Fluorescent labeling of micro/nanoplastics for biological applications with a focus on “true-to-life" tracking
Journal of Hazardous Materials2024
24 citations
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Score: 65
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Aliro Villacorta
Michelle Morataya-Reyes,
Aliro Villacorta
Michelle Morataya-Reyes,
Aliro Villacorta
Ricard Marcos,
Jéssica Arribas Arranz,
Lourdes Vela,
Iris H. Valido,
Aliro Villacorta
Aliro Villacorta
Michelle Morataya-Reyes,
Ricard Marcos,
Ricard Marcos,
Aliro Villacorta
Aliro Villacorta
Aliro Villacorta
Aliro Villacorta
Alba Hernández,
Alba Hernández,
Aliro Villacorta
Aliro Villacorta
Aliro Villacorta
Aliro Villacorta
Alba Hernández,
Aliro Villacorta
Aliro Villacorta
Aliro Villacorta
Aliro Villacorta
Camila Cazorla-Ares,
Victor Fuentes-Cebrian,
Camila Cazorla-Ares,
Montserrat López‐Mesas,
Lourdes Vela,
Susana Pastor,
Antonia Velázquez,
Ricard Marcos,
Jéssica Arribas Arranz,
Antonia Velázquez,
Antonia Velázquez,
Antonia Velázquez,
Antonia Velázquez,
Antonia Velázquez,
F. Carrillo,
F. Carrillo,
Antonia Velázquez,
Jéssica Arribas Arranz,
Victor Fuentes-Cebrian,
Alba Hernández,
Montserrat López‐Mesas,
Michelle Morataya-Reyes,
Alba Hernández,
Aliro Villacorta
Aliro Villacorta
Aliro Villacorta
Aliro Villacorta
Antonia Velázquez,
Alba Hernández,
Antonia Velázquez,
Lourdes Vela,
Lourdes Vela,
Lourdes Vela,
Antonia Velázquez,
Michelle Morataya-Reyes,
Michelle Morataya-Reyes,
Jéssica Arribas Arranz,
Alba Hernández,
Alba Hernández,
Alba Hernández,
Alba Hernández,
Alba Hernández,
Alba Hernández,
Alba Hernández,
Alba Hernández,
Aliro Villacorta
Alba Hernández,
Alba Hernández,
Alba Hernández,
Alba Hernández,
Ricard Marcos,
Ricard Marcos,
Ricard Marcos,
Ricard Marcos,
Michelle Morataya-Reyes,
Michelle Morataya-Reyes,
Jéssica Arribas Arranz,
Jéssica Arribas Arranz,
Jéssica Arribas Arranz,
Susana Pastor,
Susana Pastor,
Montserrat López‐Mesas,
Montserrat López‐Mesas,
Montserrat López‐Mesas,
Victor Fuentes-Cebrian,
Iris H. Valido,
F. Carrillo,
Ricard Marcos,
Susana Pastor,
Aliro Villacorta
Alba Hernández,
Alba Hernández,
Ricard Marcos,
Ricard Marcos,
Ricard Marcos,
Alba Hernández,
Ricard Marcos,
Alba Hernández,
Ricard Marcos,
Victor Fuentes-Cebrian,
Ricard Marcos,
Ricard Marcos,
Ricard Marcos,
Montserrat López‐Mesas,
Aliro Villacorta
Ricard Marcos,
Alba Hernández,
Ricard Marcos,
Ricard Marcos,
Ricard Marcos,
Ricard Marcos,
Ricard Marcos,
Lourdes Vela,
Ricard Marcos,
Alba Hernández,
Susana Pastor,
Ricard Marcos,
Alba Hernández,
Ricard Marcos,
Ricard Marcos,
Alba Hernández,
Ricard Marcos,
Alba Hernández,
F. Carrillo,
Alba Hernández,
Alba Hernández,
Susana Pastor,
Susana Pastor,
Susana Pastor,
Alba Hernández,
Alba Hernández,
Alba Hernández,
Alba Hernández,
Alba Hernández,
Alba Hernández,
Aliro Villacorta
Antonia Velázquez,
Ricard Marcos,
Ricard Marcos,
Ricard Marcos,
Antonia Velázquez,
Michelle Morataya-Reyes,
Ricard Marcos,
Ricard Marcos,
Ricard Marcos,
Antonia Velázquez,
Ricard Marcos,
Antonia Velázquez,
Alba Hernández,
Karen Mejía‐Carmona,
Ricard Marcos,
Alba Hernández,
Alba Hernández,
Ricard Marcos,
Alba Hernández,
Alba Hernández,
Alba Hernández,
Alba Hernández,
Alba Hernández,
Ricard Marcos,
Alba Hernández,
Ricard Marcos,
Ricard Marcos,
Alba Hernández,
Ricard Marcos,
Alba Hernández,
Ricard Marcos,
Alba Hernández,
Alba Hernández,
Susana Pastor,
Alba Hernández,
Ricard Marcos,
Ricard Marcos,
Antonia Velázquez,
Alba Hernández,
Antonia Velázquez,
Alba Hernández,
Alba Hernández,
Alba Hernández,
Jéssica Arribas Arranz,
Ricard Marcos,
Ricard Marcos,
Montserrat López‐Mesas,
Susana Pastor,
Susana Pastor,
Alba Hernández,
Alba Hernández,
Aliro Villacorta
Summary
This study tested five different fluorescent dyes for tracking microplastics inside cells and living organisms, which is essential for understanding how these particles move through the body. The industrial dye iDye PolyPink performed best -- it stained plastics specifically, did not leak out over time, and did not harm cells. Better tracking methods like this will help researchers study how microplastics travel through and accumulate in human tissues.
The increased environmental presence of micro-/nanoplastics (MNPLs) and the potential health risks associated with their exposure classify them as environmental pollutants with special environmental and health concerns. Consequently, there is an urgent need to investigate the potential risks associated with secondary MNPLs. In this context, using "true-to-life" MNPLs, resulting from the laboratory degradation of plastic goods, may be a sound approach. These non-commercial secondary MNPLs must be labeled to track their presence/journeys inside cells or organisms. Because the cell internalization of MNPLs is commonly analyzed using fluorescence techniques, the use of fluorescent dyes may be a sound method to label them. Five different compounds comprising two chemical dyes (Nile Red and Rhodamine-B), one optical brightener (Opticol), and two industrial dyes (Amarillo Luminoso and iDye PolyPink) were tested to determine their potential for such applications. Using commercial standards of polystyrene nanoplastics (PSNPLs) with an average size of 170 nm, different characteristics of the selected dyes such as the absence of impact on cell viability, specificity for plastic staining, no leaching, and lack of interference with other fluorochromes were analyzed. Based on the overall data obtained in the wide battery of assays performed, iDye PolyPink exhibited the most advantages, with respect to the other compounds, and was selected to effectively label "true-to-life" MNPLs. These advantages were confirmed using a proposed protocol, and labeling titanium-doped PETNPLs (obtained from the degradation of milk PET plastic bottles), as an example of "true-to-life" secondary NPLs. These results confirmed the usefulness of iDye PolyPink for labeling MNPLs and detecting cell internalization.