Pesticides are chemical compounds widely used in agricultural and industrial activities, as well as domestic ones. A commercial pesticide is usually composed of active ingredients and formulants. Among the active ingredients, Deltamethrin is a pyrethroid chemical widely used for synthesizing pesticides products which are very effective in damaging the central nervous system of pests. In this work, we analyze, by means of atomic force microscopy (AFM), cellular morphological changes induced by exposure to a Deltamethrin-based commercial pesticide. AFM microscopy, in addition to the well-known characterization of the cellular topography, has the ability to monitor interesting biomechanical parameters of the surface as roughness and elastic modulus. In particular, we exposed normal human keratinocytes for 24 hours at different solutions of pesticide, well below the threshold of cytotoxicity. The AFM images of exposed cells show alterations of surface cell shape. Moreover exposed cells are characterized by an increase of the value of membrane roughness. The mechanical properties of cells are also modified after chemical exposure, as confirmed by a decrease of the elasticity modulus with increasing the concentration of pesticide.
AFM analysis of morphological and mechanical modifications of human keratinocytes exposed to low doses of pesticide.
D'ANTONIO, PALMA PIA;Lasalvia, Maria;PERNA, GIUSEPPE;Quartucci, Giuseppe;GALLO, CRESCENZIO;CAPOZZI, VITO GIACOMO
2013-01-01
Abstract
Pesticides are chemical compounds widely used in agricultural and industrial activities, as well as domestic ones. A commercial pesticide is usually composed of active ingredients and formulants. Among the active ingredients, Deltamethrin is a pyrethroid chemical widely used for synthesizing pesticides products which are very effective in damaging the central nervous system of pests. In this work, we analyze, by means of atomic force microscopy (AFM), cellular morphological changes induced by exposure to a Deltamethrin-based commercial pesticide. AFM microscopy, in addition to the well-known characterization of the cellular topography, has the ability to monitor interesting biomechanical parameters of the surface as roughness and elastic modulus. In particular, we exposed normal human keratinocytes for 24 hours at different solutions of pesticide, well below the threshold of cytotoxicity. The AFM images of exposed cells show alterations of surface cell shape. Moreover exposed cells are characterized by an increase of the value of membrane roughness. The mechanical properties of cells are also modified after chemical exposure, as confirmed by a decrease of the elasticity modulus with increasing the concentration of pesticide.I documenti in IRIS sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.