Amphibole asbestos is related to multiple diseases, mainly those targeting the lungs. Asbestos-related malignancies can also be caused by non-regulated asbestiform minerals and some elongated mineral particles (EMPs). In particular, the role of nano- and micro-sized EMPs internalized by lung epithelial cells must be clarified. This is of major importance when considering that EMPs to which humans are exposed are likely a highly heterogeneous mix of different mineral types, shapes, and sizes. Here, we document that particles smaller than 4.54 mu m in length and smaller than 0.89 mu m in width (e.g., particles that do not fit the regulatory categories to be identified as asbestos) are easily internalized because of their specific dimensions, surface charge, and shape (mostly dictated by the aspect ratio L/w). Once internalized, these particles can be found in proximity to the cell nucleus, in vesicles, and in the cytoplasm. Examining the localization of particles in cells provides important information, which helps in determining the physicochemical environment found inside the biological compartment, thus allowing for a better comprehension of the mineralogical transformation that might happen after internalization by cells.

Vigliaturo, R., Jamnik, M., Dražić, G., Podobnik, M., Žnidarič, M., Della Ventura, G., et al. (2024). Localization and Dimensional Range of Amphibole Particles Retrieved from Human Alveolar Epithelial Cells. MINERALS, 14(1) [10.3390/min14010101].

Localization and Dimensional Range of Amphibole Particles Retrieved from Human Alveolar Epithelial Cells

Della Ventura, Giancarlo;
2024-01-01

Abstract

Amphibole asbestos is related to multiple diseases, mainly those targeting the lungs. Asbestos-related malignancies can also be caused by non-regulated asbestiform minerals and some elongated mineral particles (EMPs). In particular, the role of nano- and micro-sized EMPs internalized by lung epithelial cells must be clarified. This is of major importance when considering that EMPs to which humans are exposed are likely a highly heterogeneous mix of different mineral types, shapes, and sizes. Here, we document that particles smaller than 4.54 mu m in length and smaller than 0.89 mu m in width (e.g., particles that do not fit the regulatory categories to be identified as asbestos) are easily internalized because of their specific dimensions, surface charge, and shape (mostly dictated by the aspect ratio L/w). Once internalized, these particles can be found in proximity to the cell nucleus, in vesicles, and in the cytoplasm. Examining the localization of particles in cells provides important information, which helps in determining the physicochemical environment found inside the biological compartment, thus allowing for a better comprehension of the mineralogical transformation that might happen after internalization by cells.
2024
Vigliaturo, R., Jamnik, M., Dražić, G., Podobnik, M., Žnidarič, M., Della Ventura, G., et al. (2024). Localization and Dimensional Range of Amphibole Particles Retrieved from Human Alveolar Epithelial Cells. MINERALS, 14(1) [10.3390/min14010101].
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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/11590/469975
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