Department of
Biological Chemistry & Molecular Pharmacology

Cigall Kadoch

Assistant Professor
Dana-Farber Cancer Institute
450 Brookline Avenue
Boston, MA 02215

Recent whole-genome sequencing studies of human cancers have heralded the discovery of several new, surprising classes of genes not previously known to play causal roles in cancer. One of the most significant findings unveiled in these genomic studies is the high mutation frequency in genes involved in epigenomic and chromatin biology-based processes. The most frequent and wide-spread among them are mutations in the genes encoding subunits of the mSWI/SNF (BAF) ATP-dependent chromatin remodeling complexes, which we recently determined to be broadly recurrent in >20% of all human cancers (Kadoch et al, Nature Genetics 2013). To investigate the underlying mechanism, we have studied a rare, genomically well-defined cancer type, human synovial sarcoma (SS) in which 100% of tumors have a precise translocation involving a specific subunit, SS18, indicating that the translocation is the initiating oncogenic event. The utility of this disease setting has provided us with a powerful foundation toward understanding the oncogenic mechanisms directed by altered chromatin remodeling complexes. We showed that perturbation via the SS18-SSX fusion usurps BAF complex protein subunit composition, and that this restructuring mistargets complexes to specific oncogenic loci to drive proliferation (Kadoch and Crabtree, Cell 2013). Excitingly, we demonstrate the dynamic reversibility of this process in this setting and extend these approaches and findings to other cancer types with BAF complex mutations.

The central focus of our laboratory is to understand BAF complex pathway-of-assembly, to determine the complex subunit and associated protein factor composition of oncogenic BAF complexes, and to define the mechanistic basis of locus-specific and genome-wide retargeting. These key goals build upon our unique expertise at the border of biochemistry and chromatin regulation, and create for a new synthesis of concepts and methodologies as novel strategies to target a broad range of human cancers.