Competition between two high- and low-affinity protein-binding sites in myosin VI controls its cellular function

Abstract: Myosin VI is involved in many cellular processes ranging from endocytosis to transcription. This multifunctional potential is achieved through alternative isoform splicing and through interactions of myosin VI with a diverse network of binding partners. However, the interplay between these two modes of regulation remains unexplored. To this end, we compared two different binding partners and their interactions with myosin VI by exploring the kinetic properties of recombinant proteins and their distribution in … Show more

“…We extracted an association rate constant of 1.72 µM -1 s -1 and dissociation rate constant of 3.3 s -1 , giving a Kd of 1.9 µM. This is consistent with the Equilibrium Dissociation constant previously derived from titrations [6]. The second phase in all three traces was also fitted to a single exponential function ( Figure 2C), however the derived rate constants (average 2.1 s -1 ) were independent of NDP52 concentration ( Figure 2D).…”

“…NDP52 is a dimeric protein ( Figure 3B) and therefore capable of dimerizing MVI with one CBD bound to each monomer. However, tDab2, which also has been previously shown to be able to dimerize MVI [6], is monomeric ( Figure 3B). This finding reinforces our previous conclusion that dimerization is an intrinsic property of MVI.…”

“…As with NDP52, tDab2 sequestered the CBD, preventing the interaction between the two domains ( Figures 1B and 1C), suggesting that Dab2 is also able to disrupt the intramolecular back-folding in both isoforms. However, tDab2 was not as efficient as NDP52, which is consistent with its weaker affinity for MVI [6].…”

“…To address whether back-folding is a generic feature of MVI, independent of the isoform, we investigated the conformation of LI-MVI. We utilised a previously employed FRET-based assay [4,6,20] by titrating Alexa555-CBD against FITC-MVI814-1091 (containing the LI) to assess whether there is an interaction between the N-and C-terminal tail domains, as would occur in a back-folded state. A significant concentration-dependent change in FRET was measured, indicating that the two domains are in close proximity ( Figure 1B).…”

“…Unfolding of the NI isoform subsequently exposes dimerization sites, leading to protein oligomerization [4], similar to the LI isoform with binding partners [6]. There is a debate as to whether MVI dimerizes intrinsically or through a binding partner mediator [4,13,[22][23][24].…”

Binding partners regulate unfolding of myosin VI to activate the molecular motor

“…We extracted an association rate constant of 1.72 µM -1 s -1 and dissociation rate constant of 3.3 s -1 , giving a Kd of 1.9 µM. This is consistent with the Equilibrium Dissociation constant previously derived from titrations [6]. The second phase in all three traces was also fitted to a single exponential function ( Figure 2C), however the derived rate constants (average 2.1 s -1 ) were independent of NDP52 concentration ( Figure 2D).…”

“…NDP52 is a dimeric protein ( Figure 3B) and therefore capable of dimerizing MVI with one CBD bound to each monomer. However, tDab2, which also has been previously shown to be able to dimerize MVI [6], is monomeric ( Figure 3B). This finding reinforces our previous conclusion that dimerization is an intrinsic property of MVI.…”

“…As with NDP52, tDab2 sequestered the CBD, preventing the interaction between the two domains ( Figures 1B and 1C), suggesting that Dab2 is also able to disrupt the intramolecular back-folding in both isoforms. However, tDab2 was not as efficient as NDP52, which is consistent with its weaker affinity for MVI [6].…”

“…To address whether back-folding is a generic feature of MVI, independent of the isoform, we investigated the conformation of LI-MVI. We utilised a previously employed FRET-based assay [4,6,20] by titrating Alexa555-CBD against FITC-MVI814-1091 (containing the LI) to assess whether there is an interaction between the N-and C-terminal tail domains, as would occur in a back-folded state. A significant concentration-dependent change in FRET was measured, indicating that the two domains are in close proximity ( Figure 1B).…”

“…Unfolding of the NI isoform subsequently exposes dimerization sites, leading to protein oligomerization [4], similar to the LI isoform with binding partners [6]. There is a debate as to whether MVI dimerizes intrinsically or through a binding partner mediator [4,13,[22][23][24].…”

Binding partners regulate unfolding of myosin VI to activate the molecular motor

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