The fluoro-edenite fibrous amphibole was identified as an environmental pollutant associate to risk of carcinogenicity. In Sicily (Italy), it represents a public health issue because fluoro-edenite fibers are present in the soil of Biancavilla, a town located on the south-west slopes of the volcano Etna. Since the relationship between exposure to fluoro-edenite and the onset of lung disorders have been documented, in vitro studies were performed to clarify the mechanisms of damage, but most aspects remain unknown. Here, we focus on the effects of mineral fibers in a primary culture of lung fibroblasts. We supposed that the cells react to fluoro-edenite exposure by establishing a process of adaption that could modify their metabolic activity, their proliferation, and their physiological functions, as the production of extracellular matrix (ECM) components.
Adaption of Lung Fibroblasts to Fluoro-Edenite Fibers: Evaluation of Molecular and Physiological Dynamics
Graziano, Adriana C E
Primo
;Ledda, CaterinaSecondo
;Loreto, CarlaPenultimo
;Cardile, Venera
Ultimo
2021-01-01
Abstract
The fluoro-edenite fibrous amphibole was identified as an environmental pollutant associate to risk of carcinogenicity. In Sicily (Italy), it represents a public health issue because fluoro-edenite fibers are present in the soil of Biancavilla, a town located on the south-west slopes of the volcano Etna. Since the relationship between exposure to fluoro-edenite and the onset of lung disorders have been documented, in vitro studies were performed to clarify the mechanisms of damage, but most aspects remain unknown. Here, we focus on the effects of mineral fibers in a primary culture of lung fibroblasts. We supposed that the cells react to fluoro-edenite exposure by establishing a process of adaption that could modify their metabolic activity, their proliferation, and their physiological functions, as the production of extracellular matrix (ECM) components.File | Dimensione | Formato | |
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