Collaborative Synthesis for Neglected Diseases through the Open Synthesis Network: Structure-Activity Relationships of Arylaminopyrazoles as Chagas Disease Treatments

Zigli Abdulai; Natasha Agbo; Jonathan I. Anderson; Faye Astley; Brian Chan; Owen Atkinson-Evans; João L. Avelar; Cristiane Aparecida-Silva; K. D. Bhardwaj; William J. Bowley; Nicholas Breitkreuz; Rosie Canby; Emerald Cartwright; Charles Clifford; Shannon A. Cordell; William J. Donker; Joseph Driscoll; Matthew Grady; Lauren Higginbotham; Devon Hsu; Jamie Hutchinson; Lukas Imberg; Harry F. Jackson; Finan Johns; Emma Jones; Dmitrii V. Kalinin; Ceren Kardeşler; Aaron Keal; Libby Keel; Sumin Kim; Phoebe Knight; Justus F. Ködel; Luke Kumeta; Hyejin Lee; Sam Le Roy; Rachelle Maccarone; Maria Mahmud; Matthew Martin; Ignatius Nguyen; Conor J. Nolan; Lucy Noyes; Angela N.W. Ntuwa; Wiktoria Obarska; Owen Oldham; Edna Onyiuke; Jess Otter; Hugh Page; Dhruvi Patel; Kayla Reid; Krishna Samaddar; Sheryar M. Shabbir; Peter Shevlin; Callum Sinclair-Wright; Amanda Smithies; Amelia S. Thomson; Jack Tinker; Alexander Uner; Natascha Van Pelt; Ewan Waddell; Hamis Wagwa; Claire Walthorne; Sophie Warner; Tobias Winge; Ngai Sum Wong; Leon Jan Wysocki; Callum A. Yong; Zaria Zaheen; An Matheeussen; Guy Caljon; Richard Amewu; Anna Bertram; Bernhard Biersack; Carolyn Friel; Lídia Moreira Lima; Chase Smith; Bernhard Wünsch; Benjamin Perry; Luiza R. Cruz; Andrew Nortcliffe

doi:10.1021/acsinfecdis.5c00481

Collaborative Synthesis for Neglected Diseases through the Open Synthesis Network: Structure-Activity Relationships of Arylaminopyrazoles as Chagas Disease Treatments

Zigli Abdulai, Natasha Agbo, Jonathan I. Anderson, Faye Astley, Brian Chan, Owen Atkinson-Evans, João L. Avelar, Cristiane Aparecida-Silva, K. D. Bhardwaj, William J. Bowley, Nicholas Breitkreuz, Rosie Canby, Emerald Cartwright, Charles Clifford, Shannon A. Cordell, William J. Donker, Joseph Driscoll, Matthew Grady, Lauren Higginbotham, Devon HsuJamie Hutchinson, Lukas Imberg, Harry F. Jackson, Finan Johns, Emma Jones, Dmitrii V. Kalinin, Ceren Kardeşler, Aaron Keal, Libby Keel, Sumin Kim, Phoebe Knight, Justus F. Ködel, Luke Kumeta, Hyejin Lee, Sam Le Roy, Rachelle Maccarone, Maria Mahmud, Matthew Martin, Ignatius Nguyen, Conor J. Nolan, Lucy Noyes, Angela N.W. Ntuwa, Wiktoria Obarska, Owen Oldham, Edna Onyiuke, Jess Otter, Hugh Page, Dhruvi Patel, Kayla Reid, Krishna Samaddar, Sheryar M. Shabbir, Peter Shevlin, Callum Sinclair-Wright, Amanda Smithies, Amelia S. Thomson, Jack Tinker, Alexander Uner, Natascha Van Pelt, Ewan Waddell, Hamis Wagwa, Claire Walthorne, Sophie Warner, Tobias Winge, Ngai Sum Wong, Leon Jan Wysocki, Callum A. Yong, Zaria Zaheen, An Matheeussen, Guy Caljon, Richard Amewu, Anna Bertram, Bernhard Biersack, Carolyn Friel, Lídia Moreira Lima, Chase Smith, Bernhard Wünsch, Benjamin Perry, Luiza R. Cruz, Andrew Nortcliffe

Department of Chemistry

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

Abstract

Neglected tropical diseases (NTDs) make up a diverse group of debilitating illnesses disproportionately affecting impoverished communities in tropical and subtropical regions. Despite their significant global health burden, they are often overshadowed by more prominent diseases, resulting in a critical lack of investment in the research and development of new treatments. A renewed focus on NTDs is, therefore, urgently needed, particularly in terms of novel therapeutic strategies. The Open Synthesis Network, launched by DNDi and partner institutions in 2016, is an innovation powerhouse that taps into the potential of students to help drive the discovery of new drugs for patients living with NTDs. We present the results of student-led work into the development of a series of aminopyrazoles for Chagas disease, a multisystemic disease caused by the Trypanosoma cruzi parasite. Seventy-four compounds were synthesized by undergraduate and postgraduate students from six universities from Brazil, Ghana, Germany, USA, and UK, illustrating that open innovation and collaboration for education can drive drug discovery forward. Early evaluation of the structure-activity relationships identified a range of potent hit compounds with selectivity for T. cruzi and no observable cytotoxicity.

Original language	English
Pages (from-to)	2593-2606
Number of pages	14
Journal	ACS Infectious Diseases
Volume	11
Issue number	9
DOIs	https://doi.org/10.1021/acsinfecdis.5c00481
Publication status	Published - 12 Sep 2025

Keywords

NTDs
Trypanosoma cruzi
drug discovery
education
infectious diseases
open innovation
parasites
structure−activity relationships

UN SDGs

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

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10.1021/acsinfecdis.5c00481

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Abdulai, Z., Agbo, N., Anderson, J. I., Astley, F., Chan, B., Atkinson-Evans, O., Avelar, J. L., Aparecida-Silva, C., Bhardwaj, K. D., Bowley, W. J., Breitkreuz, N., Canby, R., Cartwright, E., Clifford, C., Cordell, S. A., Donker, W. J., Driscoll, J., Grady, M., Higginbotham, L., ... Nortcliffe, A. (2025). Collaborative Synthesis for Neglected Diseases through the Open Synthesis Network: Structure-Activity Relationships of Arylaminopyrazoles as Chagas Disease Treatments. ACS Infectious Diseases, 11(9), 2593-2606. https://doi.org/10.1021/acsinfecdis.5c00481

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title = "Collaborative Synthesis for Neglected Diseases through the Open Synthesis Network: Structure-Activity Relationships of Arylaminopyrazoles as Chagas Disease Treatments",

abstract = "Neglected tropical diseases (NTDs) make up a diverse group of debilitating illnesses disproportionately affecting impoverished communities in tropical and subtropical regions. Despite their significant global health burden, they are often overshadowed by more prominent diseases, resulting in a critical lack of investment in the research and development of new treatments. A renewed focus on NTDs is, therefore, urgently needed, particularly in terms of novel therapeutic strategies. The Open Synthesis Network, launched by DNDi and partner institutions in 2016, is an innovation powerhouse that taps into the potential of students to help drive the discovery of new drugs for patients living with NTDs. We present the results of student-led work into the development of a series of aminopyrazoles for Chagas disease, a multisystemic disease caused by the Trypanosoma cruzi parasite. Seventy-four compounds were synthesized by undergraduate and postgraduate students from six universities from Brazil, Ghana, Germany, USA, and UK, illustrating that open innovation and collaboration for education can drive drug discovery forward. Early evaluation of the structure-activity relationships identified a range of potent hit compounds with selectivity for T. cruzi and no observable cytotoxicity.",

keywords = "NTDs, Trypanosoma cruzi, drug discovery, education, infectious diseases, open innovation, parasites, structure−activity relationships",

author = "Zigli Abdulai and Natasha Agbo and Anderson, \{Jonathan I.\} and Faye Astley and Brian Chan and Owen Atkinson-Evans and Avelar, \{Jo{\~a}o L.\} and Cristiane Aparecida-Silva and Bhardwaj, \{K. D.\} and Bowley, \{William J.\} and Nicholas Breitkreuz and Rosie Canby and Emerald Cartwright and Charles Clifford and Cordell, \{Shannon A.\} and Donker, \{William J.\} and Joseph Driscoll and Matthew Grady and Lauren Higginbotham and Devon Hsu and Jamie Hutchinson and Lukas Imberg and Jackson, \{Harry F.\} and Finan Johns and Emma Jones and Kalinin, \{Dmitrii V.\} and Ceren Karde{\c s}ler and Aaron Keal and Libby Keel and Sumin Kim and Phoebe Knight and K{\"o}del, \{Justus F.\} and Luke Kumeta and Hyejin Lee and \{Le Roy\}, Sam and Rachelle Maccarone and Maria Mahmud and Matthew Martin and Ignatius Nguyen and Nolan, \{Conor J.\} and Lucy Noyes and Ntuwa, \{Angela N.W.\} and Wiktoria Obarska and Owen Oldham and Edna Onyiuke and Jess Otter and Hugh Page and Dhruvi Patel and Kayla Reid and Krishna Samaddar and Shabbir, \{Sheryar M.\} and Peter Shevlin and Callum Sinclair-Wright and Amanda Smithies and Thomson, \{Amelia S.\} and Jack Tinker and Alexander Uner and \{Van Pelt\}, Natascha and Ewan Waddell and Hamis Wagwa and Claire Walthorne and Sophie Warner and Tobias Winge and \{Sum Wong\}, Ngai and Wysocki, \{Leon Jan\} and Yong, \{Callum A.\} and Zaria Zaheen and An Matheeussen and Guy Caljon and Richard Amewu and Anna Bertram and Bernhard Biersack and Carolyn Friel and Lima, \{L{\'i}dia Moreira\} and Chase Smith and Bernhard W{\"u}nsch and Benjamin Perry and Cruz, \{Luiza R.\} and Andrew Nortcliffe",

year = "2025",

month = sep,

day = "12",

doi = "10.1021/acsinfecdis.5c00481",

language = "English",

volume = "11",

pages = "2593--2606",

journal = "ACS Infectious Diseases",

issn = "2373-8227",

publisher = "American Chemical Society",

number = "9",

}

Abdulai, Z, Agbo, N, Anderson, JI, Astley, F, Chan, B, Atkinson-Evans, O, Avelar, JL, Aparecida-Silva, C, Bhardwaj, KD, Bowley, WJ, Breitkreuz, N, Canby, R, Cartwright, E, Clifford, C, Cordell, SA, Donker, WJ, Driscoll, J, Grady, M, Higginbotham, L, Hsu, D, Hutchinson, J, Imberg, L, Jackson, HF, Johns, F, Jones, E, Kalinin, DV, Kardeşler, C, Keal, A, Keel, L, Kim, S, Knight, P, Ködel, JF, Kumeta, L, Lee, H, Le Roy, S, Maccarone, R, Mahmud, M, Martin, M, Nguyen, I, Nolan, CJ, Noyes, L, Ntuwa, ANW, Obarska, W, Oldham, O, Onyiuke, E, Otter, J, Page, H, Patel, D, Reid, K, Samaddar, K, Shabbir, SM, Shevlin, P, Sinclair-Wright, C, Smithies, A, Thomson, AS, Tinker, J, Uner, A, Van Pelt, N, Waddell, E, Wagwa, H, Walthorne, C, Warner, S, Winge, T, Sum Wong, N, Wysocki, LJ, Yong, CA, Zaheen, Z, Matheeussen, A, Caljon, G, Amewu, R, Bertram, A, Biersack, B, Friel, C, Lima, LM, Smith, C, Wünsch, B, Perry, B, Cruz, LR & Nortcliffe, A 2025, 'Collaborative Synthesis for Neglected Diseases through the Open Synthesis Network: Structure-Activity Relationships of Arylaminopyrazoles as Chagas Disease Treatments', ACS Infectious Diseases, vol. 11, no. 9, pp. 2593-2606. https://doi.org/10.1021/acsinfecdis.5c00481

TY - JOUR

T1 - Collaborative Synthesis for Neglected Diseases through the Open Synthesis Network

T2 - Structure-Activity Relationships of Arylaminopyrazoles as Chagas Disease Treatments

AU - Abdulai, Zigli

AU - Agbo, Natasha

AU - Anderson, Jonathan I.

AU - Astley, Faye

AU - Chan, Brian

AU - Atkinson-Evans, Owen

AU - Avelar, João L.

AU - Aparecida-Silva, Cristiane

AU - Bhardwaj, K. D.

AU - Bowley, William J.

AU - Breitkreuz, Nicholas

AU - Canby, Rosie

AU - Cartwright, Emerald

AU - Clifford, Charles

AU - Cordell, Shannon A.

AU - Donker, William J.

AU - Driscoll, Joseph

AU - Grady, Matthew

AU - Higginbotham, Lauren

AU - Hsu, Devon

AU - Hutchinson, Jamie

AU - Imberg, Lukas

AU - Jackson, Harry F.

AU - Johns, Finan

AU - Jones, Emma

AU - Kalinin, Dmitrii V.

AU - Kardeşler, Ceren

AU - Keal, Aaron

AU - Keel, Libby

AU - Kim, Sumin

AU - Knight, Phoebe

AU - Ködel, Justus F.

AU - Kumeta, Luke

AU - Lee, Hyejin

AU - Le Roy, Sam

AU - Maccarone, Rachelle

AU - Mahmud, Maria

AU - Martin, Matthew

AU - Nguyen, Ignatius

AU - Nolan, Conor J.

AU - Noyes, Lucy

AU - Ntuwa, Angela N.W.

AU - Obarska, Wiktoria

AU - Oldham, Owen

AU - Onyiuke, Edna

AU - Otter, Jess

AU - Page, Hugh

AU - Patel, Dhruvi

AU - Reid, Kayla

AU - Samaddar, Krishna

AU - Shabbir, Sheryar M.

AU - Shevlin, Peter

AU - Sinclair-Wright, Callum

AU - Smithies, Amanda

AU - Thomson, Amelia S.

AU - Tinker, Jack

AU - Uner, Alexander

AU - Van Pelt, Natascha

AU - Waddell, Ewan

AU - Wagwa, Hamis

AU - Walthorne, Claire

AU - Warner, Sophie

AU - Winge, Tobias

AU - Sum Wong, Ngai

AU - Wysocki, Leon Jan

AU - Yong, Callum A.

AU - Zaheen, Zaria

AU - Matheeussen, An

AU - Caljon, Guy

AU - Amewu, Richard

AU - Bertram, Anna

AU - Biersack, Bernhard

AU - Friel, Carolyn

AU - Lima, Lídia Moreira

AU - Smith, Chase

AU - Wünsch, Bernhard

AU - Perry, Benjamin

AU - Cruz, Luiza R.

AU - Nortcliffe, Andrew

PY - 2025/9/12

Y1 - 2025/9/12

N2 - Neglected tropical diseases (NTDs) make up a diverse group of debilitating illnesses disproportionately affecting impoverished communities in tropical and subtropical regions. Despite their significant global health burden, they are often overshadowed by more prominent diseases, resulting in a critical lack of investment in the research and development of new treatments. A renewed focus on NTDs is, therefore, urgently needed, particularly in terms of novel therapeutic strategies. The Open Synthesis Network, launched by DNDi and partner institutions in 2016, is an innovation powerhouse that taps into the potential of students to help drive the discovery of new drugs for patients living with NTDs. We present the results of student-led work into the development of a series of aminopyrazoles for Chagas disease, a multisystemic disease caused by the Trypanosoma cruzi parasite. Seventy-four compounds were synthesized by undergraduate and postgraduate students from six universities from Brazil, Ghana, Germany, USA, and UK, illustrating that open innovation and collaboration for education can drive drug discovery forward. Early evaluation of the structure-activity relationships identified a range of potent hit compounds with selectivity for T. cruzi and no observable cytotoxicity.

AB - Neglected tropical diseases (NTDs) make up a diverse group of debilitating illnesses disproportionately affecting impoverished communities in tropical and subtropical regions. Despite their significant global health burden, they are often overshadowed by more prominent diseases, resulting in a critical lack of investment in the research and development of new treatments. A renewed focus on NTDs is, therefore, urgently needed, particularly in terms of novel therapeutic strategies. The Open Synthesis Network, launched by DNDi and partner institutions in 2016, is an innovation powerhouse that taps into the potential of students to help drive the discovery of new drugs for patients living with NTDs. We present the results of student-led work into the development of a series of aminopyrazoles for Chagas disease, a multisystemic disease caused by the Trypanosoma cruzi parasite. Seventy-four compounds were synthesized by undergraduate and postgraduate students from six universities from Brazil, Ghana, Germany, USA, and UK, illustrating that open innovation and collaboration for education can drive drug discovery forward. Early evaluation of the structure-activity relationships identified a range of potent hit compounds with selectivity for T. cruzi and no observable cytotoxicity.

KW - NTDs

KW - Trypanosoma cruzi

KW - drug discovery

KW - education

KW - infectious diseases

KW - open innovation

KW - parasites

KW - structure−activity relationships

UR - https://www.scopus.com/pages/publications/105015860082

U2 - 10.1021/acsinfecdis.5c00481

DO - 10.1021/acsinfecdis.5c00481

M3 - Article

C2 - 40788996

AN - SCOPUS:105015860082

SN - 2373-8227

VL - 11

SP - 2593

EP - 2606

JO - ACS Infectious Diseases

JF - ACS Infectious Diseases

IS - 9

ER -

Collaborative Synthesis for Neglected Diseases through the Open Synthesis Network: Structure-Activity Relationships of Arylaminopyrazoles as Chagas Disease Treatments

Abstract

Keywords

UN SDGs

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