O1αβ,2β, O2α, O2β, and O4) would cover 86.2% [82.6, 89.9%] of total infections (76%-92% per region), while the top-10 would cover ∼99% of infections in all four regions. The main limitations of our study are the reliance on genome sequences to predict K and O serotypes (as serological typing is not available) and a lack of longitudinal data to explore stability of antigen prevalence over time. Conclusions: Neonatal sepsis is associated with diverse K and O types, with substantial geographic and temporal variation even after adjusting for localised transmission clusters. Despite this, a single 20-valent K vaccine could theoretically cover =70% of infections in all target regions. Locally-targeted vaccines could achieve higher coverage with lower valency, but are less feasible. In principle, very high coverage could be achieved with lower valency O-based vaccines, however, the protective efficacy against disease of antibodies targeting the O antigen remains uncertain. Further research is needed on cross-reactivity, antigen exposure, and stability of antigens over time, to better inform vaccine development.

Original language	English
Article number	e1004879
Journal	PLoS Medicine
Volume	23
Issue number	1 January
DOIs	https://doi.org/10.1371/journal.pmed.1004879
Publication status	Published - Jan 2026

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10.1371/journal.pmed.1004879

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Stanton, T. D., Keegan, S. P., Abdulahi, J. A., Amulele, A. V., Bates, M., Heinz, E., Hooda, Y., Hu, W., Jain, K., Kanwar, S., Magobo, R., Olwagen, C. P., Tembo, J. M., Sonda, T., Strysko, J., Tigoi, C. C., Amin, S. A., Bittinger, K., Cornick, J., ... Holt, K. E. (2026). Distribution of capsule and O types in Klebsiella pneumoniae causing neonatal sepsis in Africa and South Asia: A meta-analysis of genome-predicted serotype prevalence to inform potential vaccine coverage. PLoS Medicine, 23(1 January), Article e1004879. https://doi.org/10.1371/journal.pmed.1004879

@article{3c225fe454514456b6563e34911dba74,

title = "Distribution of capsule and O types in Klebsiella pneumoniae causing neonatal sepsis in Africa and South Asia: A meta-analysis of genome-predicted serotype prevalence to inform potential vaccine coverage",

abstract = "Background: Klebsiella pneumoniae causes ∼20\% of sepsis in neonates, with ∼40\% crude mortality. A vaccine administered to pregnant women, protecting against =70\% of K. pneumoniae infections, could avert ∼400,000 cases and ∼80,000 deaths annually, mostly in Africa and South Asia. Vaccine formulations targeting the capsular polysaccharide (K) or lipopolysaccharide (O) antigens are in development. Global K. pneumoniae populations display extensive K and O diversity, necessitating a polyvalent vaccine-targeted to the serotypes associated with neonatal disease in relevant geographical regions. We investigated the prevalence of K and O types associated with neonatal sepsis in Africa and South Asia to inform maternal vaccine design. Methods and findings: We analysed 1,930 K. pneumoniae neonate blood isolates from 13 surveillance studies across 35 sites in 13 countries. We used pathogen whole-genome sequencing to predict K and O serotypes and adjust for local transmission clusters, and Bayesian hierarchical meta-analysis to estimate K and O prevalence overall and per region, treating site as a random effect. Eighty-seven K loci were identified. KL2, KL102, KL25, KL15, and KL62 accounted for 49\% of isolates. We estimate that 20K loci, combining the eight most prevalent per region, could cover 72.9\% of all infections (95\% credible interval: [69.4\%, 76.5\%]) and =70\% in each of Eastern, Western, and Southern Africa and South Asia. Preliminary findings from three sites suggested sufficient temporal stability of K loci to maintain 20-valent K vaccine coverage over 5-10 years, but more longitudinal data are needed to support this prediction. O types were far less diverse (n=14 types). We estimate the top-5 (O1αβ,2α O1αβ,2β, O2α, O2β, and O4) would cover 86.2\% [82.6, 89.9\%] of total infections (76\%-92\% per region), while the top-10 would cover ∼99\% of infections in all four regions. The main limitations of our study are the reliance on genome sequences to predict K and O serotypes (as serological typing is not available) and a lack of longitudinal data to explore stability of antigen prevalence over time. Conclusions: Neonatal sepsis is associated with diverse K and O types, with substantial geographic and temporal variation even after adjusting for localised transmission clusters. Despite this, a single 20-valent K vaccine could theoretically cover =70\% of infections in all target regions. Locally-targeted vaccines could achieve higher coverage with lower valency, but are less feasible. In principle, very high coverage could be achieved with lower valency O-based vaccines, however, the protective efficacy against disease of antibodies targeting the O antigen remains uncertain. Further research is needed on cross-reactivity, antigen exposure, and stability of antigens over time, to better inform vaccine development.",

author = "Stanton, \{Thomas D.\} and Keegan, \{Shaun P.\} and Abdulahi, \{Jabir A.\} and Amulele, \{Anne V.\} and Matthew Bates and Eva Heinz and Yogesh Hooda and Weiming Hu and Kajal Jain and Samiah Kanwar and Rindidzani Magobo and Olwagen, \{Courtney P.\} and Tembo, \{John M.\} and Tolbert Sonda and Jonathan Strysko and Tigoi, \{Caroline C.\} and Amin, \{Sameen Ahmad\} and Kyle Bittinger and Jennifer Cornick and Ebenezer Foster-Nyarko and Wilson Gumbi and Aneeta Hotwani and Naveed Iqbal and Jones, \{Steven M.\} and Furqan Kabir and Waqasuddin Khan and Musyani, \{Chileshe L.\} and McGann, \{Carolyn M.\} and Varsha Mittal and Moustafa, \{Ahmed M.\} and Patrick Musicha and Mwansa, \{James C.L.\} and Ndumba, \{Moreka L.\} and Odih, \{Erkison E.\} and Omuoyo, \{Donwilliams O.\} and Oliver Pearse and Phillips, \{Laura T.\} and Planet, \{Paul J.\} and Rasool, \{Aniqa Abdul\} and Rodrigues, \{Charlene M.C.\} and Kirsty Sands and Tanmoy, \{Arif M.\} and Erin Theiller and Zuza, \{Allan M.\} and Sulagna Basu and Chan, \{Grace J.\} and Iregbu, \{Kenneth C.\} and Mazarati, \{Jean Baptiste\} and Alemayehu, \{Semaria Solomon\} and Walsh, \{Timothy R.\} and Rabaab Zahra and Angela Dramowski and Sombo Fwoloshi and Labi, \{Appiah Korang\} and Lola Madrid and Noah Obeng-Nkrumah and David Ojok and Wadugu, \{Boaz D.\} and Whitelaw, \{Andrew C.\} and Adhisivam Bethou and Anudita Bhargava and Atul Jindal and Nanavati, \{Ruchi N.\} and Prasad, \{Priyanka S.\} and Apurba Sastry and Farooqi, \{Joveria Q.\} and Najia Ghanchi and Fyezah Jehan and Erum Khan and Agarwal, \{Ramesh K.\} and Aiken, \{Alexander M.\} and Berkley, \{James A.\} and Coffin, \{Susan E.\} and Feasey, \{Nicholas A.\} and Govender, \{Nelesh P.\} and Hamer, \{Davidson H.\} and Madhi, \{Shabir A.\} and Nisar, \{Muhammad Imran\} and Saha, \{Samir K.\} and Senjuti Saha and \{Jeeva Sankar\}, M. and Wyres, \{Kelly L.\} and Holt, \{Kathryn E.\}",

note = "Publisher Copyright: {\textcopyright} 2026 Stanton et al. This is an open access article distributed under the terms of the Creative Commons Attribution License, which permits unrestricted use, distribution, and reproduction in any medium, provided the original author and source are credited.",

year = "2026",

month = jan,

doi = "10.1371/journal.pmed.1004879",

language = "English",

volume = "23",

journal = "PLoS Medicine",

issn = "1549-1277",

publisher = "Public Library of Science",

number = "1 January",

}

Stanton, TD, Keegan, SP, Abdulahi, JA, Amulele, AV, Bates, M, Heinz, E, Hooda, Y, Hu, W, Jain, K, Kanwar, S, Magobo, R, Olwagen, CP, Tembo, JM, Sonda, T, Strysko, J, Tigoi, CC, Amin, SA, Bittinger, K, Cornick, J, Foster-Nyarko, E, Gumbi, W, Hotwani, A, Iqbal, N, Jones, SM, Kabir, F, Khan, W, Musyani, CL, McGann, CM, Mittal, V, Moustafa, AM, Musicha, P, Mwansa, JCL, Ndumba, ML, Odih, EE, Omuoyo, DO, Pearse, O, Phillips, LT, Planet, PJ, Rasool, AA, Rodrigues, CMC, Sands, K, Tanmoy, AM, Theiller, E, Zuza, AM, Basu, S, Chan, GJ, Iregbu, KC, Mazarati, JB, Alemayehu, SS, Walsh, TR, Zahra, R, Dramowski, A, Fwoloshi, S, Labi, AK, Madrid, L, Obeng-Nkrumah, N, Ojok, D, Wadugu, BD, Whitelaw, AC, Bethou, A, Bhargava, A, Jindal, A, Nanavati, RN, Prasad, PS, Sastry, A, Farooqi, JQ, Ghanchi, N, Jehan, F, Khan, E, Agarwal, RK, Aiken, AM, Berkley, JA, Coffin, SE, Feasey, NA, Govender, NP, Hamer, DH, Madhi, SA, Nisar, MI, Saha, SK, Saha, S, Jeeva Sankar, M, Wyres, KL & Holt, KE 2026, 'Distribution of capsule and O types in Klebsiella pneumoniae causing neonatal sepsis in Africa and South Asia: A meta-analysis of genome-predicted serotype prevalence to inform potential vaccine coverage', PLoS Medicine, vol. 23, no. 1 January, e1004879. https://doi.org/10.1371/journal.pmed.1004879

Distribution of capsule and O types in Klebsiella pneumoniae causing neonatal sepsis in Africa and South Asia: A meta-analysis of genome-predicted serotype prevalence to inform potential vaccine coverage. / Stanton, Thomas D.; Keegan, Shaun P.; Abdulahi, Jabir A. et al.
In: PLoS Medicine, Vol. 23, No. 1 January, e1004879, 01.2026.

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

TY - JOUR

T1 - Distribution of capsule and O types in Klebsiella pneumoniae causing neonatal sepsis in Africa and South Asia

T2 - A meta-analysis of genome-predicted serotype prevalence to inform potential vaccine coverage

AU - Stanton, Thomas D.

AU - Keegan, Shaun P.

AU - Abdulahi, Jabir A.

AU - Amulele, Anne V.

AU - Bates, Matthew

AU - Heinz, Eva

AU - Hooda, Yogesh

AU - Hu, Weiming

AU - Jain, Kajal

AU - Kanwar, Samiah

AU - Magobo, Rindidzani

AU - Olwagen, Courtney P.

AU - Tembo, John M.

AU - Sonda, Tolbert

AU - Strysko, Jonathan

AU - Tigoi, Caroline C.

AU - Amin, Sameen Ahmad

AU - Bittinger, Kyle

AU - Cornick, Jennifer

AU - Foster-Nyarko, Ebenezer

AU - Gumbi, Wilson

AU - Hotwani, Aneeta

AU - Iqbal, Naveed

AU - Jones, Steven M.

AU - Kabir, Furqan

AU - Khan, Waqasuddin

AU - Musyani, Chileshe L.

AU - McGann, Carolyn M.

AU - Mittal, Varsha

AU - Moustafa, Ahmed M.

AU - Musicha, Patrick

AU - Mwansa, James C.L.

AU - Ndumba, Moreka L.

AU - Odih, Erkison E.

AU - Omuoyo, Donwilliams O.

AU - Pearse, Oliver

AU - Phillips, Laura T.

AU - Planet, Paul J.

AU - Rasool, Aniqa Abdul

AU - Rodrigues, Charlene M.C.

AU - Sands, Kirsty

AU - Tanmoy, Arif M.

AU - Theiller, Erin

AU - Zuza, Allan M.

AU - Basu, Sulagna

AU - Chan, Grace J.

AU - Iregbu, Kenneth C.

AU - Mazarati, Jean Baptiste

AU - Alemayehu, Semaria Solomon

AU - Walsh, Timothy R.

AU - Zahra, Rabaab

AU - Dramowski, Angela

AU - Fwoloshi, Sombo

AU - Labi, Appiah Korang

AU - Madrid, Lola

AU - Obeng-Nkrumah, Noah

AU - Ojok, David

AU - Wadugu, Boaz D.

AU - Whitelaw, Andrew C.

AU - Bethou, Adhisivam

AU - Bhargava, Anudita

AU - Jindal, Atul

AU - Nanavati, Ruchi N.

AU - Prasad, Priyanka S.

AU - Sastry, Apurba

AU - Farooqi, Joveria Q.

AU - Ghanchi, Najia

AU - Jehan, Fyezah

AU - Khan, Erum

AU - Agarwal, Ramesh K.

AU - Aiken, Alexander M.

AU - Berkley, James A.

AU - Coffin, Susan E.

AU - Feasey, Nicholas A.

AU - Govender, Nelesh P.

AU - Hamer, Davidson H.

AU - Madhi, Shabir A.

AU - Nisar, Muhammad Imran

AU - Saha, Samir K.

AU - Saha, Senjuti

AU - Jeeva Sankar, M.

AU - Wyres, Kelly L.

AU - Holt, Kathryn E.

N1 - Publisher Copyright: © 2026 Stanton et al. This is an open access article distributed under the terms of the Creative Commons Attribution License, which permits unrestricted use, distribution, and reproduction in any medium, provided the original author and source are credited.

PY - 2026/1

Y1 - 2026/1

N2 - Background: Klebsiella pneumoniae causes ∼20% of sepsis in neonates, with ∼40% crude mortality. A vaccine administered to pregnant women, protecting against =70% of K. pneumoniae infections, could avert ∼400,000 cases and ∼80,000 deaths annually, mostly in Africa and South Asia. Vaccine formulations targeting the capsular polysaccharide (K) or lipopolysaccharide (O) antigens are in development. Global K. pneumoniae populations display extensive K and O diversity, necessitating a polyvalent vaccine-targeted to the serotypes associated with neonatal disease in relevant geographical regions. We investigated the prevalence of K and O types associated with neonatal sepsis in Africa and South Asia to inform maternal vaccine design. Methods and findings: We analysed 1,930 K. pneumoniae neonate blood isolates from 13 surveillance studies across 35 sites in 13 countries. We used pathogen whole-genome sequencing to predict K and O serotypes and adjust for local transmission clusters, and Bayesian hierarchical meta-analysis to estimate K and O prevalence overall and per region, treating site as a random effect. Eighty-seven K loci were identified. KL2, KL102, KL25, KL15, and KL62 accounted for 49% of isolates. We estimate that 20K loci, combining the eight most prevalent per region, could cover 72.9% of all infections (95% credible interval: [69.4%, 76.5%]) and =70% in each of Eastern, Western, and Southern Africa and South Asia. Preliminary findings from three sites suggested sufficient temporal stability of K loci to maintain 20-valent K vaccine coverage over 5-10 years, but more longitudinal data are needed to support this prediction. O types were far less diverse (n=14 types). We estimate the top-5 (O1αβ,2α O1αβ,2β, O2α, O2β, and O4) would cover 86.2% [82.6, 89.9%] of total infections (76%-92% per region), while the top-10 would cover ∼99% of infections in all four regions. The main limitations of our study are the reliance on genome sequences to predict K and O serotypes (as serological typing is not available) and a lack of longitudinal data to explore stability of antigen prevalence over time. Conclusions: Neonatal sepsis is associated with diverse K and O types, with substantial geographic and temporal variation even after adjusting for localised transmission clusters. Despite this, a single 20-valent K vaccine could theoretically cover =70% of infections in all target regions. Locally-targeted vaccines could achieve higher coverage with lower valency, but are less feasible. In principle, very high coverage could be achieved with lower valency O-based vaccines, however, the protective efficacy against disease of antibodies targeting the O antigen remains uncertain. Further research is needed on cross-reactivity, antigen exposure, and stability of antigens over time, to better inform vaccine development.

AB - Background: Klebsiella pneumoniae causes ∼20% of sepsis in neonates, with ∼40% crude mortality. A vaccine administered to pregnant women, protecting against =70% of K. pneumoniae infections, could avert ∼400,000 cases and ∼80,000 deaths annually, mostly in Africa and South Asia. Vaccine formulations targeting the capsular polysaccharide (K) or lipopolysaccharide (O) antigens are in development. Global K. pneumoniae populations display extensive K and O diversity, necessitating a polyvalent vaccine-targeted to the serotypes associated with neonatal disease in relevant geographical regions. We investigated the prevalence of K and O types associated with neonatal sepsis in Africa and South Asia to inform maternal vaccine design. Methods and findings: We analysed 1,930 K. pneumoniae neonate blood isolates from 13 surveillance studies across 35 sites in 13 countries. We used pathogen whole-genome sequencing to predict K and O serotypes and adjust for local transmission clusters, and Bayesian hierarchical meta-analysis to estimate K and O prevalence overall and per region, treating site as a random effect. Eighty-seven K loci were identified. KL2, KL102, KL25, KL15, and KL62 accounted for 49% of isolates. We estimate that 20K loci, combining the eight most prevalent per region, could cover 72.9% of all infections (95% credible interval: [69.4%, 76.5%]) and =70% in each of Eastern, Western, and Southern Africa and South Asia. Preliminary findings from three sites suggested sufficient temporal stability of K loci to maintain 20-valent K vaccine coverage over 5-10 years, but more longitudinal data are needed to support this prediction. O types were far less diverse (n=14 types). We estimate the top-5 (O1αβ,2α O1αβ,2β, O2α, O2β, and O4) would cover 86.2% [82.6, 89.9%] of total infections (76%-92% per region), while the top-10 would cover ∼99% of infections in all four regions. The main limitations of our study are the reliance on genome sequences to predict K and O serotypes (as serological typing is not available) and a lack of longitudinal data to explore stability of antigen prevalence over time. Conclusions: Neonatal sepsis is associated with diverse K and O types, with substantial geographic and temporal variation even after adjusting for localised transmission clusters. Despite this, a single 20-valent K vaccine could theoretically cover =70% of infections in all target regions. Locally-targeted vaccines could achieve higher coverage with lower valency, but are less feasible. In principle, very high coverage could be achieved with lower valency O-based vaccines, however, the protective efficacy against disease of antibodies targeting the O antigen remains uncertain. Further research is needed on cross-reactivity, antigen exposure, and stability of antigens over time, to better inform vaccine development.

UR - https://www.scopus.com/pages/publications/105027634063

U2 - 10.1371/journal.pmed.1004879

DO - 10.1371/journal.pmed.1004879

M3 - Article

C2 - 41525325

AN - SCOPUS:105027634063

SN - 1549-1277

VL - 23

JO - PLoS Medicine

JF - PLoS Medicine

IS - 1 January

M1 - e1004879

ER -

Distribution of capsule and O types in Klebsiella pneumoniae causing neonatal sepsis in Africa and South Asia: A meta-analysis of genome-predicted serotype prevalence to inform potential vaccine coverage

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