Image data related to publication "Size-dependent plastic exposure disrupts macrophage function and tissue-specific metabolism"

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Makdissi, Nikola; Viola, Maria Francesca; Mass, Elvira, 2026, "Image data related to publication "Size-dependent plastic exposure disrupts macrophage function and tissue-specific metabolism"", https://doi.org/10.60507/FK2/M42B8O, bonndata, V1

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Description	Plastic pollution is an emerging yet understudied environmental risk to the immune system. Once ingested, nano- and microplastic particles (MNPs) can translocate from the gut to internal organs, with macrophages serving as primary targets. Kupffer cells (KCs), the liver-resident macrophages, play a central role in immune surveillance and metabolism, yet their response to MNPs remains unclear. Here, using a chronic plastic exposure model in mice, we identify KCs as the primary hepatic reservoir for MNPs. Long-term exposure alters their transcriptional profile and impairs phagocytic function, leading to metabolic dysregulation of hepatocytes. Microplastics, but not nanoplastics, reduce KC-mediated clearance of circulating cells and bacteria. Under diet-induced obesity, microplastics exacerbates hepatic lipid accumulation, while nanoplastics impair systemic glucose metabolism. Although the blood-brain barrier limits microplastic infiltration, a small fraction of ingested nanoplastics reaches the brain, where it is taken up by microglia, the brain-resident macrophages. However, we observe no signs of neuroinflammation or behavioral deficits. These findings demonstrate that chronic MNP exposure disrupts macrophage function in a size-dependent manner, with distinct consequences for liver and systemic metabolism, while the brain remains largely protected. Understanding tissue-specific vulnerabilities to MNPs is crucial for assessing their long-term health impact.
Subject	Medicine, Health and Life Sciences
Related Publication	IsSupplementTo: Nikola Makdissi, Maria Francesca Viola, Lisa Steinheuer et al. Size-dependent plastic exposure disrupts macrophage function and tissue-specific metabolism, PREPRINT (Version 1) available at Research Squaredoi: 10.21203/rs.3.rs-6204281/v1
License/Data Use Agreement	CC BY 4.0

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	GFAP_MP.zip ZIP Archive - 11.1 GB Published Jan 21, 2026 0 Downloads MD5: 026474183a2ba3cfd683662f3c872ec4	Access File File Access Public Download Options ZIP Archive Download Metadata Data File Citation Download EndNote XML Download RIS Download BibTeX
	GFAP_NP.zip ZIP Archive - 11.8 GB Published Jan 21, 2026 0 Downloads MD5: 4834bb3ee14d6bd82c844044e8461411	Access File File Access Public Download Options ZIP Archive Download Metadata Data File Citation Download EndNote XML Download RIS Download BibTeX
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	gWAT_HE_NMPingestion.zip ZIP Archive - 8.3 GB Published Jan 21, 2026 0 Downloads MD5: fbf61d360f4c5f8ec7502e0a294c7d05	Access File File Access Public Download Options ZIP Archive Download Metadata Data File Citation Download EndNote XML Download RIS Download BibTeX
	IF_NMPingestion_Clec4f-DTR.zip ZIP Archive - 7.2 GB Published Jan 21, 2026 0 Downloads MD5: ad2ec9673416a52a4e0c2eacdb97290b	Access File File Access Public Download Options ZIP Archive Download Metadata Data File Citation Download EndNote XML Download RIS Download BibTeX
	InsulinIHC_NMP_HFDingestion.zip ZIP Archive - 15.9 GB Published Jan 21, 2026 0 Downloads MD5: 93d5a80430b0bc42be58772a2a0f8861	Access File File Access Public Download Options ZIP Archive Download Metadata Data File Citation Download EndNote XML Download RIS Download BibTeX
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	Readme_Makdissi_Viola_ ImageData_PlasticExposure.txt Plain Text - 18.0 KB Published Jan 21, 2026 0 Downloads MD5: 4b0bbb794b815b06ccfa336049b3c5dc	Preview "Readme_Makdissi_Viola_ ImageData_PlasticExposure.txt" Access File File Access Public Download Options Plain Text Download Metadata Data File Citation Download EndNote XML Download RIS Download BibTeX

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Citation Metadata

Persistent Identifier	doi:10.60507/FK2/M42B8O
Publication Date	2026-01-21
Title	Image data related to publication "Size-dependent plastic exposure disrupts macrophage function and tissue-specific metabolism"
Author	Makdissi, Nikola (University of Bonn) Viola, Maria Francesca (University of Bonn) Mass, Elvira (University of Bonn)
Contact	Use email button above to contact. Mass, Elvira (University of Bonn)
Description	Plastic pollution is an emerging yet understudied environmental risk to the immune system. Once ingested, nano- and microplastic particles (MNPs) can translocate from the gut to internal organs, with macrophages serving as primary targets. Kupffer cells (KCs), the liver-resident macrophages, play a central role in immune surveillance and metabolism, yet their response to MNPs remains unclear. Here, using a chronic plastic exposure model in mice, we identify KCs as the primary hepatic reservoir for MNPs. Long-term exposure alters their transcriptional profile and impairs phagocytic function, leading to metabolic dysregulation of hepatocytes. Microplastics, but not nanoplastics, reduce KC-mediated clearance of circulating cells and bacteria. Under diet-induced obesity, microplastics exacerbates hepatic lipid accumulation, while nanoplastics impair systemic glucose metabolism. Although the blood-brain barrier limits microplastic infiltration, a small fraction of ingested nanoplastics reaches the brain, where it is taken up by microglia, the brain-resident macrophages. However, we observe no signs of neuroinflammation or behavioral deficits. These findings demonstrate that chronic MNP exposure disrupts macrophage function in a size-dependent manner, with distinct consequences for liver and systemic metabolism, while the brain remains largely protected. Understanding tissue-specific vulnerabilities to MNPs is crucial for assessing their long-term health impact.
Subject	Medicine, Health and Life Sciences
FreeKeyword	nano & microplastic ingestion Kupffer cells macrophages liver high fat diet
Related Publication	IsSupplementTo: Nikola Makdissi, Maria Francesca Viola, Lisa Steinheuer et al. Size-dependent plastic exposure disrupts macrophage function and tissue-specific metabolism, PREPRINT (Version 1) available at Research Square doi 10.21203/rs.3.rs-6204281/v1 https://doi.org/10.21203/rs.3.rs-6204281/v1
Contributor	Supervisor : Dagmar Wachten Researcher : Virginia Aliprandi Researcher : Marina Mayer Researcher : Katharina Sieckmann Researcher : Nele Kronau
Grant Information	European Research Council (ERC): 851257 EMBO fellowship: ATLF 873-2023 DFG: GRK1873/2
Depositor	Makdissi, Nikola
Deposit Date	2025-12-20

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