Back to papers
0
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. Human Health Effects Nanoplastics Reproductive & Development Sign in to save

Application of transcriptome profiling to inquire into the mechanism of nanoplastics toxicity during Ciona robusta embryogenesis

Environmental Pollution 2022 18 citations ? Citation count from OpenAlex, updated daily. May differ slightly from the publisher's own count. Score: 45 ? 0–100 AI score estimating relevance to the microplastics field. Papers below 30 are filtered from public browse.
Antonietta Spagnuolo, Elisa Bergami, Maria Concetta Eliso, Ilaria Corsi Maria Concetta Eliso, Maria Concetta Eliso, Maria Concetta Eliso, Ilaria Corsi Maria Concetta Eliso, Ilaria Corsi Ilaria Corsi Ilaria Corsi Maria Concetta Eliso, Maria Concetta Eliso, Elisa Bergami, Elisa Bergami, Elisa Bergami, Elisa Bergami, Elisa Bergami, Elisa Bergami, Elisa Bergami, Elisa Bergami, Elisa Bergami, Ilaria Corsi Maria Concetta Eliso, Elisa Bergami, Ilaria Corsi Elisa Bergami, Ilaria Corsi Elisa Bergami, Elisa Bergami, Elisa Bergami, Elisa Bergami, Elisa Bergami, Elisa Bergami, Elisa Bergami, Elisa Bergami, Antonietta Spagnuolo, Maria Concetta Eliso, Ilaria Corsi Ilaria Corsi Maria Concetta Eliso, Elisa Bergami, Elisa Bergami, Elisa Bergami, Elisa Bergami, Elisa Bergami, Ilaria Corsi Ilaria Corsi Maria Concetta Eliso, Ilaria Corsi Antonietta Spagnuolo, Ilaria Corsi Ilaria Corsi Ilaria Corsi Ilaria Corsi Elisa Bergami, Elisa Bergami, Elisa Bergami, Elisa Bergami, Lisa Bonciani, Lisa Bonciani, Elisa Bergami, Elisa Bergami, Elisa Bergami, Elisa Bergami, Elisa Bergami, Antonietta Spagnuolo, Ilaria Corsi Ilaria Corsi Antonietta Spagnuolo, Elisa Bergami, Antonietta Spagnuolo, Elisa Bergami, Roberto Riccio, Ilaria Corsi Giulia Belli, Antonietta Spagnuolo, Elisa Bergami, Ilaria Corsi Ilaria Corsi Elisa Bergami, Ilaria Corsi Elisa Bergami, Ilaria Corsi Giulia Belli, Ilaria Corsi Ilaria Corsi Ilaria Corsi Ilaria Corsi Ilaria Corsi Ilaria Corsi Ilaria Corsi Ilaria Corsi Mattia Belli, Elisa Bergami, Mattia Belli, Ilaria Corsi Ilaria Corsi Ilaria Corsi Ilaria Corsi Ilaria Corsi Ilaria Corsi Ilaria Corsi Ilaria Corsi Ilaria Corsi Ilaria Corsi Ilaria Corsi Elisa Bergami, Ilaria Corsi Maria Concetta Eliso, Antonietta Spagnuolo, Ilaria Corsi Ilaria Corsi Elisa Bergami, Ilaria Corsi Ilaria Corsi Elisa Bergami, Ilaria Corsi Maria Concetta Eliso, Maria Concetta Eliso, Ilaria Corsi Antonietta Spagnuolo, Ilaria Corsi Ilaria Corsi Antonietta Spagnuolo, Ilaria Corsi Ilaria Corsi Ilaria Corsi

Summary

Transcriptome profiling of marine mussels exposed to amino-modified polystyrene nanoplastics was used to develop an adverse outcome pathway (AOP), revealing disruption of immune function, energy metabolism, and cytoskeletal integrity as key molecular events. The integrative approach provides a mechanistic framework for predicting nanoplastic hazards in marine invertebrates.

Polymers
PS
Body Systems
Immune Nervous
Study Type In vivo

The growing concern on nanoplastics (<1 μm) impact on marine life has stimulated a significant amount of studies aiming to address ecotoxicity and disclose their mechanisms of action. Here, we applied an integrative approach to develop an Adverse Outcome Pathway (AOP) upon acute exposure to amino-modified polystyrene nanoparticles (PS-NH NPs, 50 nm), as proxy for nanoplastics, during the embryogenesis of the chordate Ciona robusta. Genes related to glutathione metabolism, immune defense, nervous system, transport by aquaporins and energy metabolism were affected by either concentration tested of 10 or 15 μg mL of PS-NH. Transcriptomic data and in vivo experiments were assembled into two putative AOPs, identifying as key events the adhesion of PS-NH as (molecular) initiating event, followed by oxidative stress, changes in transcription of specific genes, morphological defects, increase in reactive oxygen species level, impaired swimming behavior. As final adverse outcomes, altered larval development, reduced metamorphosis and inhibition of hatching were identified. Our study attempts to define AOPs for PS-NH without excluding that chemicals leaching from them might also have a potential role in the observed outcome. Overall data provide new insights into the mechanism of action of PS-NH NPs during chordate embryogenesis and offer further keys for a better knowledge of nanoplastics impact on early stages of marine life.

Read via DOI PubMed Download PDF

Sign in to start a discussion.

Share this paper

Post Share Share Pin Email