Mps1 Phosphorylates Its N-Terminal Extension to Relieve Autoinhibition and Activate the Spindle Assembly Checkpoint

Combes, Guillaume; Barysz, Helena; Garand, Chantal; Braga, Luciano Gama; Alharbi, Ibrahim; Thebault, Philippe; Murakami, Luc; Bryne, Dominic P.; Stankovic, Stasa; Eyers, Patrick A.; Bolaños-García, Víctor M.; Earnshaw, William C.; Maciejowski, John; Jallepalli, Prasad V.; Elowe, Sabine

doi:10.1016/j.cub.2018.02.002

Cited by 24 publications

(29 citation statements)

References 57 publications

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“…Therefore, this creates over a thousand active MELT repeats per kinetochore, which the BUB-PLK1 module can use to rapidly amplifying SAC signalling downstream of MPS1. Furthermore, this may be reinforced by an additional positive feedback loop to MPS1 itself, since PLK1 can phosphorylate the activation loop of MPS1 to stimulate its kinase activity 26,27,37 (MPS1→BUB:PLK1→MPS1, Figure 4B, P2). This may help to explain the recent observation that this 'autoactivation' site remains phosphorylated when MPS1 is inhibited in BUBR1 PP2A cells 38 .…”

Section: Discussionmentioning

confidence: 99%

Kinetochore phosphatases suppress autonomous kinase activity to control the spindle assembly checkpoint

Smith

Saurin

2019

Preprint

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Local phosphatase regulation is critical for determining when phosphorylation signals are activated or deactivated. A typical example is the spindle assembly checkpoint (SAC) during mitosis, which regulates kinetochore PP1 and PP2A-B56 activities to switch-off signalling events at the correct time. In this case, kinetochore phosphatase activation dephosphorylates MELT motifs on KNL1 to remove SAC proteins, including the BUB complex. We show here that, surprisingly, neither PP1 or PP2A are required to dephosphorylate the MELT motifs. Instead, they remove polo-like kinase 1 (PLK1) from the BUB complex, which can otherwise maintain MELT phosphorylation in an autocatalytic manner. This is their principle role in the SAC, because both phosphatases become redundant if PLK1 is inhibited or BUB-PLK1 interaction is prevented. Therefore, phosphatase regulation is critical for the SAC, but primarily to restrain and extinguish autonomous kinase activity. We propose that these circuits have evolved to generate a semi-autonomous SAC signal that can be synchronously silenced following kinetochore-microtubule tension.

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Section: Discussionmentioning

confidence: 99%

Kinetochore phosphatases suppress autonomous kinase activity to control the spindle assembly checkpoint

Smith

Saurin

2019

Preprint

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“…When inactive, both the NTE and MR regions are available, resulting in relatively high affinity of MPS1 for the NDC80 complex, and thus relatively long residence times on kinetochores and high steady-state levels (figure 2E). Activation of MPS1 subsequently causes it to adopt a different conformation [79] that potentially prevents the MR–NUF2 interaction, as recently suggested (figure 2F) [58]. The fully active MPS1 molecule now only interacts with the NDC80 complex via its NTE, lowering overall affinity for the NDC80 complex, and thereby decreasing residence time and levels at mitotic kinetochores (figure 2F).…”

Section: Let It Go: a Suggestion For A Revised Model Of Mps1 Release mentioning

confidence: 93%

“…The mechanism by which Mps1 dimerizes is unknown, and studies have provided conflicting evidence as to whether the N-terminal region including the TPR domain is involved in this [39,78]. The N-terminal region known as the N-terminal extension (NTE, see below) does affect kinase activation in another way: by directly inhibiting the kinase domain [79]. In any case, dimerization, oligomerization or clustering facilitates activation of Mps1, possibly by releasing NTE-mediated inhibition of the kinase domain and certainly by facilitating trans -autophosphorylation of the activation loop in Mps1.…”

Section: Start It Up: Molecular Events Leading To Mps1 Activationmentioning

confidence: 99%

“…This suggests that while the NTE is predominantly responsible for the binding of active MPS1 to kinetochores, both the NTE and MR regions are involved in kinetochore binding of the inactive form (figure 2E). As shown recently, activation of MPS1 leads to extensive conformational changes in the protein [79] which could affect the availability of its kinetochore-binding regions. When inactive, both the NTE and MR regions are available, resulting in relatively high affinity of MPS1 for the NDC80 complex, and thus relatively long residence times on kinetochores and high steady-state levels (figure 2E).…”

Section: Let It Go: a Suggestion For A Revised Model Of Mps1 Release mentioning

confidence: 99%

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Leader of the SAC: molecular mechanisms of Mps1/TTK regulation in mitosis

Pachis¹,

Kops²

2018

Open Biol.

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Discovered in 1991 in a screen for genes involved in spindle pole body duplication, the monopolar spindle 1 (Mps1) kinase has since claimed a central role in processes that ensure error-free chromosome segregation. As a result, Mps1 kinase activity has become an attractive candidate for pharmaceutical companies in the search for compounds that target essential cellular processes to eliminate, for example, tumour cells or pathogens. Research in recent decades has offered many insights into the molecular function of Mps1 and its regulation. In this review, we integrate the latest knowledge regarding the regulation of Mps1 activity and its spatio-temporal distribution, highlight gaps in our understanding of these processes and propose future research avenues to address them.

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“…2 Mps1 kinase consists of a series of N-terminal functional modules that ensure its localization to kinetochores, the N-terminal extension (NTE), the tetratricopeptide repeat, and the middle region ( Figure 1A); the NTE motif is reported to contribute to the activation of the kinase domain. 3 The Mps1 degradation signal (MDS) spans across residues 420-507, mediating the regulation of cellular Mps1 levels. 4 The Mps1 kinase domain is at the C-terminal end (519-808) and has been extensively studied, also as a potential drug target for a cancer therapy.…”

Section: Introductionmentioning

confidence: 99%

A crystal structure of the human protein kinase Mps1 reveals an ordered conformation of the activation loop

et al. 2019

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Monopolar spindle 1 (Mps1) is a dual‐specificity protein kinase, orchestrating faithful chromosome segregation during mitosis. All reported structures of the Mps1 kinase adopt the hallmarks of an inactive conformation, which includes a mostly disordered activation loop. Here, we present a 2.4 Å resolution crystal structure of an “extended” version of the Mps1 kinase domain, which shows an ordered activation loop. However, the other structural characteristics of an active kinase are not present. Our structure shows that the Mps1 activation loop can fit to the ATP binding pocket and interferes with ATP, but less so with inhibitors binding, partly explain the potency of various Mps1 inhibitors.

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Mps1 Phosphorylates Its N-Terminal Extension to Relieve Autoinhibition and Activate the Spindle Assembly Checkpoint

Cited by 24 publications

References 57 publications

Kinetochore phosphatases suppress autonomous kinase activity to control the spindle assembly checkpoint

Kinetochore phosphatases suppress autonomous kinase activity to control the spindle assembly checkpoint

Leader of the SAC: molecular mechanisms of Mps1/TTK regulation in mitosis

A crystal structure of the human protein kinase Mps1 reveals an ordered conformation of the activation loop

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