The Hsu Lab

The Hsu Lab

Morphogenetic Signaling Network in Development and Disease

The global objective is to understand how embryos develop from a single cell to a complex organism, how genes control the development of organs and how abnormal regulation of these genes resulted in human diseases. We investigate the genetic control of cellular signaling and signal transduction mechanisms. By delineating these regulatory networks underlying normal developmental processes, we hope to advance the knowledge base of human diseases, leading to novel molecular therapies for the treatment of these diseases. To achieve our goals, we focus on (1) characterizing morphogenetic signaling pathways that regulate mammalian development, (2) elucidating the mechanism by which these developmental signals regulate cell growth, differentiation and survival, and (3) creating mouse models to study the molecular basis of human diseases.

Member of the Wnt family proteins controls diverse developmental processes and several Wnt signaling molecules have been implicated in the development of different forms of cancer. We previously identified Axin as a negative regulator for the canonical Wnt pathway. Mutations of the Axin tumor suppressor have been linked to the development of human cancers, including hepatocellular carcinoma, medulloblastoma, colorectal and breast cancers. The Wnt-Axin signaling network is critical for mammalian development in health and disease.

Our current efforts concentrate on the importance of Wnt signaling and its interactions with other cellular signaling pathways during craniofacial morphogenesis, skeletal development, early embryonic and extraembryonic development, neural development, breast development, congenital deformities and cancers. The interplay of Wnt signaling with other regulatory pathways, such as FGF, BMP and SUMO (Small Ubiquitin-related Modifiers), appears to play an important role. We utilize a multidisciplinary approach, including genetics and genomics, developmental and stem cell biology, and protein chemistry and proteomics, and have developed several versatile tools uniquely suited for our studies.

See Current Projects and Publications for details.