Helminth infection driven gastrointestinal hypermotility is independent of eosinophils and mediated by alterations in smooth muscle instead of enteric neurons

Haozhe Wang; Kristian Barry; Aidil Zaini; Gillian Coakley; Mati Moyat; Carmel P Daunt; Lakshanie C Wickramasinghe; Rossana Azzoni; Roxanne Chatzis; Bibek Yumnam; Mali Camberis; Graham Le Gros; Olaf Perdijk; Jaime P P Foong; Joel C Bornstein; Benjamin J Marsland; Nicola L Harris

doi:10.1371/journal.ppat.1011766

Helminth infection driven gastrointestinal hypermotility is independent of eosinophils and mediated by alterations in smooth muscle instead of enteric neurons

Haozhe Wang, Kristian Barry, Aidil Zaini, Gillian Coakley, Mati Moyat, Carmel P Daunt, Lakshanie C Wickramasinghe, Rossana Azzoni, Roxanne Chatzis, Bibek Yumnam, Mali Camberis, Graham Le Gros, Olaf Perdijk, Jaime P P Foong, Joel C Bornstein, Benjamin J Marsland, Nicola L Harris^*

^*Corresponding author for this work

Pharmacology

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

Abstract

Intestinal helminth infection triggers a type 2 immune response that promotes a 'weep-and sweep' response characterised by increased mucus secretion and intestinal hypermotility, which function to dislodge the worm from its intestinal habitat. Recent studies have discovered that several other pathogens cause intestinal dysmotility through major alterations to the immune and enteric nervous systems (ENS), and their interactions, within the gastrointestinal tract. However, the involvement of these systems has not been investigated for helminth infections. Eosinophils represent a key cell type recruited by the type 2 immune response and alter intestinal motility under steady-state conditions. Our study aimed to investigate whether altered intestinal motility driven by the murine hookworm, Nippostrongylus brasiliensis, infection involves eosinophils and how the ENS and smooth muscles of the gut are impacted. Eosinophil deficiency did not influence helminth-induced intestinal hypermotility and hypermotility did not involve gross structural or functional changes to the ENS. Hypermotility was instead associated with a dramatic increase in smooth muscle thickness and contractility, an observation that extended to another rodent nematode, Heligmosomoides polygyrus. In summary our data indicate that, in contrast to other pathogens, helminth-induced intestinal hypermotility is driven by largely by myogenic, rather than neurogenic, alterations with such changes occurring independently of eosinophils. (<300 words).

Original language	English
Article number	e1011766
Number of pages	26
Journal	PLoS Pathogens
Volume	20
Issue number	8
DOIs	https://doi.org/10.1371/journal.ppat.1011766
Publication status	Published - Aug 2024

Bibliographical note

Publisher Copyright:
© 2024 Wang 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.

Funding

N.L.H received a salary from the National Health and Medical Research Council (NHMRC) of Australia, no. SRF-B 1140313. H. W. was financially supported by a Research Training Scholarship from Monash University. This work was additionally supported by a Discovery Project grant from the Australian Research Council (ARC), no DP210101500 awarded to N.L.H. The funders had no role in the study design, data collection and analysis, decision to publish, or preparation of the manuscript. We thank Dr Irena Carmichael at Monash Micro Imaging platform for their support with microscopy.

Funders	Funder number
Monash University
National Health and Medical Research Council	SRF-B 1140313
National Health and Medical Research Council
Australian Research Council	DP210101500
Australian Research Council

Keywords

Animals
Enteric Nervous System/parasitology
Eosinophils/immunology
Gastrointestinal Motility/physiology
Helminthiasis/immunology
Intestinal Diseases, Parasitic/immunology
Mice
Mice, Inbred C57BL
Muscle, Smooth/parasitology
Nematospiroides dubius/physiology
Neurons/parasitology
Nippostrongylus
Strongylida Infections/immunology

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Cite this

Wang, H., Barry, K., Zaini, A., Coakley, G., Moyat, M., Daunt, C. P., Wickramasinghe, L. C., Azzoni, R., Chatzis, R., Yumnam, B., Camberis, M., Le Gros, G., Perdijk, O., Foong, J. P. P., Bornstein, J. C., Marsland, B. J., & Harris, N. L. (2024). Helminth infection driven gastrointestinal hypermotility is independent of eosinophils and mediated by alterations in smooth muscle instead of enteric neurons. PLoS Pathogens, 20(8), Article e1011766. https://doi.org/10.1371/journal.ppat.1011766

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abstract = "Intestinal helminth infection triggers a type 2 immune response that promotes a 'weep-and sweep' response characterised by increased mucus secretion and intestinal hypermotility, which function to dislodge the worm from its intestinal habitat. Recent studies have discovered that several other pathogens cause intestinal dysmotility through major alterations to the immune and enteric nervous systems (ENS), and their interactions, within the gastrointestinal tract. However, the involvement of these systems has not been investigated for helminth infections. Eosinophils represent a key cell type recruited by the type 2 immune response and alter intestinal motility under steady-state conditions. Our study aimed to investigate whether altered intestinal motility driven by the murine hookworm, Nippostrongylus brasiliensis, infection involves eosinophils and how the ENS and smooth muscles of the gut are impacted. Eosinophil deficiency did not influence helminth-induced intestinal hypermotility and hypermotility did not involve gross structural or functional changes to the ENS. Hypermotility was instead associated with a dramatic increase in smooth muscle thickness and contractility, an observation that extended to another rodent nematode, Heligmosomoides polygyrus. In summary our data indicate that, in contrast to other pathogens, helminth-induced intestinal hypermotility is driven by largely by myogenic, rather than neurogenic, alterations with such changes occurring independently of eosinophils. (<300 words).",

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author = "Haozhe Wang and Kristian Barry and Aidil Zaini and Gillian Coakley and Mati Moyat and Daunt, \{Carmel P\} and Wickramasinghe, \{Lakshanie C\} and Rossana Azzoni and Roxanne Chatzis and Bibek Yumnam and Mali Camberis and \{Le Gros\}, Graham and Olaf Perdijk and Foong, \{Jaime P P\} and Bornstein, \{Joel C\} and Marsland, \{Benjamin J\} and Harris, \{Nicola L\}",

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Wang, H, Barry, K, Zaini, A, Coakley, G, Moyat, M, Daunt, CP, Wickramasinghe, LC, Azzoni, R, Chatzis, R, Yumnam, B, Camberis, M, Le Gros, G, Perdijk, O, Foong, JPP, Bornstein, JC, Marsland, BJ & Harris, NL 2024, 'Helminth infection driven gastrointestinal hypermotility is independent of eosinophils and mediated by alterations in smooth muscle instead of enteric neurons', PLoS Pathogens, vol. 20, no. 8, e1011766. https://doi.org/10.1371/journal.ppat.1011766

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T1 - Helminth infection driven gastrointestinal hypermotility is independent of eosinophils and mediated by alterations in smooth muscle instead of enteric neurons

AU - Wang, Haozhe

AU - Barry, Kristian

AU - Zaini, Aidil

AU - Coakley, Gillian

AU - Moyat, Mati

AU - Daunt, Carmel P

AU - Wickramasinghe, Lakshanie C

AU - Azzoni, Rossana

AU - Chatzis, Roxanne

AU - Yumnam, Bibek

AU - Camberis, Mali

AU - Le Gros, Graham

AU - Perdijk, Olaf

AU - Foong, Jaime P P

AU - Bornstein, Joel C

AU - Marsland, Benjamin J

AU - Harris, Nicola L

N1 - Publisher Copyright: © 2024 Wang 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 - 2024/8

Y1 - 2024/8

N2 - Intestinal helminth infection triggers a type 2 immune response that promotes a 'weep-and sweep' response characterised by increased mucus secretion and intestinal hypermotility, which function to dislodge the worm from its intestinal habitat. Recent studies have discovered that several other pathogens cause intestinal dysmotility through major alterations to the immune and enteric nervous systems (ENS), and their interactions, within the gastrointestinal tract. However, the involvement of these systems has not been investigated for helminth infections. Eosinophils represent a key cell type recruited by the type 2 immune response and alter intestinal motility under steady-state conditions. Our study aimed to investigate whether altered intestinal motility driven by the murine hookworm, Nippostrongylus brasiliensis, infection involves eosinophils and how the ENS and smooth muscles of the gut are impacted. Eosinophil deficiency did not influence helminth-induced intestinal hypermotility and hypermotility did not involve gross structural or functional changes to the ENS. Hypermotility was instead associated with a dramatic increase in smooth muscle thickness and contractility, an observation that extended to another rodent nematode, Heligmosomoides polygyrus. In summary our data indicate that, in contrast to other pathogens, helminth-induced intestinal hypermotility is driven by largely by myogenic, rather than neurogenic, alterations with such changes occurring independently of eosinophils. (<300 words).

AB - Intestinal helminth infection triggers a type 2 immune response that promotes a 'weep-and sweep' response characterised by increased mucus secretion and intestinal hypermotility, which function to dislodge the worm from its intestinal habitat. Recent studies have discovered that several other pathogens cause intestinal dysmotility through major alterations to the immune and enteric nervous systems (ENS), and their interactions, within the gastrointestinal tract. However, the involvement of these systems has not been investigated for helminth infections. Eosinophils represent a key cell type recruited by the type 2 immune response and alter intestinal motility under steady-state conditions. Our study aimed to investigate whether altered intestinal motility driven by the murine hookworm, Nippostrongylus brasiliensis, infection involves eosinophils and how the ENS and smooth muscles of the gut are impacted. Eosinophil deficiency did not influence helminth-induced intestinal hypermotility and hypermotility did not involve gross structural or functional changes to the ENS. Hypermotility was instead associated with a dramatic increase in smooth muscle thickness and contractility, an observation that extended to another rodent nematode, Heligmosomoides polygyrus. In summary our data indicate that, in contrast to other pathogens, helminth-induced intestinal hypermotility is driven by largely by myogenic, rather than neurogenic, alterations with such changes occurring independently of eosinophils. (<300 words).

KW - Animals

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KW - Eosinophils/immunology

KW - Gastrointestinal Motility/physiology

KW - Helminthiasis/immunology

KW - Intestinal Diseases, Parasitic/immunology

KW - Mice

KW - Mice, Inbred C57BL

KW - Muscle, Smooth/parasitology

KW - Nematospiroides dubius/physiology

KW - Neurons/parasitology

KW - Nippostrongylus

KW - Strongylida Infections/immunology

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DO - 10.1371/journal.ppat.1011766

M3 - Article

C2 - 39141685

SN - 1553-7366

VL - 20

JO - PLoS Pathogens

JF - PLoS Pathogens

IS - 8

M1 - e1011766

ER -

Helminth infection driven gastrointestinal hypermotility is independent of eosinophils and mediated by alterations in smooth muscle instead of enteric neurons

Abstract

Bibliographical note

Funding

Keywords

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