Edmond J Feris scite author profile

Our primary goal is to therapeutically target the oncogenic transcription factor MYC to stop tumor growth and cancer progression. Here, we report aspects of the biophysical states of the MYC protein and its interaction with one of the best-characterized MYC cofactors, TRansactivation/tRansformation-domain Associated Protein (TRRAP). The MYC:TRRAP interaction is critical for MYC function in promoting cancer. The interaction between MYC and TRRAP occurs at a precise region in the MYC protein, called MYC Homology Box 2 (MB2), which is central to the MYC transactivation domain (TAD). Although the MYC TAD is inherently disordered, this report suggests that MB2 may acquire a defined structure when complexed with TRRAP which could be exploited for the investigation of inhibitors of MYC function by preventing this protein-protein interaction (PPI). The MYC TAD, and in particular the MB2 motif, is unique and invariant in evolution, suggesting that MB2 is an ideal site for inhibiting MYC function.

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Rapid induction of apoptosis in chronic lymphocytic leukemia cells by the microtubule disrupting agent BNC105

Bates

Feris

Danilov

et al. 2016

Cancer Biology & Therapy

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Microtubule targeting agents, such as vinblastine, are usually thought to arrest cells in mitosis and subsequently induce apoptosis. However, they can also cause rapid induction of apoptosis in a cell-cycle phase independent manner. BNC105 is a novel vascular and microtubule disrupting drug that also induces apoptosis rapidly but with markedly increased potency compared to vinca alkaloids and combretastatin A4. BNC105 binds to the colchicine-binding site on tubulin resulting in activation of c-Jun N-terminal kinase (JNK), phosphorylation of ATF2, and induction of ATF3 and Noxa leading to acute apoptosis in chronic lymphocytic leukemia (CLL) cells. Apoptosis induced by BNC105 is dependent upon both JNK activation and Noxa induction. Normal leukocytes and one CLL sample also exhibited JNK activation but not Noxa induction and were resistant to BNC105. This study emphasizes the importance of Noxa and JNK for induction of apoptosis in CLL cells by microtubule targeting drugs, and highlights the potential of BNC105 as a potent therapeutic to treat haematopoietic malignancies.

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Luminescence complementation technology for the identification of MYC:TRRAP inhibitors

2021

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Mechanism-based targeted therapies have exhibited remarkable success in treating otherwise untreatable or unresectable cancers. Novel targeted therapies that correct dysregulated transcriptional programs in cancer are an unmet medical need. The transcription factor MYC is the most frequently amplified gene in human cancer and is overexpressed because of mutations in an array of oncogenic signaling pathways. The fact that many cancer cells cannot survive without MYC – a phenomenon termed “MYC addiction” – provides a compelling case for the development of MYC-specific targeted therapies. We propose a new strategy to inhibit MYC function by disrupting its essential interaction with TRRAP using small molecules. To achieve our goal, we developed a platform using luminescence complementation for identifying small molecules as inhibitors of the MYC:TRRAP interaction. Here we present validation of this assay by measuring the disruption of TRRAP binding caused by substitutions to the invariant and essential MYC homology 2 region of MYC.

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Edmond J Feris

Formation of a structurally-stable conformation by the intrinsically disordered MYC:TRRAP complex

Rapid induction of apoptosis in chronic lymphocytic leukemia cells by the microtubule disrupting agent BNC105

Luminescence complementation technology for the identification of MYC:TRRAP inhibitors

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