Author
Listed:
- Marcus Petersson
(Technical University of Denmark
Bactolife A/S)
- Franz G. Zingl
(Harvard T. H. Chan School of Public Health
Brigham and Women’s Hospital
Harvard Medical School)
- Everardo Rodriguez-Rodriguez
(Bactolife A/S)
- Jakob K. H. Rendsvig
(Bactolife A/S)
- Heidi Heinsøe
(Bactolife A/S)
- Emma Wenzel Arendrup
(Bactolife A/S)
- Natalia Mojica
(University of Oslo)
- Dario Segura Peña
(University of Oslo)
- Nikolina Sekulić
(University of Oslo
University of Oslo)
- Ute Krengel
(University of Oslo)
- Monica L. Fernández-Quintero
(Technical University of Denmark)
- Timothy P. Jenkins
(Technical University of Denmark)
- Lone Gram
(Technical University of Denmark)
- Matthew K. Waldor
(Harvard T. H. Chan School of Public Health
Brigham and Women’s Hospital
Harvard Medical School
Howard Hughes Medical Institute)
- Andreas H. Laustsen
(Technical University of Denmark
Bactolife A/S)
- Sandra Wingaard Thrane
(Bactolife A/S)
Abstract
The ongoing seventh cholera pandemic, which began in 1961, poses an escalating threat to public health. There is a need for new cholera control measures, particularly ones that can be produced at low cost, for the one billion people living in cholera-endemic regions. Orally delivered VHHs, functioning as target-binding proteins, have been proposed as a potential approach to control gastrointestinal pathogens. Here, we describe the development of an orally deliverable bivalent VHH construct that binds to the B-pentamer of cholera toxin, showing that it inhibits toxin activity in a murine challenge model. Infant mice given the bivalent VHH prior to V. cholerae infection exhibit a significant reduction in cholera toxin–associated intestinal fluid secretion and diarrhoea. In addition, the bivalent VHH reduces V. cholerae colonization levels in the small intestine by a factor of 10. This cholera toxin–binding protein holds promise for protecting against severe diarrhoea associated with cholera.
Suggested Citation
Marcus Petersson & Franz G. Zingl & Everardo Rodriguez-Rodriguez & Jakob K. H. Rendsvig & Heidi Heinsøe & Emma Wenzel Arendrup & Natalia Mojica & Dario Segura Peña & Nikolina Sekulić & Ute Krengel & M, 2025.
"Orally delivered toxin–binding protein protects against diarrhoea in a murine cholera model,"
Nature Communications, Nature, vol. 16(1), pages 1-14, December.
Handle:
RePEc:nat:natcom:v:16:y:2025:i:1:d:10.1038_s41467-025-57945-w
DOI: 10.1038/s41467-025-57945-w
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