Structural characterization and inhibition of the interaction between ch-TOG and TACC3
Citation
Shelford, J., Burgess, S.G., Rostkova, E., Richards, M.W., Larocque, G., Sampson, J., Tiede, C., Fielding, A.J., Daviter, T., Tomlinson, D.C., Calabrese, A.N., Pfuhl, M., Bayliss, R., and Royle, S.J. (2025). Structural characterization and inhibition of the interaction between ch-TOG and TACC3. J Cell Biol 224(6), e202407002.
Abstract
The mitotic spindle is a bipolar array of microtubules, radiating from the poles which each contain a centrosome, embedded in pericentriolar material. Two proteins, ch-TOG and TACC3, have multiple functions at the mitotic spindle due to operating either alone, together, or in complex with other proteins. To distinguish these activities, we need new molecular tools to dissect their function. Here, we present the structure of the α-helical bundle domain of ch-TOG that mediates its interaction with TACC3 and a structural model describing the interaction, supported by biophysical and biochemical data. We have isolated Affimer tools to precisely target the ch-TOG-binding site on TACC3 in live cells, which displace ch-TOG without affecting the spindle localization of other protein complex components. Inhibition of the TACC3-ch-TOG interaction led unexpectedly to fragmentation of the pericentriolar material in metaphase cells and delayed mitotic progression, uncovering a novel role of TACC3-ch-TOG in maintaining pericentriolar material integrity during mitosis to ensure timely cell division.
Notes
JS and SGB are co-first authors.
SJR, RB and MP are co-corresponding authors.