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.
Marine & Wildlife
Nanoplastics
Sign in to save
Evidence for immunomodulation and apoptotic processes induced by cationic polystyrene nanoparticles in the hemocytes of the marine bivalve Mytilus
Marine Environmental Research2015
389 citations
?
Citation count from OpenAlex, updated daily. May differ slightly from the publisher's own count.
Score: 55
?
0–100 AI score estimating relevance to the microplastics field. Papers below 30 are filtered from public browse.
Ilaria Corsi,
Elisa Bergami,
Elisa Bergami,
Elisa Bergami,
Laura Canesi,
Caterina Ciacci,
Caterina Ciacci,
Ilaria Corsi,
Ilaria Corsi,
Elisa Bergami,
Elisa Bergami,
Elisa Bergami,
Elisa Bergami,
Elisa Bergami,
Elisa Bergami,
Elisa Bergami,
Ilaria Corsi,
Ilaria Corsi,
Ilaria Corsi,
Elisa Bergami,
Elisa Bergami,
Ilaria Corsi,
Ilaria Corsi,
Elisa Bergami,
Ilaria Corsi,
Ilaria Corsi,
Elisa Bergami,
Elisa Bergami,
Elisa Bergami,
Caterina Ciacci,
Laura Canesi,
Elisa Bergami,
Elisa Bergami,
Elisa Bergami,
Elisa Bergami,
Elisa Bergami,
Elisa Bergami,
Elisa Bergami,
Elisa Bergami,
Ilaria Corsi,
Elisa Bergami,
Elisa Bergami,
Ilaria Corsi,
Ilaria Corsi,
Elisa Bergami,
Ilaria Corsi,
Caterina Ciacci,
Ilaria Corsi,
Caterina Ciacci,
Ilaria Corsi,
Caterina Ciacci,
Elisa Bergami,
Ilaria Corsi,
Laura Canesi,
Elisa Bergami,
Elisa Bergami,
Ilaria Corsi,
Ilaria Corsi,
Ilaria Corsi,
Elisa Bergami,
Elisa Bergami,
Elisa Bergami,
Elisa Bergami,
Elisa Bergami,
Elisa Bergami,
Barbara Canonico,
Laura Canesi,
Laura Canesi,
Laura Canesi,
Marco P. Monopoli
Marco P. Monopoli
Ilaria Corsi,
Caterina Ciacci,
Ilaria Corsi,
Ilaria Corsi,
Ilaria Corsi,
Laura Canesi,
Laura Canesi,
Kenneth A. Dawson,
Laura Canesi,
Ilaria Corsi,
Stefano Papa,
Laura Canesi,
Elisa Bergami,
Elisa Bergami,
Caterina Ciacci,
Elisa Bergami,
Ilaria Corsi,
Ilaria Corsi,
Stefano Papa,
Kenneth A. Dawson,
Kenneth A. Dawson,
Ilaria Corsi,
Ilaria Corsi,
Elisa Bergami,
Ilaria Corsi,
Ilaria Corsi,
Laura Canesi,
Ilaria Corsi,
Ilaria Corsi,
Stefano Papa,
Ilaria Corsi,
Ilaria Corsi,
Ilaria Corsi,
Ilaria Corsi,
Ilaria Corsi,
Ilaria Corsi,
Ilaria Corsi,
Ilaria Corsi,
Ilaria Corsi,
Ilaria Corsi,
Barbara Canonico,
Kenneth A. Dawson,
Laura Canesi,
Laura Canesi,
Laura Canesi,
Laura Canesi,
Ilaria Corsi,
Elisa Bergami,
Ilaria Corsi,
Ilaria Corsi,
Elisa Bergami,
Ilaria Corsi,
Ilaria Corsi,
Laura Canesi,
Laura Canesi,
Elisa Bergami,
Laura Canesi,
Ilaria Corsi,
Stefano Papa,
Stefano Papa,
Barbara Canonico,
Ilaria Corsi,
Ilaria Corsi,
Ilaria Corsi,
Ilaria Corsi,
Barbara Canonico,
Barbara Canonico,
Ilaria Corsi,
Laura Canesi,
Marco P. Monopoli
Ilaria Corsi,
Marco P. Monopoli
Summary
Researchers exposed mussel immune cells (hemocytes) to cationic polystyrene nanoparticles and found dose-dependent reductions in phagocytic ability, increases in reactive oxygen species and nitric oxide, and apoptotic cell death at high concentrations — indicating nanoplastics can compromise invertebrate immune defenses through mechanisms similar to those seen in mammalian cells.
Polymeric nanoparticles can reach the marine environment from different sources as weathering of plastic debris and nanowaste. Nevertheless, few data are available on their fate and impact on marine biota. Polystyrene nanoparticles (PS NPs) can be considered as a model for studying the effects of nanoplastics in marine organisms: recent data on amino-modified PS NPs (PS-NH2) toxicity in sea urchin embryos underlined that marine invertebrates can be biological targets of nanoplastics. Cationic PS NPs have been shown to be toxic to mammalian cells, where they can induce apoptotic processes; however, no information is available on their effects and mechanisms of action in the cells of marine organisms. In this work, the effects of 50 nm PS-NH2 were investigated in the hemocytes of the marine bivalve Mytilus galloprovincialis. Hemocytes were exposed to different concentrations (1, 5, 50 μg/ml) of PS-NH2 suspension in ASW. Clear signs of cytoxicity were evident only at the highest concentrations (50 μg/ml). On the other hand, a dose dependent decrease in phagocytic activity and increase in lysozyme activity were observed. PS-NH2 NPs also stimulated increase in extracellular ROS (reactive oxygen species) and NO (nitric oxide) production, with maximal effects at lower concentrations. Moreover, at the highest concentration tested, PS-NH2 NPs induced apoptotic process, as evaluated by Flow cytometry (Annexin V binding and mitochondrial parameters). The results demonstrate that in marine invertebrates the immune function can represent a significant target for PS-NPs. Moreover, in Mytilus hemocytes, PS-NH2 NPs can act through mechanisms similar to those observed in mammalian cells. Further research is necessary on specific mechanisms of toxicity and cellular uptake of nanoplastics in order to assess their impact on marine biota.