The b-HLH-LZ domain of c-Myc is a key target for the development of cancer therapies by blunting its binding to DNA with cell penetrant b-HLH-LZs and/or by stabilizing it into a state that cannot recognize Max to activate and amplify transcription of oncogenic genes. Although recent milestones have been reached with DNA binding blunting of c-Myc with the cell penetrant b-HLH-LZ Omomyc, the targeting of its b-HLH-LZ with small molecules, peptides, or proteins is lagging. As reviewed recently, the main problem relies in the intrinsically disordered nature of the b-HLH-LZ of c-Myc. This greatly complicates the classical approach of targeting a docking site with inhibitors. The solution state methods such as NMR are progressing towards the characterization of the ensembles of structures or states the b-HLH-LZ can adopt. However, the delicate balance that dictates the population of these dynamically interchanging states relies on its primary structure and the weak polar, electrostatic and hydrophobic interactions allowed. In this context, it is of the utmost importance to study the b-HLH-LZ of c-Myc in its WT background and avoid the use of tags such as His-tags. These tags could disrupt the balance of forces which could alter the conformational and physical transitions and states it can undergo and adopt. Here, we describe a robust protocol to express the WT b-HLH-LZ in E. coli and purify it, without the need of tags, to obtain the required quantities for solution state biophysical characterization such as NMR.
Keywords: NMR; Protein expression and purification; b-HLH-LZ; c-Myc.