Conclusion
CTTN transcriptional is significantly influenced by inflammatory factors and promoter variants. Cortactin, essential in mitigating inflammatory edema, presents a promising therapeutic target to alleviate severe inflammatory disorders.
Methods
We transfected human lung ECs with a full-length CTTN promoters linked to a luciferase reporter to measure promoter activity. SNP-containing CTTN promoter was created via site-directed mutagenesis. Transfected ECs were exposed to LPS (PAMP), TNF-α (cytokine), cyclic stretch (CS), FG-4592 (HIF-inducer), NRF2 (anti-oxidant modulator), FTY-(S)-phosphate (endothelial barrier enhancer), and 5'-Aza (demethylation inducer). Immunohistochemistry was used to assess cortactin expression in mouse lungs exposed to LPS.
Results
LPS, TNF-α, and 18%CS significantly increased CTTN promoter activities in a time-dependent manner (P<0.05). The variant rs34612166 (-212T/C) markedly enhanced LPS- and 18%CS- induced CTTN promoter activities (P<0.05). FG-4592 significantly boosted CTTN promoter activities (P<0.01), which were partially inhibited by HIF1α (KC7F2) and HIF2α (PT2385) inhibitors (P<0.05). NRF2 activator Bixin increased CTTN promoter activities, whereas NRF2 inhibitor Brusatol reduced them (P<0.05). 5'-Aza increased CTTN promoter activities by 2.9-fold (P<0.05). NF-κB response element mutations significantly reduced CTTN promoter activities response to LPS and TNFα. FTY-(S)-phosphate significantly increased CTTN promoter activities in 24 h. In vivo, cortactin levels were significantly elevated in inflammatory mouse lungs exposed to LPS for 18 h.