Cytotoxicity and behavior of polystyrene latex nanoparticles to budding yeast

Miyazaki, Jumpei; Kuriyama, Yuta; Tokumoto, Hayato; Konishi, Yasuhiro; Nomura, Toshiyuki

doi:10.1016/j.colsurfa.2015.01.046

Cited by 31 publications

(16 citation statements)

References 25 publications

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“…In soils many hydrophobic and amphiphilic compounds also regulate species communication and ecosystem processes. For instance, hydrophobins are amphiphilic proteins ubiquitous in soils that are secreted by fungi (Rillig, 2005 (Steinmetz et al, 2016), ingestion by terrestrial and continental birds (Gil-Delgado et al, 2017;Holland et al, 2016;Zhao et al, 2016), reduction in growth of earthworms (Lwanga et al, 2016), lethal toxicity to fungi (Miyazaki et al, 2014(Miyazaki et al, , 2015Nomura et al, 2016), mammal lung inflammation (Hamoir et al, 2003;Oberdorster, 2000;Schmid & Stoeger, 2016) and broad cytotoxicity (Forte et al, 2016;Kato et al, 2003) of nanoplastics [Colour figure can be viewed at wileyonlinelibrary.com] stability, with direct potential consequences for soil erosion and biogeochemical cycles (Rillig, 2005). It was suggested that microplastics might present distinct sorption properties for soil inorganic elements (Hodson, Duffus-Hodson, Clark, Prendergast-Miller, & Thorpe, 2017), and laboratory results suggest that hydrophobins play a role in the protection against nanoplastic toxicity to filamentous fungi (Nomura et al, 2016).…”

Section: The Need For Accurate An D Precise Quantification Of Micromentioning

confidence: 99%

“…Carboxyl (COOH) and amino (NH 2 ) terminated or lecithin coated polystyrene beads yield nanoparticles with diverse cellular fate, which influences the toxicity mechanism. Reported processes (Kato et al, 2003;Miyazaki et al, 2014Miyazaki et al, , 2015Syberg et al, 2015) do not fully explain toxicity and uptake. Further mechanisms await discovery [Colour figure can be viewed at wileyonlinelibrary.com] 2014; Nomura et al, 2016).…”

Section: Targets Of Nanoplasticsmentioning

confidence: 99%

“… : Microplastics as trigger of combined physical or chemical‐like effects. Soil biogeochemistry related to agricultural mulching (Steinmetz et al., ), ingestion by terrestrial and continental birds (Gil‐Delgado et al., ; Holland et al., ; Zhao et al., ), reduction in growth of earthworms (Lwanga et al., ), lethal toxicity to fungi (Miyazaki et al., , ; Nomura et al., ), mammal lung inflammation (Hamoir et al., ; Oberdorster, ; Schmid & Stoeger, ) and broad cytotoxicity (Forte et al., ; Kato et al., ) of nanoplastics [Colour figure can be viewed at wileyonlinelibrary.com]…”

Section: Mechanisms Of Potential Impacts Of Microplastic On Terrestrimentioning

confidence: 99%

“…Polystyrene nanoparticles (44 nm and 100 nm) were readily taken up by gastric adenocarcinoma cells likely via an energy dependent mechanism of internalization and a clathrin‐mediated endocytosis (Forte et al., ). Uptake of nanoplastics by fungi seems to be less related to endocytic processes and more associated to metabolic rates (respiration), membrane charge and differences between intra‐ and extracellular environments, osmotic pressure, and the hydrophobicity of cell walls (Miyazaki, Kuriyama, Tokumoto, Konishi, & Nomura, ; Miyazaki et al., ; Nomura et al., ). The uptake of nanoplastics through chitin‐rich fungi cell walls highlights their capacity of crossing important impermeable barriers for many other toxics.…”

Section: The Broad‐spectrum Toxicity Targets Of Nanoplasticsmentioning

confidence: 99%

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Microplastics as an emerging threat to terrestrial ecosystems

Machado

Kloas

Zarfl

et al. 2018

Global Change Biology

1,619

537

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Microplastics (plastics <5 mm, including nanoplastics which are <0.1 μm) originate from the fragmentation of large plastic litter or from direct environmental emission. Their potential impacts in terrestrial ecosystems remain largely unexplored despite numerous reported effects on marine organisms. Most plastics arriving in the oceans were produced, used, and often disposed on land. Hence, it is within terrestrial systems that microplastics might first interact with biota eliciting ecologically relevant impacts. This article introduces the pervasive microplastic contamination as a potential agent of global change in terrestrial systems, highlights the physical and chemical nature of the respective observed effects, and discusses the broad toxicity of nanoplastics derived from plastic breakdown. Making relevant links to the fate of microplastics in aquatic continental systems, we here present new insights into the mechanisms of impacts on terrestrial geochemistry, the biophysical environment, and ecotoxicology. Broad changes in continental environments are possible even in particle-rich habitats such as soils. Furthermore, there is a growing body of evidence indicating that microplastics interact with terrestrial organisms that mediate essential ecosystem services and functions, such as soil dwelling invertebrates, terrestrial fungi, and plant-pollinators. Therefore, research is needed to clarify the terrestrial fate and effects of microplastics. We suggest that due to the widespread presence, environmental persistence, and various interactions with continental biota, microplastic pollution might represent an emerging global change threat to terrestrial ecosystems.

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Section: The Need For Accurate An D Precise Quantification Of Micromentioning

confidence: 99%

Section: Targets Of Nanoplasticsmentioning

confidence: 99%

Section: Mechanisms Of Potential Impacts Of Microplastic On Terrestrimentioning

confidence: 99%

Section: The Broad‐spectrum Toxicity Targets Of Nanoplasticsmentioning

confidence: 99%

See 2 more Smart Citations

Microplastics as an emerging threat to terrestrial ecosystems

Machado

Kloas

Zarfl

et al. 2018

Global Change Biology

1,619

537

View full text Add to dashboard Cite

show abstract

“…The microplastic bioaccumulation may be ubiquitous in terrestrial species, even in organisms that do not "ingest" their food. It has been reported that microplastics smaller than 0.5 μm may also accumulate in yeasts and filamentous fungi (Nomura et al 2016;Miyazaki et al 2015). This suggests possible aggregation or acceleration of microplastics in the soil-detritus food web, which may be among the most extended food chains on Earth.…”

Section: Microplastics In Terrestrial Biotamentioning

confidence: 99%

Microplastics in Biota

Gautam¹,

Dwivedi²,

Anbumani³

2020

Handbook of Microplastics in the Environment

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Microplastics are omnipresent and pose a global threat to the environment due to their robustness, resilience, and enduring existence. Most of the microplastics research to date has focused on the marine ecosystem. Although freshwater and terrestrial ecosystem is perceived as starting points and transport pathways of plastics to the seas, there is a scarcity of information about these ecological compartments for effective ecological risk assessment. On reaching the environment, due to lower densities than water, MPs are subject to transportation through strong winds and river streams. This makes aggregation in various ecological compartments possible over some time due to their small size and large surface area. Existing scientific evidence shows that exposure to microplastics causes a wide range of toxic insults from feeding disruption to reproductive efficiency, physical adsorption, energy metabolism disruption, changes in liver physiology, synergistic, and antagonistic activity of certain organic compounds, among

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