Macrophage-augmented intestinal organoids model virus-host interactions in enteric viral diseases and facilitate therapeutic development

Guige Xu; Jiangrong Zhou; Kuan Liu; Yining Wang; Theano Tsikari; Fang Qin; Francijna van den Hil; Patrick P C Boor; Ibrahim Ayada; Annemarie C de Vries; Jiajing Li; Shijin Jiang; Dewy M Offermans; Denis E Kainov; Harry L A Janssen; Maikel P Peppelenbosch; Marcel J C Bijvelds; Wenshi Wang; Valeria V Orlova; Qiuwei Pan; Pengfei Li

doi:10.1038/s41467-025-59639-9

Macrophage-augmented intestinal organoids model virus-host interactions in enteric viral diseases and facilitate therapeutic development

Guige Xu, Jiangrong Zhou, Kuan Liu, Yining Wang, Theano Tsikari, Fang Qin, Francijna van den Hil, Patrick P C Boor, Ibrahim Ayada, Annemarie C de Vries, Jiajing Li, Shijin Jiang, Dewy M Offermans, Denis E Kainov, Harry L A Janssen, Maikel P Peppelenbosch, Marcel J C Bijvelds, Wenshi Wang, Valeria V Orlova, Qiuwei PanPengfei Li^*

^*Corresponding author for this work

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Abstract

The pathogenesis of enteric viral infections is attributed to both viral replication and the resultant immune-inflammatory response. To recapitulate this complex pathophysiology, we engineer macrophage-augmented organoids (MaugOs) by integrating human macrophages into primary intestinal organoids. Echovirus 1, echovirus 6, rotavirus, seasonal coronavirus OC43 and SARS-CoV-2- known to directly invade the intestine- are used as disease modalities. We demonstrate that these viruses efficiently propagate in MaugOs and stimulate the host antiviral response. However, rotavirus, coronavirus OC43 and SARS-CoV-2, but not the two echoviruses, trigger inflammatory responses. Acetate, a microbial metabolite abundantly present in the intestine, potently inhibits virus-induced inflammatory responses in MaugOs, while differentially affecting viral replication in macrophages and organoids. Furthermore, we provide a proof-of-concept of combining antiviral agent with either anti-inflammatory regimen or acetate to simultaneously inhibit viral infection and inflammatory response in MaugOs. Collectively, these findings demonstrate that MaugOs are innovative tools for studying the complex virus-host interactions and advancing therapeutic development.

Original language	English
Article number	4475
Pages (from-to)	4475
Journal	Nature Communications
Volume	16
Issue number	1
DOIs	https://doi.org/10.1038/s41467-025-59639-9
Publication status	Published - 14 May 2025

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Macrophage-augmented intestinal organoids model virus-host interactions in enteric viral diseases and facilitate therapeutic developmentFinal published version, 3.85 MBLicence: CC BY

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Xu, G., Zhou, J., Liu, K., Wang, Y., Tsikari, T., Qin, F., van den Hil, F., Boor, P. P. C., Ayada, I., de Vries, A. C., Li, J., Jiang, S., Offermans, D. M., Kainov, D. E., Janssen, H. L. A., Peppelenbosch, M. P., Bijvelds, M. J. C., Wang, W., Orlova, V. V., ... Li, P. (2025). Macrophage-augmented intestinal organoids model virus-host interactions in enteric viral diseases and facilitate therapeutic development. Nature Communications, 16(1), 4475. Article 4475. https://doi.org/10.1038/s41467-025-59639-9

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title = "Macrophage-augmented intestinal organoids model virus-host interactions in enteric viral diseases and facilitate therapeutic development",

abstract = "The pathogenesis of enteric viral infections is attributed to both viral replication and the resultant immune-inflammatory response. To recapitulate this complex pathophysiology, we engineer macrophage-augmented organoids (MaugOs) by integrating human macrophages into primary intestinal organoids. Echovirus 1, echovirus 6, rotavirus, seasonal coronavirus OC43 and SARS-CoV-2- known to directly invade the intestine- are used as disease modalities. We demonstrate that these viruses efficiently propagate in MaugOs and stimulate the host antiviral response. However, rotavirus, coronavirus OC43 and SARS-CoV-2, but not the two echoviruses, trigger inflammatory responses. Acetate, a microbial metabolite abundantly present in the intestine, potently inhibits virus-induced inflammatory responses in MaugOs, while differentially affecting viral replication in macrophages and organoids. Furthermore, we provide a proof-of-concept of combining antiviral agent with either anti-inflammatory regimen or acetate to simultaneously inhibit viral infection and inflammatory response in MaugOs. Collectively, these findings demonstrate that MaugOs are innovative tools for studying the complex virus-host interactions and advancing therapeutic development.",

author = "Guige Xu and Jiangrong Zhou and Kuan Liu and Yining Wang and Theano Tsikari and Fang Qin and {van den Hil}, Francijna and Boor, {Patrick P C} and Ibrahim Ayada and {de Vries}, {Annemarie C} and Jiajing Li and Shijin Jiang and Offermans, {Dewy M} and Kainov, {Denis E} and Janssen, {Harry L A} and Peppelenbosch, {Maikel P} and Bijvelds, {Marcel J C} and Wenshi Wang and Orlova, {Valeria V} and Qiuwei Pan and Pengfei Li",

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Xu, G, Zhou, J, Liu, K , Wang, Y, Tsikari, T, Qin, F, van den Hil, F, Boor, PPC, Ayada, I , de Vries, AC , Li, J, Jiang, S, Offermans, DM, Kainov, DE, Janssen, HLA , Peppelenbosch, MP , Bijvelds, MJC, Wang, W, Orlova, VV, Pan, Q & Li, P 2025, 'Macrophage-augmented intestinal organoids model virus-host interactions in enteric viral diseases and facilitate therapeutic development', Nature Communications, vol. 16, no. 1, 4475, pp. 4475. https://doi.org/10.1038/s41467-025-59639-9

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T1 - Macrophage-augmented intestinal organoids model virus-host interactions in enteric viral diseases and facilitate therapeutic development

AU - Xu, Guige

AU - Zhou, Jiangrong

AU - Liu, Kuan

AU - Wang, Yining

AU - Tsikari, Theano

AU - Qin, Fang

AU - van den Hil, Francijna

AU - Boor, Patrick P C

AU - Ayada, Ibrahim

AU - de Vries, Annemarie C

AU - Li, Jiajing

AU - Jiang, Shijin

AU - Offermans, Dewy M

AU - Kainov, Denis E

AU - Janssen, Harry L A

AU - Peppelenbosch, Maikel P

AU - Bijvelds, Marcel J C

AU - Wang, Wenshi

AU - Orlova, Valeria V

AU - Pan, Qiuwei

AU - Li, Pengfei

PY - 2025/5/14

Y1 - 2025/5/14

N2 - The pathogenesis of enteric viral infections is attributed to both viral replication and the resultant immune-inflammatory response. To recapitulate this complex pathophysiology, we engineer macrophage-augmented organoids (MaugOs) by integrating human macrophages into primary intestinal organoids. Echovirus 1, echovirus 6, rotavirus, seasonal coronavirus OC43 and SARS-CoV-2- known to directly invade the intestine- are used as disease modalities. We demonstrate that these viruses efficiently propagate in MaugOs and stimulate the host antiviral response. However, rotavirus, coronavirus OC43 and SARS-CoV-2, but not the two echoviruses, trigger inflammatory responses. Acetate, a microbial metabolite abundantly present in the intestine, potently inhibits virus-induced inflammatory responses in MaugOs, while differentially affecting viral replication in macrophages and organoids. Furthermore, we provide a proof-of-concept of combining antiviral agent with either anti-inflammatory regimen or acetate to simultaneously inhibit viral infection and inflammatory response in MaugOs. Collectively, these findings demonstrate that MaugOs are innovative tools for studying the complex virus-host interactions and advancing therapeutic development.

AB - The pathogenesis of enteric viral infections is attributed to both viral replication and the resultant immune-inflammatory response. To recapitulate this complex pathophysiology, we engineer macrophage-augmented organoids (MaugOs) by integrating human macrophages into primary intestinal organoids. Echovirus 1, echovirus 6, rotavirus, seasonal coronavirus OC43 and SARS-CoV-2- known to directly invade the intestine- are used as disease modalities. We demonstrate that these viruses efficiently propagate in MaugOs and stimulate the host antiviral response. However, rotavirus, coronavirus OC43 and SARS-CoV-2, but not the two echoviruses, trigger inflammatory responses. Acetate, a microbial metabolite abundantly present in the intestine, potently inhibits virus-induced inflammatory responses in MaugOs, while differentially affecting viral replication in macrophages and organoids. Furthermore, we provide a proof-of-concept of combining antiviral agent with either anti-inflammatory regimen or acetate to simultaneously inhibit viral infection and inflammatory response in MaugOs. Collectively, these findings demonstrate that MaugOs are innovative tools for studying the complex virus-host interactions and advancing therapeutic development.

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U2 - 10.1038/s41467-025-59639-9

DO - 10.1038/s41467-025-59639-9

M3 - Article

C2 - 40368896

SN - 2041-1723

VL - 16

SP - 4475

JO - Nature Communications

JF - Nature Communications

IS - 1

M1 - 4475

ER -

Macrophage-augmented intestinal organoids model virus-host interactions in enteric viral diseases and facilitate therapeutic development

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