Smoking-Mediated miR-301a/IRF1 Axis Controlling Immunotherapy Response in Lung Squamous Cell Carcinoma Revealed by Bioinformatic Analysis
Alina M. Perevalova, Vladislav V. Kononchuk, Tatiana S. Kalinina, Vadim V. Kozlov, Lyudmila F. Gulyaeva, Vladimir O. Pustylnyak

TL;DR
This study identifies a molecular pathway involving miR-301a and IRF1 that links smoking to immune response in lung squamous cell carcinoma and affects immunotherapy outcomes.
Contribution
The study reveals a novel smoking-regulated miR-301a/IRF1 axis that influences immunotherapy response in lung squamous cell carcinoma.
Findings
Increased miR-301a and decreased IRF1 levels were observed in lung squamous cell carcinoma tumor samples.
IRF1 regulates immune infiltration and immune checkpoint molecule expression, impacting immunotherapy efficacy.
The miR-301a/IRF1 axis is suggested to modulate antitumor immune responses in lung squamous cell carcinoma.
Abstract
The impact of smoking on the development of lung cancer is widely acknowledged; however, all of the molecular processes behind this effect, as well as their possible clinical applications, are still unclear. The current study aimed to identify and describe a potential smoking-related molecular mechanism in squamous cell lung cancer, with its possible connection to the immunotherapy response. By analyzing bioinformatic data from different databases and conducting experiments on clinical tumor samples, we demonstrated the connection between the microRNA mir-301a and the transcription factor IRF1, which demonstrated the capacity to affect many immune pathways in lung cancer and the efficacy of treatment with immune checkpoint inhibitors. These findings not only clarify certain molecular characteristics of squamous cell lung cancer but also open up new avenues for future immunotherapy…
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Taxonomy
TopicsFerroptosis and cancer prognosis · Cancer Immunotherapy and Biomarkers · RNA modifications and cancer
