Mark Hazelbaker scite author profile

Proper regulation of microtubules (MTs) is critical for the execution of diverse cellular processes, including mitotic spindle assembly and chromosome segregation. There are a multitude of cellular factors that regulate the dynamicity of MTs and play critical roles in mitosis. Members of the Kinesin-8 family of motor proteins act as MT-destabilizing factors to control MT length in a spatially and temporally regulated manner. In this review, we focus on recent advances in our understanding of the structure and function of the Kinesin-8 motor domain, and the emerging contributions of the C-terminal tail of Kinesin-8 proteins to regulate motor activity and localization.

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Spatial regulation of MCAK promotes cell polarization and focal adhesion turnover to drive robust cell migration

Zong

Hazelbaker

Moe

et al. 2021

MBoC

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The asymmetric distribution of microtubule (MT) dynamics in migrating cells is important for cell polarization, yet the underlying regulatory mechanisms remain underexplored. Here, we addressed this question by studying the role of the MT depolymerase, MCAK, in the highly persistent migration of RPE-1 cells. MCAK knockdown leads to slowed migration and poor directional movement. Fixed and live cell imaging revealed that MCAK knockdown results in excessive membrane ruffling as well as defects in cell polarization and the maintenance of a major protrusive front. Additionally, loss of MCAK increases the lifetime of focal adhesions by decreasing their disassembly rate. These functions correlate with a spatial distribution of MCAK activity, wherein activity is higher in the trailing edge of cells compared to the leading edge. Overexpression of Rac1 has a dominant effect over MCAK activity, placing it downstream or in a parallel pathway to MCAK function in migration. Together, our data support a model in which the polarized distribution of MCAK activity and subsequent differential regulation of MT dynamics contribute to cell polarity, centrosome positioning and focal adhesion dynamics that all help facilitate robust directional migration. [Media: see text] [Media: see text]

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Intrinsically-disordered N-termini in human parechovirus 1 capsid proteins bind encapsidated RNA

Shakeel

Evans

Hazelbaker

et al. 2018

Sci Rep

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Human parechoviruses (HPeV) are picornaviruses with a highly-ordered RNA genome contained within icosahedrally-symmetric capsids. Ordered RNA structures have recently been shown to interact with capsid proteins VP1 and VP3 and facilitate virus assembly in HPeV1. Using an assay that combines reversible cross-linking, RNA affinity purification and peptide mass fingerprinting (RCAP), we mapped the RNA-interacting regions of the capsid proteins from the whole HPeV1 virion in solution. The intrinsically-disordered N-termini of capsid proteins VP1 and VP3, and unexpectedly, VP0, were identified to interact with RNA. Comparing these results to those obtained using recombinantly-expressed VP0 and VP1 confirmed the virion binding regions, and revealed unique RNA binding regions in the isolated VP0 not previously observed in the crystal structure of HPeV1. We used RNA fluorescence anisotropy to confirm the RNA-binding competency of each of the capsid proteins’ N-termini. These findings suggests that dynamic interactions between the viral RNA and the capsid proteins modulate virus assembly, and suggest a novel role for VP0.

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Emerging Insights into the Function of Kinesin-8 Proteins in Microtubule Length Regulation

Shrestha

Hazelbaker

Yount

et al. 2018

Preprint

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Mark Hazelbaker

Covalent labeling and mass spectrometry reveal subtle higher order structural changes for antibody therapeutics

Emerging Insights into the Function of Kinesin-8 Proteins in Microtubule Length Regulation

Spatial regulation of MCAK promotes cell polarization and focal adhesion turnover to drive robust cell migration

Intrinsically-disordered N-termini in human parechovirus 1 capsid proteins bind encapsidated RNA

Emerging Insights into the Function of Kinesin-8 Proteins in Microtubule Length Regulation

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