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Title: Unraveling the multifunctionality of human Spindly
Author: Conte, Claudia
ISNI:       0000 0004 7962 5352
Awarding Body: University of Dundee
Current Institution: University of Dundee
Date of Award: 2015
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Spindly was discovered in 2007 as a protein crucial for cells to progress through mitosis. It was shown to be required for recruitment of the dynein/dynactin motor complex to kinetochores thus to promote chromosome alignment and mitotic progression. Kinetochore recruitment of the dynein/dynactin motor complex is crucial for maturation of kinetochore-microtubule attachments and for silencing the spindle assembly checkpoint (SAC), the surveillance pathway that monitors bi-orientation and inhibits anaphase onset until chromosomes are attached to opposing spindle poles. In human cells, Spindly depletion produces strong chromosome alignment defects with cells arrested in mitosis. Conversely expression of a single point mutant form allows for separation of these two functions of Spindly: it rescues chromosome alignment but inhibits SAC silencing and the recruitment of the motor complex. In this work the interaction of Spindly with the dynein/dynactin motor complex was examined, untangling the subunits specifically involved in the binding. It was demonstrated that the single point mutation specifically impairs the interaction with dynactin, potentially affecting the capacity of the motor to strip proteins away and suggesting a role for Spindly as an adaptor of the complex, involved in enhancing its processivity. Previous reports have shown that the constant presence of Spindly at kinetochore impedes SAC inhibition, whereas its depletion allows for an alternative mechanism dynein- independent to silence the SAC on aligned kinetochores. In the present thesis the interaction of Spindly with the proteins involved in the SAC pathway was described, hinting at a further role of Spindly in the SAC signalling related to activation/ maintenance. It has been earlier described that depletion of Drosophila melanogaster Spindly generates defects also in cytoskeletal organisation. Here was identified a pool of human Spindly in interphase cells localising at microtubule plus-ends. It was proved that Spindly plays a direct role in cell migration and that it localises at the leading edge of migrating cells, specifically at focal adhesion sites, together with actin filaments and dynein/dynactin. With this work we present the discovery of new functions of human Spindly as a novel promoter of dynein/dynactin processivity in different biochemical processes where Spindly could represent a key scaffold protein necessary to link this motor complex to multiple cargos/sites.
Supervisor: Not available Sponsor: Cancer Research UK
Qualification Name: Thesis (Ph.D.) Qualification Level: Doctoral
EThOS ID:  DOI: Not available
Keywords: Mitosis ; Spindly ; Cell migration ; Dynein/dynactin