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Article ? AI-assigned paper type based on the abstract. Classification may not be perfect — flag errors using the feedback button. Tier 2 ? Original research — experimental, observational, or case-control study. Direct primary evidence. Food & Water Remediation Sign in to save

Cellular internalization pathways of environmentally exposed microplastic particles: Phagocytosis or macropinocytosis?

Journal of Hazardous Materials 2025 13 citations ? Citation count from OpenAlex, updated daily. May differ slightly from the publisher's own count. Score: 58 ? 0–100 AI score estimating relevance to the microplastics field. Papers below 30 are filtered from public browse.
Anja F. R. M. Ramsperger, Simon Wieland, Magdalena V. Wilde, Anja F. R. M. Ramsperger, Christian Laforsch Christian Laforsch Anja F. R. M. Ramsperger, Anja F. R. M. Ramsperger, Anja F. R. M. Ramsperger, Anja F. R. M. Ramsperger, Simon Wieland, Christian Laforsch Simon Wieland, Anja F. R. M. Ramsperger, Simon Wieland, Christian Laforsch Anja F. R. M. Ramsperger, Anja F. R. M. Ramsperger, Anja F. R. M. Ramsperger, Anja F. R. M. Ramsperger, Anja F. R. M. Ramsperger, Christian Laforsch Christian Laforsch Christian Laforsch Christian Laforsch Magdalena V. Wilde, Magdalena V. Wilde, Magdalena V. Wilde, Magdalena V. Wilde, Magdalena V. Wilde, Magdalena V. Wilde, Simon Wieland, Anja F. R. M. Ramsperger, Anja F. R. M. Ramsperger, Anja F. R. M. Ramsperger, Anja F. R. M. Ramsperger, Christian Laforsch Christian Laforsch Anja F. R. M. Ramsperger, Magdalena V. Wilde, Magdalena V. Wilde, Christian Laforsch Christian Laforsch Anja F. R. M. Ramsperger, Christian Laforsch Christian Laforsch Christian Laforsch Holger Kress, Holger Kress, Christian Laforsch Anja F. R. M. Ramsperger, Anja F. R. M. Ramsperger, Simon Wieland, Christian Laforsch Christian Laforsch Anja F. R. M. Ramsperger, Christian Laforsch Magdalena V. Wilde, Magdalena V. Wilde, Simon Wieland, Christian Laforsch Christian Laforsch Magdalena V. Wilde, Anja F. R. M. Ramsperger, Christian Laforsch Thomas Fröhlich, Christian Laforsch Christian Laforsch Christian Laforsch Simon Wieland, Christian Laforsch Christian Laforsch Christian Laforsch Christian Laforsch Holger Kress, Christian Laforsch Christian Laforsch Thomas Fröhlich, Thomas Fröhlich, Christian Laforsch Thomas Fröhlich, Christian Laforsch Anja F. R. M. Ramsperger, Christian Laforsch Christian Laforsch Christian Laforsch Holger Kress, Holger Kress, Christian Laforsch Christian Laforsch Christian Laforsch Holger Kress, Christian Laforsch Thomas Fröhlich, Thomas Fröhlich, Christian Laforsch Christian Laforsch Christian Laforsch Christian Laforsch Christian Laforsch Christian Laforsch Christian Laforsch Christian Laforsch Christian Laforsch Christian Laforsch Christian Laforsch Christian Laforsch Christian Laforsch Christian Laforsch Christian Laforsch Thomas Fröhlich, Christian Laforsch Christian Laforsch Christian Laforsch Christian Laforsch Christian Laforsch Holger Kress, Christian Laforsch Christian Laforsch Christian Laforsch Christian Laforsch Christian Laforsch Christian Laforsch Christian Laforsch Christian Laforsch Christian Laforsch Christian Laforsch Christian Laforsch Christian Laforsch Anja F. R. M. Ramsperger, Christian Laforsch Christian Laforsch Anja F. R. M. Ramsperger, Christian Laforsch Christian Laforsch Anja F. R. M. Ramsperger, Christian Laforsch Christian Laforsch Holger Kress, Christian Laforsch Christian Laforsch Christian Laforsch Christian Laforsch Christian Laforsch Christian Laforsch Christian Laforsch Christian Laforsch Christian Laforsch Christian Laforsch Christian Laforsch Christian Laforsch Christian Laforsch Christian Laforsch Christian Laforsch Simon Wieland, Simon Wieland, Simon Wieland, Simon Wieland, Thomas Fröhlich, Thomas Fröhlich, Thomas Fröhlich, Thomas Fröhlich, Thomas Fröhlich, Thomas Fröhlich, Thomas Fröhlich, Thomas Fröhlich, Thomas Fröhlich, Christian Laforsch Christian Laforsch Christian Laforsch Christian Laforsch Holger Kress, Christian Laforsch Christian Laforsch Holger Kress, Christian Laforsch Christian Laforsch Christian Laforsch Christian Laforsch Christian Laforsch Christian Laforsch Christian Laforsch Christian Laforsch Anja F. R. M. Ramsperger, Christian Laforsch Christian Laforsch Christian Laforsch Christian Laforsch Christian Laforsch Christian Laforsch Christian Laforsch Simon Wieland, Christian Laforsch Christian Laforsch Christian Laforsch Christian Laforsch Holger Kress, Holger Kress, Christian Laforsch Holger Kress, Christian Laforsch Christian Laforsch Christian Laforsch Christian Laforsch Christian Laforsch Holger Kress, Christian Laforsch Christian Laforsch Christian Laforsch Christian Laforsch Christian Laforsch Christian Laforsch Christian Laforsch Christian Laforsch Christian Laforsch Holger Kress, Holger Kress, Holger Kress, Anja F. R. M. Ramsperger, Christian Laforsch Holger Kress, Holger Kress, Holger Kress, Holger Kress, Holger Kress, Christian Laforsch Holger Kress, Christian Laforsch Christian Laforsch Christian Laforsch Thomas Fröhlich, Christian Laforsch Anja F. R. M. Ramsperger, Anja F. R. M. Ramsperger, Christian Laforsch Christian Laforsch Christian Laforsch Christian Laforsch Christian Laforsch Anja F. R. M. Ramsperger, Anja F. R. M. Ramsperger, Holger Kress, Christian Laforsch Christian Laforsch Anja F. R. M. Ramsperger, Anja F. R. M. Ramsperger, Christian Laforsch

Summary

Researchers studied how microplastic particles coated with natural biomolecules from freshwater versus saltwater environments are taken up by cells. They found that the protein coatings formed in different water types were chemically distinct and led to different cellular uptake pathways: freshwater-coated particles entered cells mainly through phagocytosis, while saltwater-coated particles used macropinocytosis. The study reveals that where a microplastic particle has been in the environment fundamentally changes how it interacts with living cells.

Study Type Environmental

Microplastic particles (MP) ubiquitously occur in all environmental compartments where they interact with biomolecules, forming an eco-corona on their surfaces. The eco-corona affects the surface properties of MP and consequently how they interact with cells. Proteins, an integral component within the eco-corona, may serve as a ligand driving the interaction of MP with membrane receptors. To date, it is not known, whether eco-coronae originating from different environmental media differ in their proteinaceous compositions and whether these particles interact differently with cells. We show that the protein composition of the eco-coronae formed in freshwater (FW) and salt water (SW) are distinct from each other. We did not observe different adhesion strengths between MP coated with different eco-coronae and cells. However, the internalization efficiency and the underlying internalization mechanisms significantly differed between FW- and SW eco-coronae. By inhibiting actin-driven and receptor-mediated internalization processes using Cytochalasin-D, Amiloride, and Amantadine, we show that FW microplastic particles predominantly become internalized via phagocytosis, while macropinocytosis is more important for SW microplastic particles. Overall, our findings show that the origin of eco-coronae coatings are important factors for the cellular internalization of microplastic particles. This highlights the relevance of eco-coronae for adverse effects of environmentally relevant microplastic particles on cells and organisms.

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