Background: Exposure of human lung epithelial cells to the oxidant pollutant ozone (O3) alters cell Cl− currents inducing an outward rectifier effect. Among the various Cl− channels, ClC-2 and ORCC seemed to be involved in this response. Objectives: To identify the channel related to O3 induced current changes. Results: Down regulating the expression of ORCC and ClC-2 genes and analyzing the membrane current show that the enhancement of the current disappeared when ORCC was silenced. The contribution of ORCC and ClC-2 channels in control and O3 treated cells was obtained by a mathematical approach. Conclusion: We suggest that O3 activates ORCC channels and slightly inhibited ClC-2 channels in the negative voltage range. These findings open the possibility of identifying the biomolecular changes induced by O3 allowing a possible pharmacological intervention towards chloride current due to oxidative stress.

The role of pulmonary ORCC and CLC‑2 channels in the response to oxidative stress

Rita Canella
Primo
Conceptualization
;
Mascia Benedusi
Secondo
Investigation
;
Marta Martini
Data Curation
;
Anna Guiotto
Data Curation
;
Franco Cervellati
Penultimo
Software
;
Giuseppe Valacchi
Ultimo
Supervision
2021

Abstract

Background: Exposure of human lung epithelial cells to the oxidant pollutant ozone (O3) alters cell Cl− currents inducing an outward rectifier effect. Among the various Cl− channels, ClC-2 and ORCC seemed to be involved in this response. Objectives: To identify the channel related to O3 induced current changes. Results: Down regulating the expression of ORCC and ClC-2 genes and analyzing the membrane current show that the enhancement of the current disappeared when ORCC was silenced. The contribution of ORCC and ClC-2 channels in control and O3 treated cells was obtained by a mathematical approach. Conclusion: We suggest that O3 activates ORCC channels and slightly inhibited ClC-2 channels in the negative voltage range. These findings open the possibility of identifying the biomolecular changes induced by O3 allowing a possible pharmacological intervention towards chloride current due to oxidative stress.
2021
Canella, Rita; Benedusi, Mascia; Martini, Marta; Guiotto, Anna; Cervellati, Franco; Valacchi, Giuseppe
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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/11392/2461162
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