Evidence for a HURP/EB free mixed-nucleotide zone in kinetochore-microtubules

Castrogiovanni, Cédric; Inchingolo, Alessio V.; Harrison, Jonathan U.; Dudka, Damian; Sen, Onur; Burroughs, Nigel John; McAinsh, Andrew D.; Meraldi, Patrick

doi:10.1038/s41467-022-32421-x

Cited by 10 publications

(16 citation statements)

References 60 publications

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“…Consistent with previous reports, additon of HURP to dynamic microtubules reduced microtubule catastrophes and increased the rescue frequency, without affecting microtubule growth or shrinking rates (Figure 5 E-F, Supplementary Figure 12) 16 . This result led us to investigate HURP's possible effect on the capping mechanism exerted by Kif18A.…”

Section: Hurp and Kif18a Synergistically Control Microtubule Lengthsupporting

confidence: 92%

“…Most of the HURP residues that participate in these interactions are highly conserved among species (Supplementary Figure 7). The deep insertion in the inter-protofilament groove and the bridging interactions between adjacent tubulin subunits are consistent with HURP’s role as a microtubule stabilizing factor 14,16 . The microtubule bound structure of HURP resembles that of another spindle assembly factor, TPX2, which also contains a dual binding motif that establishes lateral and longitudinal contacts to staple tubulins together 36 (Figure 3 F).…”

Section: Resultssupporting

confidence: 67%

“…Hepatoma upregulated protein (HURP) is a spindle assembly factor (SAF) that localizes to the chromatin-proximal region of K-fibers in a process mediated by Ran-GTP signaling [12][13][14] . Through its stabilizing and bundling activities, HURP regulates K-fiber dynamics and spindle morphology, contributing to chromosomal movements and alignment 15,16 . Both depletion and overexpression of HURP lead to defective spindles that cannot align chromosomes effectively 14,17 .…”

Section: Introductionmentioning

confidence: 99%

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Molecular interplay between HURP and Kif18A in mitotic spindle regulation

Perez-Bertoldi,

Zhao,

Thawani

et al. 2024

Preprint

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During mitosis, microtubule dynamics are regulated to ensure proper alignment and segregation of chromosomes. The dynamics of kinetochore-attached microtubules are regulated by hepatoma-upregulated protein (HURP) and the mitotic kinesin-8 Kif18A, but the underlying mechanism remains elusive. Using single-molecule imagingin vitro, we demonstrate that Kif18A motility is regulated by HURP. While sparse decoration of HURP activates the motor, higher concentrations hinder processive motility. To shed light on this behavior, we determined the binding mode of HURP to microtubules using Cryo-EM. The structure reveals that one HURP motif spans laterally across β-tubulin, while a second motif binds between adjacent protofilaments. HURP partially overlaps with the microtubule-binding site of the Kif18A motor domain, indicating that excess HURP inhibits Kif18A motility by steric exclusion. We also observed that HURP and Kif18A function together to suppress dynamics of the microtubule plus-end, providing a mechanistic basis for how they collectively serve in spindle length control.

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Section: Hurp and Kif18a Synergistically Control Microtubule Lengthsupporting

confidence: 92%

Section: Resultssupporting

confidence: 67%

Section: Introductionmentioning

confidence: 99%

See 1 more Smart Citation

Molecular interplay between HURP and Kif18A in mitotic spindle regulation

Perez-Bertoldi,

Zhao,

Thawani

et al. 2024

Preprint

View full text Add to dashboard Cite

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“…These biochemical factors must work in concert with mechanical effects, and we suggest that the two classes of mechanisms probably operate over different length-and timescales. Certain tip-tracking proteins capable of influencing microtubule dynamics are enriched at growing k-fiber ends specifically near kinetochores that are moving anti-poleward (Amaro et al, 2010;Castrogiovanni et al, 2021;Tirnauer et al, 2002). Various kinesins are known to regulate the size of the metaphase spindle (Goshima et al, 2005;Neahring et al, 2021), to influence k-fiber dynamics (Maiato, Fairley, et al, 2003;Rizk et al, 2009;Stumpff et al, 2012;Wordeman et al, 2007), and to alter microtubule dynamics in vitro in a length-dependent manner (Varga et al, 2006).…”

Section: Discussionmentioning

confidence: 99%

“…Many microtubule-associated proteins that are known to regulate growth in vitro are implicated in modulating k-fiber dynamics and kinetochore movements in cells, including TOG-family proteins such as XMAP215 (Brouhard et al, 2008) and CLASP (Al-Bassam et al, 2010;Maiato, Fairley, et al, 2003;Sousa et al, 2007), mitotic kinesins such as MCAK and Kif18A (Sanhaji et al, 2011;Stumpff et al, 2012), and other plus-end-trackers such as EB1 (reviewed in (Amin et al, 2019)). The localization of some of these regulators is enriched near kinetochores specifically when a kinetochore is moving anti-poleward and its k-fiber is growing longer (Amaro et al, 2010;Castrogiovanni et al, 2021;Tirnauer et al, 2002). However, whether such selective enrichment is sufficient to explain the very tight coordination across many individual microtubule tips within a k-fiber is unclear.…”

Section: Introductionmentioning

confidence: 99%

Mechanical coupling coordinates microtubule growth

Leeds,

Kostello,

Liu

et al. 2023

Preprint

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During mitosis, kinetochore-attached microtubules form bundles (k-fibers) in which many filaments grow and shorten in near-perfect unison to align and segregate each chromosome. However, individual microtubules grow at intrinsically variable rates, which must be tightly regulated for a k-fiber to behave as a single unit. This exquisite coordination might be achieved biochemically, via selective binding of polymerases and depolymerases, or mechanically, because k-fiber microtubules are coupled through a shared load that influences their growth. Here, we use a novel dual laser trap assay to show that microtubule pairs growing in vitro are coordinated by mechanical coupling. Kinetic analyses show that microtubule growth is interrupted by stochastic, force-dependent pauses and indicate persistent heterogeneity in growth speed during non-pauses. A simple model incorporating both force-dependent pausing and persistent growth speed heterogeneity explains the measured coordination of microtubule pairs without any free fit parameters. Our findings illustrate how microtubule growth may be synchronized during mitosis and provide a basis for modeling k-fiber bundles with three or more microtubules, as found in many eukaryotes.

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HURP binding to the vinca domain of β-tubulin accounts for cancer drug resistance

Saju,

Chen,

Weng

et al. 2024

Nat Commun

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Vinca alkaloids, a class of tubulin-binding agent, are widely used in treating cancer, yet the emerging resistance compromises their efficacy. Hepatoma up-regulated protein (HURP), a microtubule-associated protein displaying heightened expression across various cancer types, reduces cancer cells’ sensitivity to vinca-alkaloid drugs upon overexpression. However, the molecular basis behind this drug resistance remains unknown. Here we discover a tubulin-binding domain within HURP, and establish its role in regulating microtubule growth. Cryo-EM analysis reveals interactions between HURP’s tubulin-binding domain and the vinca domain on β-tubulin -- the site targeted by vinca alkaloid drugs. Importantly, HURP competes directly with vinorelbine, a vinca alkaloid-based chemotherapeutic agent, countering microtubule growth defects caused by vinorelbine both in vitro and in vivo. Our findings elucidate a mechanism driving drug resistance in HURP-overexpressing cancer cells and emphasize HURP tubulin-binding domain’s role in mitotic spindle assembly. This underscores its potential as a therapeutic target to improve cancer treatment.

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Evidence for a HURP/EB free mixed-nucleotide zone in kinetochore-microtubules

Cited by 10 publications

References 60 publications

Molecular interplay between HURP and Kif18A in mitotic spindle regulation

Molecular interplay between HURP and Kif18A in mitotic spindle regulation

Mechanical coupling coordinates microtubule growth

HURP binding to the vinca domain of β-tubulin accounts for cancer drug resistance

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