Objective: This study aims to establish a theoretical foundation for the clinical treatment of lung cancer by investigating the regulatory role of CRABP2 in the ROS/Src signaling pathway, specifically in accelerating the migration and metastasis of lung cancer.
Methods: Lung cancer mouse models were established using BALB/c-nu mice, randomly assigned to the control group (NC group) and the experimental group (mimic group). Tumor volume was precisely observed. The impact of CRABP2 on lung cancer migration and metastasis was analyzed through hematoxylin and eosin (H&E) staining and histochemical staining observation. Protein expression analysis was employed to assess CRABP2, ESR1, NOX1, NOX4, p-Src, and p-FAK levels, shedding light on the underlying mechanism. CRABP2's influence on lung cancer migration and metastasis was further investigated using scratch and Transwell experiments.
Results: The findings revealed that the mimic group, with enhanced CRABP2 expression, exhibited a higher proliferation rate and increased migration and metastasis capabilities in lung cancer. Protein expression analysis demonstrated that CRABP2 and ESR1 positively influenced the ROS/Src pathway, promoting lung cancer migration and metastasis. Scratch and Transwell's experiments supported the fact that CRABP2 significantly accelerated lung cancer migration and metastasis.
Conclusions: CRABP2 plays a crucial role in expediting lung cancer migration and metastasis by upregulating ESR1 expression, consequently activating the ROS/Src pathway. This study introduces a novel therapeutic avenue for the clinical treatment of lung cancer, offering a theoretical framework for advancing lung cancer treatment strategies.