Megan Dumas scite author profile

Megan Dumas

5Publications

87Citation Statements Received

261Citation Statements Given

How they've been cited

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176

232

Affiliations

Vanderbilt University, University of Delaware, K2M (United States)

Publications

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Kinesin-binding protein ensures accurate chromosome segregation by buffering KIF18A and KIF15

Malaby

Dumas

Ohi

et al. 2019

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Mitotic kinesins must be regulated to ensure a precise balance of spindle forces and accurate segregation of chromosomes into daughter cells. Here, we demonstrate that kinesin-binding protein (KBP) reduces the activity of KIF18A and KIF15 during metaphase. Overexpression of KBP disrupts the movement and alignment of mitotic chromosomes and decreases spindle length, a combination of phenotypes observed in cells deficient for KIF18A and KIF15, respectively. We show through gliding filament and microtubule co-pelleting assays that KBP directly inhibits KIF18A and KIF15 motor activity by preventing microtubule binding. Consistent with these effects, the mitotic localizations of KIF18A and KIF15 are altered by overexpression of KBP. Cells depleted of KBP exhibit lagging chromosomes in anaphase, an effect that is recapitulated by KIF15 and KIF18A overexpression. Based on these data, we propose a model in which KBP acts as a protein buffer in mitosis, protecting cells from excessive KIF18A and KIF15 activity to promote accurate chromosome segregation.

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Dual inhibition of Kif15 by oxindole and quinazolinedione chemical probes

Dumas

Chen

Kendrick

et al. 2019

Bioorganic & Medicinal Chemistry Letters

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The mitotic spindle is a microtubule-based machine that segregates a replicated set of chromosomes during cell division. Many cancer drugs alter or disrupt the microtubules that form the mitotic spindle. Microtubule-dependent molecular motors that function during mitosis are logical alternative mitotic targets for drug development. Eg5 (Kinesin-5) and Kif15 (Kinesin-12), in particular, are an attractive pair of motor proteins, as they work in concert to drive centrosome separation and promote spindle bipolarity. Furthermore, we hypothesize that the clinical failure of Eg5 inhibitors may be (in part) due to compensation by Kif15. In order to test this idea, we screened a small library of kinase inhibitors and identified GW108X, an oxindole that inhibits Kif15 in vitro. We show that GW108X has a distinct mechanism of action compared with a commercially available Kif15 inhibitor, Kif15-IN-1 and may serve as a lead with which to further develop Kif15 inhibitors as clinically relevant agents.

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Resistance is not futile: Surviving Eg5 inhibition

2016

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The small GTPase Arf6 regulates sea urchin morphogenesis

et al. 2017

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The small GTPase Arf6 is a conserved protein that is expressed in all metazoans. Arf6 remodels cytoskeletal actin and mediates membrane protein trafficking between the plasma membrane in its active form and endosomal compartments in its inactive form. While a rich knowledge exists for the cellular functions of Arf6, relatively little is known about its physiological role in development. This study examines the function of Arf6 in mediating cellular morphogenesis in early development. We dissect the function of Arf6 with a loss-of-function morpholino and constitutively active Arf6-Q67L construct. We focus on the two cell types that undergo active directed migration: the primary mesenchyme cells (PMCs) that give rise to the sea urchin skeleton and endodermal cells that form the gut. Our results indicate that Arf6 plays an important role in skeleton formation and PMC migration, in part due to its ability to remodel actin. We also found that embryos injected with Arf6 morpholino have gastrulation defects and embryos injected with constitutively active Arf6 have endodermal cells detached from the gut epithelium with decreased junctional cadherin staining, indicating that Arf6 may mediate the recycling of cadherin. Thus, Arf6 impacts cells that undergo coordinated movement to form embryonic structures in the developing embryo.

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Growth Patterns of the Neurocentral Synchondrosis (NCS) in Immature Cadaveric Vertebra

Blakemore

Schwend

Akbarnia

et al. 2018

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Megan Dumas

Kinesin-binding protein ensures accurate chromosome segregation by buffering KIF18A and KIF15

Dual inhibition of Kif15 by oxindole and quinazolinedione chemical probes

Resistance is not futile: Surviving Eg5 inhibition

The small GTPase Arf6 regulates sea urchin morphogenesis

Growth Patterns of the Neurocentral Synchondrosis (NCS) in Immature Cadaveric Vertebra

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