Targeting DCAF5 suppresses SMARCB1-mutant cancer by stabilizing SWI/SNF

Dr. Sandi Radko-Juettner is currently the Research Program Manager for the Hematological Malignancies Program at St. Jude Children’s Research, where she extensively collaborates on projects aimed at improving cure rates for childhood leukemias and lymphomas while minimizing treatment-related adverse effects. The research efforts she manages focus on  preclinical studies validating oncogenic drivers and testing new therapies in engineered mouse models and patient-derived xenografts, as well as novel discoveries in pharmacogenetics for both clinically problematic hematological malignancies and less well-characterized malignancies. Dr. Radko-Juettner graduated in 2023 with her PhD from the St. Jude Graduate School of Biomedical Sciences, completing her thesis work in the lab of Dr. Charlie Roberts. Her work in the lab focused on mechanistic studies of novel vulnerabilities in pediatric rhabdoid tumors as well as resistance mechanisms to epigenetic drugs. During her time in the Roberts lab, she was awarded with the St. Jude Doctoral Research Achievement Award as well as an NIH NCI F31 award. Her research contributions have led to co-authored papers in several prestigious journals including Nature, Molecular Cell, and Cell Reports.

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Dr. Hong Yue is a prominent Staff Scientist at the Dana-Farber Cancer Institute (DFCI) and Harvard Medical School, renowned for her expertise in assay development and molecular biology research. Her professional journey is marked by a steadfast commitment to propelling the fields of drug discovery and diagnostics forward. Dr. Yue's work has significantly enhanced the scientific community's understanding of disease mechanisms and has led to the creation of cutting-edge therapeutic strategies. During her Ph.D. studies, Dr. Yue concentrated on the Wnt signaling pathway, where she excelled in designing selective inhibitors of GSK-3β. Her innovative efforts in modulating this vital pathway were complemented by her transformative work with the HDAC inhibitor Vorinostat, showcasing her exceptional talent for altering molecular pathways to unlock potential therapeutic uses. Dr. Yue's postdoctoral research in Marc Vidal's lab at DFCI allowed her to refine her skills in high-throughput screening, automated liquid handling, and next-generation sequencing technologies, further enhancing her scientific repertoire. In her current role at DFCI, Dr. Yue continues to be a trailblazer in the realm of drug discovery and diagnostic research. She has played a crucial role in the development of biochemical and cellular assays aimed at studying target protein degradation. Her pivotal contributions have led to the identification of novel drug targets, co-authorship of a paper in the prestigious journal Nature, and first authorship in both Cancer Cell and Cell Reports Methods. Dr. Yue's dedication to innovation is also evident in her instrumental role in developing new assays, which has culminated in the publication of 13 research articles and the filing of 2 patents. Dr. Hong Yue's distinguished career and her ongoing contributions to the field make her a vital asset to the scientific community, particularly in the pursuit of advancing molecular biology research and therapeutic discovery.