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In the current study, the effects of the reactive oxygen species (ROS) generator 2,2 '-azobis(2-amidinopropane) dihydrochloride (AAPH) on extracellular and intracellular ROS production in human keratinocytes (HACAT) were studied. AAPH is a water-soluble compound able to generate ROS at known and constant rates at 37 degrees C. The short treatment (2 h) with AAPH brought a significant dose-dependent increase in NADPH oxidase activity in intact keratinocytes. The long-term treatment (24 h) with AAPH led to a persistent increase in NADPH oxidase activity for up to 48 hour following the AAPH removal from cell incubation medium. ROS and nitric oxide levels, lipoperoxidation, intracellular calcium, mitochondrial superoxide production, and membrane potential were significantly modified in AAPH-treated HACAT. Superoxide dismutase (SOD) and/or catalase addition to HACAT revealed that untreated keratinocytes produce mostly superoxide anion (O-2(-)), while AAPH-treated keratinocytes overproduce hydrogen peroxide (H2O2) in extracellular medium. H2O2 is particularly stable and plays important roles in several cell signaling pathways. Taken together, our findings suggest a cost-effective and easily reproducible in vitro model of stressed human keratinocytes releasing significantly elevated ROS amounts in extracellular medium with respect to control keratinocytes. The possible application of the proposed model for keratinocytes-melanocytes cross-talk studies is also suggested. The model of AAPH-stressed human keratinocytes described here can represent a useful tool for redox cross-talk studies between keratinocytes and other skin cell types, and applied for researches regarding skin pathologies associated with oxidative stress.
ROS-challenged keratinocytes as a new model for oxidative stress-mediated skin diseases / Barygina, Victoria; Becatti, Matteo; Lotti, Torello; Moretti, Silvia; Taddei, Niccolò; Fiorillo, Claudia. - In: JOURNAL OF CELLULAR BIOCHEMISTRY. - ISSN 0730-2312. - ELETTRONICO. - 120:1(2019), pp. 28-36. [10.1002/jcb.27485]
ROS-challenged keratinocytes as a new model for oxidative stress-mediated skin diseases
Barygina, Victoria;Becatti, Matteo;Lotti, Torello;Moretti, Silvia;Taddei, Niccolò;Fiorillo, Claudia
2019
Abstract
In the current study, the effects of the reactive oxygen species (ROS) generator 2,2 '-azobis(2-amidinopropane) dihydrochloride (AAPH) on extracellular and intracellular ROS production in human keratinocytes (HACAT) were studied. AAPH is a water-soluble compound able to generate ROS at known and constant rates at 37 degrees C. The short treatment (2 h) with AAPH brought a significant dose-dependent increase in NADPH oxidase activity in intact keratinocytes. The long-term treatment (24 h) with AAPH led to a persistent increase in NADPH oxidase activity for up to 48 hour following the AAPH removal from cell incubation medium. ROS and nitric oxide levels, lipoperoxidation, intracellular calcium, mitochondrial superoxide production, and membrane potential were significantly modified in AAPH-treated HACAT. Superoxide dismutase (SOD) and/or catalase addition to HACAT revealed that untreated keratinocytes produce mostly superoxide anion (O-2(-)), while AAPH-treated keratinocytes overproduce hydrogen peroxide (H2O2) in extracellular medium. H2O2 is particularly stable and plays important roles in several cell signaling pathways. Taken together, our findings suggest a cost-effective and easily reproducible in vitro model of stressed human keratinocytes releasing significantly elevated ROS amounts in extracellular medium with respect to control keratinocytes. The possible application of the proposed model for keratinocytes-melanocytes cross-talk studies is also suggested. The model of AAPH-stressed human keratinocytes described here can represent a useful tool for redox cross-talk studies between keratinocytes and other skin cell types, and applied for researches regarding skin pathologies associated with oxidative stress.I documenti in FLORE sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.