background the widespread use of radiofrequency (RF) sources, ranging from household appliances to telecommunications devices and military equipment, raises concerns among people and regulatory agencies about the potential health risks of RF exposure. consequently, several in vitro and in vivo studies have been done to investigate the biological effects, in particular non-thermal, of this non-ionizing radiation. to date, this issue is still being debated due to the controversial results that have been reported. furthermore, the impact of different RF signal modulations on biological systems remains poorly investigated. the present in vitro study aims to evaluate the cytotoxicity and genotoxicity of continuous or pulsed 1.6 GHz RF in human dermal fibroblasts (HDF).methods HDF cultures were exposed to continuous and pulsed 1.6 GHz RF, for 2 h, with specific absorption rate (SAR) of 0.4 W/kg. the potential biological effects of 1.6 GHz RF on HDF were assessed with a multi-methodological approach, analyzing the effects on cell cycle, ultrastructure, protein expression, mitotic spindle, CREST stained micronuclei, chromosome segregation and gamma-H2AX/53BP1 foci. results 1.6 GHz RF exposure modified proteins expression and morphology of HDF. specifically, the expression of different heat-shock proteins (HSP) (i.e., HSP-90, HSP-60, and HSP-25) and phospho-AKT were affected. In addition, both continuous and pulsed RF modified the cytoskeletal organization in HDF and increased the number of lysosomes, while the formation of autophagosomes was observed only after pulsed RF exposure. mitotic spindle anomalies were also found after exposure. however, no significant effect was observed on cell cycle, chromosome segregation, CREST-stained micronuclei and gamma-H2AX/53BP1 foci. conclusion the results of the present study show the absence of genotoxic damage in 1.6 GHz RF exposed HDF and, although mitotic spindle alterations were observed, they did not have an aneugenic effect. on the other hand, changes in some proteins expression and cell ultrastructure in exposed HDF suggest that RF can potentially induce cell alterations at the morphological and molecular levels.

Massaro, L., De Sanctis, S., Franchini, V., Regalbuto, E., Alfano, G., Focaccetti, C., et al. (2024). Study of genotoxic and cytotoxic effects induced in human fibroblasts by exposure to pulsed and continuous 1.6 GHz radiofrequency. FRONTIERS IN PUBLIC HEALTH, 12 [10.3389/fpubh.2024.1419525].

Study of genotoxic and cytotoxic effects induced in human fibroblasts by exposure to pulsed and continuous 1.6 GHz radiofrequency

Massaro, L;Focaccetti, C;Benvenuto, M;Cifaldi, L;Bei, R;
2024-01-01

Abstract

background the widespread use of radiofrequency (RF) sources, ranging from household appliances to telecommunications devices and military equipment, raises concerns among people and regulatory agencies about the potential health risks of RF exposure. consequently, several in vitro and in vivo studies have been done to investigate the biological effects, in particular non-thermal, of this non-ionizing radiation. to date, this issue is still being debated due to the controversial results that have been reported. furthermore, the impact of different RF signal modulations on biological systems remains poorly investigated. the present in vitro study aims to evaluate the cytotoxicity and genotoxicity of continuous or pulsed 1.6 GHz RF in human dermal fibroblasts (HDF).methods HDF cultures were exposed to continuous and pulsed 1.6 GHz RF, for 2 h, with specific absorption rate (SAR) of 0.4 W/kg. the potential biological effects of 1.6 GHz RF on HDF were assessed with a multi-methodological approach, analyzing the effects on cell cycle, ultrastructure, protein expression, mitotic spindle, CREST stained micronuclei, chromosome segregation and gamma-H2AX/53BP1 foci. results 1.6 GHz RF exposure modified proteins expression and morphology of HDF. specifically, the expression of different heat-shock proteins (HSP) (i.e., HSP-90, HSP-60, and HSP-25) and phospho-AKT were affected. In addition, both continuous and pulsed RF modified the cytoskeletal organization in HDF and increased the number of lysosomes, while the formation of autophagosomes was observed only after pulsed RF exposure. mitotic spindle anomalies were also found after exposure. however, no significant effect was observed on cell cycle, chromosome segregation, CREST-stained micronuclei and gamma-H2AX/53BP1 foci. conclusion the results of the present study show the absence of genotoxic damage in 1.6 GHz RF exposed HDF and, although mitotic spindle alterations were observed, they did not have an aneugenic effect. on the other hand, changes in some proteins expression and cell ultrastructure in exposed HDF suggest that RF can potentially induce cell alterations at the morphological and molecular levels.
2024
Pubblicato
Rilevanza internazionale
Articolo
Esperti anonimi
Settore MED/04
Settore MEDS-02/A - Patologia generale
English
Con Impact Factor ISI
radiofrequency
1.6 GHz
biological effects
protein expression
ultrastructure
EMF
mitotic spindle
genotoxicity
Massaro, L., De Sanctis, S., Franchini, V., Regalbuto, E., Alfano, G., Focaccetti, C., et al. (2024). Study of genotoxic and cytotoxic effects induced in human fibroblasts by exposure to pulsed and continuous 1.6 GHz radiofrequency. FRONTIERS IN PUBLIC HEALTH, 12 [10.3389/fpubh.2024.1419525].
Massaro, L; De Sanctis, S; Franchini, V; Regalbuto, E; Alfano, G; Focaccetti, C; Benvenuto, M; Cifaldi, L; Sgura, A; Berardinelli, F; Marinaccio, J; B...espandi
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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/2108/382143
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