HNF4α-CDKL3 axis restricts MASLD progression by targeting FoxO1 via non-canonical phosphorylation

Abstract

Background and Aims: Metabolic dysfunction-associated steatotic liver disease (MASLD) is a worldwide disease with a broad spectrum of symptoms. Though being mild at early stages, further development of MASLD causes steatohepatitis, cirrhosis, liver cancers and accompanied diabetes. Discovery of the critical regulators in MASLD progression hold great values in both basic and translational medicine. Approach and Results: Herein, we identified Cyclin-dependent kinase like 3 (CDKL3) as a primary guardian against MASLD progression. Mice with liver-specific Cdkl3 ablation developed severe MASLD-related hepatic inflammation, fibrosis and diabetes. Mechanism-wise, CDKL3 directly phosphorylates FoxO1 on an unconventional site for the ubiquitination-dependent degradation of FoxO1, thereby remarkably alleviating glycogen and lipid accumulation and essentially preventing the onset of higher MASLD stages. Moreover, hepatic CDKL3 is a direct target gene of HNF4α. HNF4α is inhibited during MASLD, which led to diminished CDKL3 expression. The CDKL3-mediated crosstalk of HNF4α and FoxO1 hence forms a feedback loop in MASLD progression. Conclusions: We unearthed an alternative but critical regulatory path of FoxO1 by HNF4α-CDKL3 axis. CDKL3 serves as a guardian against MASLD and also may function as a prognosis indicator of FoxO1 inhibitor in MASLD treatment.