Reciprocal Regulation Between the SCF ^FBXO24 Ubiquitin E3 Ligase and FoxP1 Protein

Forkhead Box Protein P1 (FoxP1) is a crucial transcriptional repressor essential for the development of the brain and heart. In adults, FoxP1 protein levels are dysregulated in a variety of disorders, including chronic obstructive pulmonary disease (COPD), atherosclerosis, and heart failure, where they causally contribute to disease pathogenesis. Although independent investigators have reported that FoxP1 protein is ubiquitinated, and E3 ligases have been identified for other FoxP family proteins, the identity of the E3 ligase that controls FoxP1 protein stability has remained unknown. Here, we identify FBXO24, a subunit of the Skp-Cullin-F-box (SCF) ubiquitin E3 ligase complex, as the regulator of FoxP1 ubiquitination and stability. Specifically, FBXO24 regulates K48 and K63 ubiquitination, complexes with, and co-localizes to the nucleus with FoxP1 protein in lung epithelial cells. Depleting FBXO24 reverses the unfolded protein response and cell death triggered by loss of FoxP1 protein in lung epithelium, suggesting a protective role. Additionally, FBXO24 knockout mice exhibit elevated FoxP1 levels in the lung and heart and reduced unfolded protein response activity after short-term cigarette smoke exposure. Intriguingly, we also uncovered bidirectional regulation, whereby FoxP1 protein binds to the FBXO24 promoter to suppress FBXO24 transcription. To our knowledge, this is the first evidence that a substrate for an E3 ligase can also regulate the E3 ligase and, therefore, control levels of other substrates, revealing new regulatory networks. Targeting FBXO24 may offer a therapeutic strategy for COPD, atherosclerosis, and heart failure by stabilizing FoxP1 levels in the heart and lungs and mitigating harmful downstream effects.