KANK proteins link integrin adhesions to the cortical microtubule stabilising complex (CMSC) through interactions with the adhesion adaptor talin. However, how KANK proteins are regulated remains unclear. Here we show that the KN domain of KANK proteins contains separable regions that mediate talin binding and a conserved intramolecular interaction. Using fluorescence polarisation, NMR spectroscopy and structural analysis, we map an interaction between the N-terminal KN domain and the C-terminal ankyrin repeat domain and identify residues 60-68 of the KN domain as required for this intramolecular interaction. In contrast, the canonical LD motif within residues 30-60 mediates binding to talin. Deletion of residues 60-68 disrupts the intramolecular interaction while preserving talin binding, demonstrating that the KN domain contains distinct modules for talin engagement and intramolecular regulation. This regulatory architecture is conserved across the KANK family, although sequence variation modulates the strength of the intramolecular interaction. Together, these findings identify a modular organisation within the KANK KN domain that separates talin recognition from intramolecular regulation and is consistent with an autoinhibitory mechanism.
Khan, R. B., Kallem, T., Singh, A. K., Goult, B. T.
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