Transcription factor SP1 and oncoprotein PPP1R13L regulate nicotine-induced epithelial-mesenchymal transition in lung adenocarcinoma via a feedback loop

Tobacco remains the most common environmental carcinogen leading to the occurrence and development of lung cancer. Nicotine, a tumor promoter in cigarette smoke, has been shown to induce epithelial-mesenchymal transition (EMT), a cellular program required for the invasion and metastasis in tumor cells. Specificity Protein 1 (SP1) is a well-characterized transcription factor that can regulate the EMT process via transcriptionally acti-vating E-cadherin expression. Protein Phosphatase 1 Regulatory Subunit 13 Like (PPP1R13L) is a newly iden-tified oncoprotein previously reported to inhibit the transcriptional activity of SP1 via a direct protein-protein interaction. To reveal the underlying implication of the interconnections between PPP1R13L and SP1 in the nicotine-induced EMT process, the present study established an EMT cell model of lung cancer using 1 mu M of nicotine, a dose close to human exposure, in which an alternate fluctuation in the expression of PPP1R13L and SP1 was captured. Subsequently, the direct inhibition of SP1 by PPP1R13L was demonstrated to be a critical mechanism underlying the involvement of PPP1R13L in the nicotine-induced EMT process. More interestingly, SP1 was further shown to transcriptionally activate PPP1R13L expression in a feedback manner. In addition, PPP1R13L and SP1 expression was found to be closely associated with the clinicopathological characteristics of lung cancer patients. Here we proposed a novel feedback regulation mechanism, in which SP1 may transcrip-tionally activate the PPP1R13L gene expression in the early stage of lung cancer to promote tumor growth, while the accumulation of PPP1R13L drives tumor invasion and metastasis by direct repression of SP1. Thus, this unique feedback loop between PPP1R13L and SP1 may play a vital role in chemical carcinogenesis and serve as a potential intervention target for lung cancer progression attributable to cigarette smoking.

Automated summary

Tobacco, specifically nicotine, plays a significant role in the development and progression of lung cancer through the induction of epithelial-mesenchymal transition (EMT). This study reveals the interplay between PPP1R13L and SP1 in nicotine-induced EMT, showing that PPP1R13L inhibits the transcriptional activity of SP1 while also being transcriptionally activated by SP1 in a feedback loop. The expression of PPP1R13L and SP1 is associated with the clinicopathological characteristics of lung cancer patients.