HMOS 2'FL and 3FL prevent house dust mite induced proinflammatory cytokine release in vitro and decrease specific IgE production in a murine allergic asthma model

Marit Zuurveld; Janna W M de Kleer; Alinda J Berends; Manou M Kooy; Ingrid Van Ark; Thea Leusink-Muis; Nienke Kettelarij; Gert Folkerts; Johan Garssen; Belinda Van't Land; Linette E M Willemsen

doi:10.3389/fnut.2025.1491430

HMOS 2'FL and 3FL prevent house dust mite induced proinflammatory cytokine release in vitro and decrease specific IgE production in a murine allergic asthma model

Marit Zuurveld, Janna W M de Kleer, Alinda J Berends, Manou M Kooy, Ingrid Van Ark, Thea Leusink-Muis, Nienke Kettelarij, Gert Folkerts, Johan Garssen, Belinda Van't Land, Linette E M Willemsen^*

^*Corresponding author for this work

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

Abstract

INTRODUCTION: Allergic asthma is characterized by sensitization to airborne allergens like house dust mite (HDM). Human milk oligosaccharides (HMOS) are linked to improved immune maturation and potentially alleviate allergy development.

METHODS: A human in vitro model for crosstalk between bronchial epithelial cells (BECs), monocyte-derived DCs (moDCs) and T cells, during HDM exposure, was established. The immunomodulatory effects of the HMOS 2'-fucosyllactose (2'FL) and 3-fucosyllactose (3FL) were investigated in this in vitro model and subsequently in a house dust mite-induced allergic asthma murine model.

RESULTS: HDM exposure during BEC-DC coculture enhanced type 2 instructing TSLP, while reducing regulatory TGFβ secretion. Coculture of HDM-primed DCs with T cells enhanced IL4 secretion. 2'FL or 3FL preincubation prevented HDM-induced TSLP and IL8 release from BEC-DC. HDM-allergic mice receiving a 1% 2'FL or 0,5% 3FL supplemented diet both had lower serum levels of HDM-specific IgE compared to mice fed control diet. In conclusion, a human in vitro coculture model for HDM-induced BEC-DC activation and subsequent type 2 T cell response was established. 2'FL or 3FL preincubation of BEC-DC prevented HDM-induced activation and modified downstream T cell responses in vitro. Both HMOS reduced HDM-specific IgE in a murine model for HDM allergic asthma, but did not protect against airway inflammation.

CONCLUSION: Here, we describe an in vitro human airway mucosal HDM sensitization model as relevant tool to reduce use of animals in studies aiming to prevent HDM allergic asthma. Both in vitro as well as in vivo, HMOS were found to drive away from a type 2 immune signature, paving the way to further investigate the potential allergy preventive effects of fucosylated HMOS.

Original language	English
Article number	1491430
Pages (from-to)	1-13
Number of pages	13
Journal	Frontiers in Nutrition
Volume	12
DOIs	https://doi.org/10.3389/fnut.2025.1491430
Publication status	Published - 19 Feb 2025

Bibliographical note

Publisher Copyright:
Copyright © 2025 Zuurveld, de Kleer, Berends, Kooy, Van Ark, Leusink-Muis, Kettelarij, Folkerts, Garssen, van’t Land and Willemsen.

Funding

The author(s) declare that financial support was received for the research, authorship, and/or publication of this article. This research was funded by the PPP allowance made available by TKI Health Holland, Top Sector Life Sciences and Health, to the Utrecht University to stimulate public-private partnerships (LSHM1037, acronym HMOS4ALL).

Funders	Funder number
TKI Health Holland
Health~Holland	LSHM1037

Keywords

advanced in vitro models
allergic asthma
allergy prevention
human milk oligosaccharides
mucosal inflammation

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Zuurveld, M., de Kleer, J. W. M., Berends, A. J., Kooy, M. M., Van Ark, I., Leusink-Muis, T., Kettelarij, N., Folkerts, G., Garssen, J., Van't Land, B., & Willemsen, L. E. M. (2025). HMOS 2'FL and 3FL prevent house dust mite induced proinflammatory cytokine release in vitro and decrease specific IgE production in a murine allergic asthma model. Frontiers in Nutrition, 12, 1-13. Article 1491430. https://doi.org/10.3389/fnut.2025.1491430

@article{b868c704623c4b3d8de48af556d5c63e,

title = "HMOS 2'FL and 3FL prevent house dust mite induced proinflammatory cytokine release in vitro and decrease specific IgE production in a murine allergic asthma model",

abstract = "INTRODUCTION: Allergic asthma is characterized by sensitization to airborne allergens like house dust mite (HDM). Human milk oligosaccharides (HMOS) are linked to improved immune maturation and potentially alleviate allergy development.METHODS: A human in vitro model for crosstalk between bronchial epithelial cells (BECs), monocyte-derived DCs (moDCs) and T cells, during HDM exposure, was established. The immunomodulatory effects of the HMOS 2'-fucosyllactose (2'FL) and 3-fucosyllactose (3FL) were investigated in this in vitro model and subsequently in a house dust mite-induced allergic asthma murine model. RESULTS: HDM exposure during BEC-DC coculture enhanced type 2 instructing TSLP, while reducing regulatory TGFβ secretion. Coculture of HDM-primed DCs with T cells enhanced IL4 secretion. 2'FL or 3FL preincubation prevented HDM-induced TSLP and IL8 release from BEC-DC. HDM-allergic mice receiving a 1\% 2'FL or 0,5\% 3FL supplemented diet both had lower serum levels of HDM-specific IgE compared to mice fed control diet. In conclusion, a human in vitro coculture model for HDM-induced BEC-DC activation and subsequent type 2 T cell response was established. 2'FL or 3FL preincubation of BEC-DC prevented HDM-induced activation and modified downstream T cell responses in vitro. Both HMOS reduced HDM-specific IgE in a murine model for HDM allergic asthma, but did not protect against airway inflammation. CONCLUSION: Here, we describe an in vitro human airway mucosal HDM sensitization model as relevant tool to reduce use of animals in studies aiming to prevent HDM allergic asthma. Both in vitro as well as in vivo, HMOS were found to drive away from a type 2 immune signature, paving the way to further investigate the potential allergy preventive effects of fucosylated HMOS. ",

keywords = "advanced in vitro models, allergic asthma, allergy prevention, human milk oligosaccharides, mucosal inflammation",

author = "Marit Zuurveld and \{de Kleer\}, \{Janna W M\} and Berends, \{Alinda J\} and Kooy, \{Manou M\} and \{Van Ark\}, Ingrid and Thea Leusink-Muis and Nienke Kettelarij and Gert Folkerts and Johan Garssen and \{Van't Land\}, Belinda and Willemsen, \{Linette E M\}",

note = "Publisher Copyright: Copyright {\textcopyright} 2025 Zuurveld, de Kleer, Berends, Kooy, Van Ark, Leusink-Muis, Kettelarij, Folkerts, Garssen, van{\textquoteright}t Land and Willemsen.",

year = "2025",

month = feb,

day = "19",

doi = "10.3389/fnut.2025.1491430",

language = "English",

volume = "12",

pages = "1--13",

journal = "Frontiers in Nutrition",

issn = "2296-861X",

publisher = "Frontiers Media SA",

}

Zuurveld, M, de Kleer, JWM, Berends, AJ, Kooy, MM, Van Ark, I , Leusink-Muis, T, Kettelarij, N, Folkerts, G , Garssen, J, Van't Land, B & Willemsen, LEM 2025, 'HMOS 2'FL and 3FL prevent house dust mite induced proinflammatory cytokine release in vitro and decrease specific IgE production in a murine allergic asthma model', Frontiers in Nutrition, vol. 12, 1491430, pp. 1-13. https://doi.org/10.3389/fnut.2025.1491430

HMOS 2'FL and 3FL prevent house dust mite induced proinflammatory cytokine release in vitro and decrease specific IgE production in a murine allergic asthma model. / Zuurveld, Marit; de Kleer, Janna W M; Berends, Alinda J et al.
In: Frontiers in Nutrition, Vol. 12, 1491430, 19.02.2025, p. 1-13.

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

TY - JOUR

T1 - HMOS 2'FL and 3FL prevent house dust mite induced proinflammatory cytokine release in vitro and decrease specific IgE production in a murine allergic asthma model

AU - Zuurveld, Marit

AU - de Kleer, Janna W M

AU - Berends, Alinda J

AU - Kooy, Manou M

AU - Van Ark, Ingrid

AU - Leusink-Muis, Thea

AU - Kettelarij, Nienke

AU - Folkerts, Gert

AU - Garssen, Johan

AU - Van't Land, Belinda

AU - Willemsen, Linette E M

PY - 2025/2/19

Y1 - 2025/2/19

N2 - INTRODUCTION: Allergic asthma is characterized by sensitization to airborne allergens like house dust mite (HDM). Human milk oligosaccharides (HMOS) are linked to improved immune maturation and potentially alleviate allergy development.METHODS: A human in vitro model for crosstalk between bronchial epithelial cells (BECs), monocyte-derived DCs (moDCs) and T cells, during HDM exposure, was established. The immunomodulatory effects of the HMOS 2'-fucosyllactose (2'FL) and 3-fucosyllactose (3FL) were investigated in this in vitro model and subsequently in a house dust mite-induced allergic asthma murine model. RESULTS: HDM exposure during BEC-DC coculture enhanced type 2 instructing TSLP, while reducing regulatory TGFβ secretion. Coculture of HDM-primed DCs with T cells enhanced IL4 secretion. 2'FL or 3FL preincubation prevented HDM-induced TSLP and IL8 release from BEC-DC. HDM-allergic mice receiving a 1% 2'FL or 0,5% 3FL supplemented diet both had lower serum levels of HDM-specific IgE compared to mice fed control diet. In conclusion, a human in vitro coculture model for HDM-induced BEC-DC activation and subsequent type 2 T cell response was established. 2'FL or 3FL preincubation of BEC-DC prevented HDM-induced activation and modified downstream T cell responses in vitro. Both HMOS reduced HDM-specific IgE in a murine model for HDM allergic asthma, but did not protect against airway inflammation. CONCLUSION: Here, we describe an in vitro human airway mucosal HDM sensitization model as relevant tool to reduce use of animals in studies aiming to prevent HDM allergic asthma. Both in vitro as well as in vivo, HMOS were found to drive away from a type 2 immune signature, paving the way to further investigate the potential allergy preventive effects of fucosylated HMOS.

AB - INTRODUCTION: Allergic asthma is characterized by sensitization to airborne allergens like house dust mite (HDM). Human milk oligosaccharides (HMOS) are linked to improved immune maturation and potentially alleviate allergy development.METHODS: A human in vitro model for crosstalk between bronchial epithelial cells (BECs), monocyte-derived DCs (moDCs) and T cells, during HDM exposure, was established. The immunomodulatory effects of the HMOS 2'-fucosyllactose (2'FL) and 3-fucosyllactose (3FL) were investigated in this in vitro model and subsequently in a house dust mite-induced allergic asthma murine model. RESULTS: HDM exposure during BEC-DC coculture enhanced type 2 instructing TSLP, while reducing regulatory TGFβ secretion. Coculture of HDM-primed DCs with T cells enhanced IL4 secretion. 2'FL or 3FL preincubation prevented HDM-induced TSLP and IL8 release from BEC-DC. HDM-allergic mice receiving a 1% 2'FL or 0,5% 3FL supplemented diet both had lower serum levels of HDM-specific IgE compared to mice fed control diet. In conclusion, a human in vitro coculture model for HDM-induced BEC-DC activation and subsequent type 2 T cell response was established. 2'FL or 3FL preincubation of BEC-DC prevented HDM-induced activation and modified downstream T cell responses in vitro. Both HMOS reduced HDM-specific IgE in a murine model for HDM allergic asthma, but did not protect against airway inflammation. CONCLUSION: Here, we describe an in vitro human airway mucosal HDM sensitization model as relevant tool to reduce use of animals in studies aiming to prevent HDM allergic asthma. Both in vitro as well as in vivo, HMOS were found to drive away from a type 2 immune signature, paving the way to further investigate the potential allergy preventive effects of fucosylated HMOS.

KW - advanced in vitro models

KW - allergic asthma

KW - allergy prevention

KW - human milk oligosaccharides

KW - mucosal inflammation

UR - https://www.scopus.com/pages/publications/86000043538

U2 - 10.3389/fnut.2025.1491430

DO - 10.3389/fnut.2025.1491430

M3 - Article

C2 - 40046758

SN - 2296-861X

VL - 12

SP - 1

EP - 13

JO - Frontiers in Nutrition

JF - Frontiers in Nutrition

M1 - 1491430

ER -

HMOS 2'FL and 3FL prevent house dust mite induced proinflammatory cytokine release in vitro and decrease specific IgE production in a murine allergic asthma model

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