Objective Acute lung injury (ALI) is characterized by inflammation and oxidative stress. Nuclear factor-kappaB (NF-κB) mediates the expression of various inflammation-related genes, including the NADPH oxidase family. This study aimed to identify the potential regulatory role of NF-κB on NADPH oxidases in tumor necrosis factor-α (TNF-α)-induced oxidative stress in human alveolar epithelial cells. Methods A549 cells were treated with TNF-α for 24 h to establish ALI cell models. RT-PCR, western blot, assessment of oxidative stress, Alibaba 2.1 online analysis, electrophoretic mobility shift assays and luciferase reporter analysis were employed to identify the potential regulatory role of NF-κB on NADPH oxidases in TNF-α-induced oxidative stress in human alveolar epithelial cells. Results The expression of NF-κB/p65 was notably upregulated in TNF-α-stimulated A549 cells. NF-κB knockdown by siRNA significantly inhibited the TNF-α-induced oxidative stress. Moreover, NF-κB/p65 siRNA could inhibit the activation of NOX1, NOX2 and NOX4 mRNA and protein expression in TNF-α-stimulated A549 cells. The next study demonstrated that NF-κB activated the transcription of NOX1 by binding to the -261 to -252 bp (NOX1/κB2, TAAAAATCCC) region of NOX1 promoter in TNF-α-stimulated A549 cells. Conclusion Our data demonstrated that NF-κB can aggravate TNF-α-induced ALI by regulating the oxidative stress response and the expression of NOX1, NOX2 and NOX4. Moreover, NF-κB could promote the NOX1 transcriptional activity via binding its promoter in TNF-α-stimulated A549 cells.
Objective Acute lung injury (ALI) is characterized by inflammation and oxidative stress. Nuclear factor-kappaB (NF-κB) mediates the expression of various inflammation-related genes, including the NADPH oxidase family. This study aimed to identify the potential regulatory role of NF-𝜅B on NADPH oxidases in TNF-α-induced oxidative stress in human alveolar epithelial cells. Methods Type II alveolar epithelial cell-derived A549 cells were treated with TNF-α for 24 hours to establish ALI cell models. RT-PCR, western blot, DCFH-DA ROS assay, Alibaba 2.1 online analysis, electrophoretic mobility shift assays and luciferase reporter analysis were employed to identify the potential regulatory role of NF-𝜅B on NADPH oxidases in TNF-α-induced oxidative stress in human alveolar epithelial cells. Results The expression of NF-κB/p65 was notably upregulated in TNF-α-stimulated A549 cells. NF-κB knockdown by siRNA significantly inhibited the TNF-α-induced ROS generation. Moreover, NF-𝜅B/p65 siRNA could inhibite the activation of NOX1, NOX2 and NOX4 mRNA and protein expression in TNF-α-stimulated A549 cells. The next study demonstrated that NF-𝜅B activated the transcription of NOX1 by binding to the -261 to -252 bp (NOX1/κB2, TAAAAATCCC) region of NOX1 promoter in TNF-α-stimulated A549 cells. Conclusion Our data demonstrated that NF-κB can aggravate TNF-α-induced ALI by regulating the activation of ROS generation and the expression of NOX1, NOX2 and NOX4. Moreover, NF-𝜅B could promote the NOX1 transcriptional activity via binding its promoter in TNF-α-stimulated A549 cells.
Objective: To study the roles of Nrf2 in acute lung injury (ALI) pathogenesis by investigating the effects of Nrf2 on regulating oxidative stress damage in TNF-α-induced type II alveolar epithelial cells (T2AECs).Methods: T2AECs were transfected with Nrf2 siRNA and overexpression vectors for six hours before being induced by TNF-α for 24 hours. Subsequently, levels of interleukins (IL-6 and IL-8), reactive oxygen species (ROS), malondialdehyde (MDA), total antioxidation capability (T-AOC), Nrf2, NOX1 and NF-kB were measured. Additionally, potential Nrf2 binding site in NOX1 promoter was predicted by AliBaba2.1 and two recombinant vectors, namely “pGL3-NOX1-1500” and “pGL3-NOX1-1489, were constructed by inserting the sequence of NOX1 promoter in full-length and that in the absence of Nrf2 binding site to pGL3 basic vector. T2AECs were transfected with these vectors prior to TNF-α induction and the luciferase activity was measured.Results: Levels of IL-6, IL-8, ROS and MDA were increased (P<0.05) while T-AOC was decreased in TNF-α-induced A549 cells after the transfection of Nrf2 siRNA vector (P<0.05). In contrast, concentrations of IL-6, IL-8, ROS and MDA were decreased (P<0.05) whereas T-AOC was increased after the transfection of Nrf2 overexpression vector (P<0.05). NOX1 promoter possesses one Nrf2 binding site. Cells transfected by “pGL3-NOX1-1500” vector had the highest luciferase activity, followed by cells transfected by “pGL3-NOX1-1489” vector and the control cells (P<0.05).Conclusion: Nrf2 modulates NOX1 expression via binding to its promoter, by which against TNF-α-induced oxidative stress damage in T2AECs. Thus, Nrf2 might be a therapeutic target for ALI.
Acute lung injury causes severe inflammation and oxidative stress in lung tissues. In this study, we analyzed the potential regulatory role of nuclear factor erythroid-2-related factor 2 (Nrf2) on NADPH oxidase 1 (NOX1) in tumor necrosis factor-α (TNF-α)-induced inflammation and oxidative stress in human type II alveolar epithelial cells. In this study, A549 cells were transfected with Nrf2 siRNA and overexpression vectors for 6 h before being induced by TNF-α for 24 h. TNF-α upregulated the expression of NOX1 and Nrf2 in A549 cells. Furthermore, overexpression of Nrf2 could reduce TNF-α-induced NF-κB mRNA and protein expression after transfection with the Nrf2 siRNA vector, and the levels of IL-6, IL-8, ROS, and malondialdehyde (MDA) in TNF-α-induced A549 cells increased, while the level of total antioxidation capability (T-AOC) decreased. On the other hand, the overexpression of Nrf2 decreased the levels of IL-6, IL-8, ROS, and MDA, while increasing T-AOC. The mRNA and protein levels of NOX1 were dramatically increased by TNF-α, while those changes were notably suppressed by Nrf2 overexpression. Further studies demonstrated that Nrf2 sup-pressed NOX1 transcription by binding to the -1199 to -1189 bp (ATTACACAGCA) region of the NOX1 promoter in TNF-α-stimulated A549 cells. Our study suggests that Nrf2 may bind to and regulate NOX1 expression to antagonize TNF-α-induced inflammatory reaction and oxidative stress in A549 cells.
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