TGF-β and HIPPO Signaling Pathways Interplay in Distinct Hepatic Contexts

The liver plays a crucial role in maintaining whole-body homeostasis in both health and disease, engaging in important communication with other organs. The coordination of multiple signaling pathways is essential for facilitating such interorgan communication. Among these pathways, the transforming growth factor-β (TGF-β) and HIPPO signaling pathways serve critical functions as tumor suppressors, exerting pivotal control over liver development, size, and tissue regeneration. In the normal hepatic context, these pathways exhibit significant crosstalk through various molecular mechanisms. This interaction is context-dependent within the hepatic microenvironment, regulating diverse cellular processes from development to adulthood. Disruptions in the regulation of these pathways and their crosstalk contribute to the onset of liver diseases. This review delves into the intricate interplay between the canonical pathways of TGF-β and HIPPO, exploring their involvement in liver development and various pathologies such as fibrosis, cirrhosis, and tumorigenesis. Special attention is given to their impact on the epithelial-to-mesenchymal transition process, a crucial element associated with liver wound healing and cancer metastasis. By addressing these molecular interactions, the review aimed to provide insights into the underlying mechanisms that influence liver physiology and pathology, offering potential avenues for therapeutic interventions.