Effects of oral administration of polystyrene nanoplastics on plasma glucose metabolism in mice

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Abstract

Microplastic (MP) and nanoplastic (NP) induce neurotoxicity, cytotoxicity, and reproductive system toxicity in mammals. However, the impacts of NPs on the endocrine system are obscure. Here, monodisperse polystyrene nanoplastics (PS-NPs) were prepared by emulsion polymerization and the accumulation of fluorescent PS-NPs in various organs, including the liver, kidney, spleen, and pancreas, was examined. The oral administration of PS-NPs induced visceral organ injury, and the main toxicities were damage to hepatic function and the abnormity of lipid metabolism. Global transcriptome sequencing (RNA-Seq) revealed the impact of PS-NPs on the genes involved in reactive oxygen species (ROS) generation and the PI3K/Akt signaling pathway, which is associated with glucose metabolism in mice. Chronic exposure to PS-NPs significantly increased plasma glucose levels and ROS levels, but did not affect plasma insulin secretion. The phosphorylation of insulin receptor substrate (IRS)-1 at Ser307 was raised, which decreased the phosphorylation of Akt (at Ser473) in the PI3K/Akt pathway. Collectively, these findings suggested that the oral administration of PS-NPs significantly increased ROS, hepatic triglycerides, and cholesterol accumulation. The high levels of ROS disturbed the PI3K/Akt pathway, causing insulin resistance and increased plasma glucose in the mouse liver.

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Plasticenta: First evidence of microplastics in human placenta

Antonio Ragusa, Alessandro Svelato, Criselda Santacroce … (2021)

Microplastics are particles smaller than five millimeters deriving from the degradation of plastic objects present in the environment. Microplastics can move from the environment to living organisms, including mammals. In this study, six human placentas, collected from consenting women with physiological pregnancies, were analyzed by Raman Microspectroscopy to evaluate the presence of microplastics. In total, 12 microplastic fragments (ranging from 5 to 10 μm in size), with spheric or irregular shape were found in 4 placentas (5 in the fetal side, 4 in the maternal side and 3 in the chorioamniotic membranes); all microplastics particles were characterized in terms of morphology and chemical composition. All of them were pigmented; three were identified as stained polypropylene a thermoplastic polymer, while for the other nine it was possible to identify only the pigments, which were all used for man-made coatings, paints, adhesives, plasters, finger paints, polymers and cosmetics and personal care products.

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Ingested microscopic plastic translocates to the circulatory system of the mussel, Mytilus edulis (L).

Mark A Oakley Browne, Awantha Dissanayake, Tamara S Galloway … (2008)

Plastics debris is accumulating in the environment and is fragmenting into smaller pieces; as it does, the potential for ingestion by animals increases. The consequences of macroplastic debris for wildlife are well documented, however the impacts of microplastic (< 1 mm) are poorly understood. The mussel, Mytilus edulis, was used to investigate ingestion, translocation, and accumulation of this debris. Initial experiments showed that upon ingestion, microplastic accumulated in the gut. Mussels were subsequently exposed to treatments containing seawater and microplastic (3.0 or 9.6 microm). After transfer to clean conditions, microplastic was tracked in the hemolymph. Particles translocated from the gut to the circulatory system within 3 days and persisted for over 48 days. Abundance of microplastic was greatest after 12 days and declined thereafter. Smaller particles were more abundant than larger particles and our data indicate as plastic fragments into smaller particles, the potential for accumulation in the tissues of an organism increases. The short-term pulse exposure used here did not result in significant biological effects. However, plastics are exceedingly durable and so further work using a wider range of organisms, polymers, and periods of exposure will be required to establish the biological consequences of this debris.

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Environmental exposure to microplastics: an overview on possible human health effects

Joana Correia Prata, João P da Costa, Isabel Fernanda Lopes … (2019)

Microplastics are ubiquitous environmental contaminants leading to inevitable human exposure. Even so, little is known about the effects of microplastics in human health. Thus, in this work we review the evidence for potential negative effects of microplastics in the human body, focusing on pathways of exposure and toxicity. Exposure may occur by ingestion, inhalation and dermal contact due to the presence of microplastics in products, foodstuff and air. In all biological systems, microplastic exposure may cause particle toxicity, with oxidative stress, inflammatory lesions and increased uptake or translocation. The inability of the immune system to remove synthetic particles may lead to chronic inflammation and increase risk of neoplasia. Furthermore, microplastics may release their constituents, adsorbed contaminants and pathogenic organisms. Nonetheless, knowledge on microplastic toxicity is still limited and largely influenced by exposure concentration, particle properties, adsorbed contaminants, tissues involved and individual susceptibility, requiring further research.