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Nanoplastics
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Differential sensitivity of hemocyte subpopulations (Mytilus edulis) to aged polyethylene terephthalate micro- and nanoplastic particles
Ecotoxicology and Environmental Safety2024
8 citations
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Citation count from OpenAlex, updated daily. May differ slightly from the publisher's own count.
Score: 55
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0–100 AI score estimating relevance to the microplastics field. Papers below 30 are filtered from public browse.
Raewyn M. Town,
Raewyn M. Town,
Jenevieve Hara,
Maaike Vercauteren
Maaike Vercauteren
Maaike Vercauteren
Jenevieve Hara,
Maaike Vercauteren
Colin Janssen,
Raewyn M. Town,
Raewyn M. Town,
Jenevieve Hara,
Jenevieve Hara,
Jenevieve Hara,
Maaike Vercauteren
Maaike Vercauteren
Maaike Vercauteren
Jenevieve Hara,
Maaike Vercauteren
Maaike Vercauteren
Jana Asselman,
Maaike Vercauteren
Jenevieve Hara,
Maaike Vercauteren
Maaike Vercauteren
Jenevieve Hara,
Maaike Vercauteren
Colin Janssen,
Jana Asselman,
Jana Asselman,
Maaike Vercauteren
Maaike Vercauteren
Maaike Vercauteren
Jana Asselman,
Maaike Vercauteren
Maaike Vercauteren
Maaike Vercauteren
Maaike Vercauteren
Maaike Vercauteren
Maaike Vercauteren
Maaike Vercauteren
Maaike Vercauteren
Maaike Vercauteren
Colin Janssen,
Colin Janssen,
Colin Janssen,
Maaike Vercauteren
Maaike Vercauteren
Maaike Vercauteren
Sébastjen Schoenaers,
Sébastjen Schoenaers,
Sébastjen Schoenaers,
Ronny Blust,
Ronny Blust,
Ronny Blust,
Ronny Blust,
Colin Janssen,
Colin Janssen,
Maaike Vercauteren
Colin Janssen,
Colin Janssen,
Colin Janssen,
Colin Janssen,
Colin Janssen,
Colin Janssen,
Maaike Vercauteren
Maaike Vercauteren
Maaike Vercauteren
Colin Janssen,
Maaike Vercauteren
Maaike Vercauteren
Raewyn M. Town,
Maaike Vercauteren
Jana Asselman,
Jana Asselman,
Jana Asselman,
Jana Asselman,
Colin Janssen,
Colin Janssen,
Colin Janssen,
Colin Janssen,
Colin Janssen,
Colin Janssen,
Colin Janssen,
Colin Janssen,
Colin Janssen,
Colin Janssen,
Colin Janssen,
Colin Janssen,
Colin Janssen,
Colin Janssen,
Colin Janssen,
Colin Janssen,
Colin Janssen,
Colin Janssen,
Colin Janssen,
Colin Janssen,
Ronny Blust,
Raewyn M. Town,
Raewyn M. Town,
Colin Janssen,
Maaike Vercauteren
Colin Janssen,
Colin Janssen,
Jana Asselman,
Colin Janssen,
Raewyn M. Town,
Colin Janssen,
Jana Asselman,
Jana Asselman,
Jana Asselman,
Ronny Blust,
Jana Asselman,
Jana Asselman,
Jana Asselman,
Jana Asselman,
Jana Asselman,
Jana Asselman,
Colin Janssen,
Jana Asselman,
Colin Janssen,
Colin Janssen,
Jana Asselman,
Colin Janssen,
Maaike Vercauteren
Raewyn M. Town,
Jana Asselman,
Colin Janssen,
Colin Janssen,
Maaike Vercauteren
Jana Asselman,
Colin Janssen,
Maaike Vercauteren
Colin Janssen,
Jana Asselman,
Colin Janssen,
Maaike Vercauteren
Colin Janssen,
Ronny Blust,
Jana Asselman,
Colin Janssen,
Ronny Blust,
Colin Janssen,
Colin Janssen,
Ronny Blust,
Colin Janssen,
Colin Janssen,
Colin Janssen,
Colin Janssen,
Colin Janssen,
Maaike Vercauteren
Maaike Vercauteren
Colin Janssen,
Raewyn M. Town,
Jana Asselman,
Jana Asselman,
Jana Asselman,
Jana Asselman,
Jana Asselman,
Jana Asselman,
Jana Asselman,
Jana Asselman,
Raewyn M. Town,
Colin Janssen,
Colin Janssen,
Jana Asselman,
Colin Janssen,
Colin Janssen,
Colin Janssen,
Colin Janssen,
Colin Janssen,
Jana Asselman,
Colin Janssen,
Jana Asselman,
Jana Asselman,
Raewyn M. Town,
Jana Asselman,
Raewyn M. Town,
Colin Janssen,
Colin Janssen,
Colin Janssen,
Colin Janssen,
Jana Asselman,
Jana Asselman,
Jana Asselman,
Colin Janssen,
Colin Janssen,
Jana Asselman,
Jana Asselman,
Jana Asselman,
Ronny Blust,
Raewyn M. Town,
Raewyn M. Town,
Raewyn M. Town,
Jana Asselman,
Colin Janssen,
Colin Janssen,
Colin Janssen,
Jana Asselman,
Colin Janssen,
Jana Asselman,
Raewyn M. Town,
Raewyn M. Town,
Maaike Vercauteren
Summary
This study examined how different immune cell types in blue mussels respond to aged PET micro- and nanoplastic particles that resemble those found in natural environments. Researchers found that the two main hemocyte subpopulations showed different sensitivities, with granulocytes being more affected in some measures than hyalinocytes. The results suggest that aged plastic particles may interfere with the immune defenses of shellfish in ways that differ from pristine lab-made particles.
Bivalve hemocytes, particularly granulocytes and hyalinocytes, play a crucial role in cell-mediated immunity. However, their interactions with aged plastic particles, exhibiting altered properties that more closely resemble those in natural environments, remain largely underexplored. This study assesses the differential responses of hemocyte subpopulations (Mytilus edulis) to chemically aged polyethylene terephthalate (PET) microplastic (MPs) and nanoplastic (NPs) particles across multiple cellular effect endpoints. Particle characteristics were analyzed using Single Particle Extinction and Scattering, Raman Spectroscopy, Scanning Electron Microscopy, and Dynamic Light Scattering. In vitro experiments with aged PET MPs (1.9 µm) and NPs (0.68 µm) were conducted at three internally relevant concentrations: 10 (C1), 10³ (C2), and 10⁵ particles/mL (C3). Cellular responses were assessed by measuring lysosomal content stability, reactive oxygen species (ROS) production, cellular mortality, and morphological parameters using flow cytometry at 6, 12, 24, and 48 hours. Our findings provide mechanistic insights into the differential sensitivities of granulocytes and hyalinocytes to aged PET, influenced by particle size and concentration. Specifically, aged PET MPs and NPs induce distinct size and concentration-dependent patterns of lysosomal destabilization, coinciding with the loss of functional integrity. Elevated ROS levels were observed only in granulocytes and hyalinocytes exposed to high concentrations of aged PET NPs, underscoring the effects on oxidative stress. Both aged PET MPs and NPs induce significant increases in cellular mortality, particularly after 24 h of exposure at high concentrations. These findings reveal the complex cellular mechanisms underlying hemocyte functional impairment following exposure to aged PET particles under environmentally and biologically relevant conditions.