Fragment-based discovery enables direct targeting of the melanoma oncogene MITF

Abstract

Despite the improvement of therapeutic options, melanoma patients with advanced metastatic disease are still in high need of durable treatments. Analysis of clinical data from patients receiving targeted and/or immunotherapy, along with genetic and functional studies in preclinical melanoma models, demonstrates the key role of the microphthalmia-associated transcription factor (MITF) throughout disease progression, and provides a solid rationale for its therapeutic inhibition. However, direct targeting of MITF or other basic helix-loop-helix leucine zipper (bHLH-LZ) transcription factors is unprecedented. Here, we report on the discovery of ligands for the DNA binding domain of MITF, using fragment-based screening (FBS) by nuclear magnetic resonance (NMR). Initial fragments, binding the kink pocket of MITF very weakly, are optimized to sub-micromolar affinities by structure-based design enabled by X-ray crystallography and biophysics. Furthermore, NMR experiments and molecular dynamics simulations reveal a dynamic conformational exchange between helices in the asymmetric homodimer, a phenomenon that is perturbed by ligand binding. This work advances our knowledge on direct targeting of bHLH-LZ DNA binding domains and sets the basis to further explore pharmacological inhibition of MITF.

Affiliated Institutions

• University of Massachusetts Amherst US
• Med Discovery (Switzerland) CH
• Novartis (United States) US
• Novartis (Switzerland) CH
• Technical University of Munich DE
• ETH Zurich CH

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