Aysha M. Aljaberi scite author profile

Aysha M. Aljaberi

2Publications

15Citation Statements Received

69Citation Statements Given

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Queen's Medical Centre, University of Nottingham

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Mitotic activity of survivin is regulated by acetylation at K129

2015

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Survivin is a cancer-associated protein regulated by multiple factors, including acetylation at K129 within its C-terminal a-helical tail. Acetylation of survivin is being pursued as a potential prognostic marker in breast cancer. This modification at K129 may cause nuclear accumulation of survivin in interphase cells; however, whether this affects its essential role during mitosis has not been addressed. We posited whether mimicking acetylation of survivin at K129 alters its activity during mitosis. Fluorescence microscopy and time-lapse imaging showed that, mutating this site to an alanine to act as a constitutive acetyl mimetic, K129A, causes defects in chromosome segregation and cytokinesis. As a non-acetylatable version, K129R, also has difficulty during mitotic exit, we conclude that cyclical acetylation and deacetylation is required for fully functional survivin during mitosis.

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Analysis of the functional repertoire of a mutant form of survivin, K129E, which has been linked to lung cancer

2014

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BackgroundSurvivin is a protein that is normally present only in G2 and M-phases in somatic cells, however, in cancer cells, it is expressed throughout the cell cycle. A prosurvival factor, survivin is both an inhibitor of apoptosis and an essential mitotic protein, thus it has attracted much attention as a target for new oncotherapies. Despite its prevalence in cancer, reports of survivin mutations have mostly been restricted to loci within its promoter, which increase the abundance of the protein. To date the only published mutation within the coding sequence is an adenine > guanine substitution in exon 4. This polymorphism, which was found in a cohort of Korean lung cancer patients, causes a lysine > glutamic acid mutation (K129E) in the protein. However, whether it plays a causative role in cancer has not been addressed.MethodsUsing site directed mutagenesis we recapitulate K129E expression in cultured human cells and assess its anti-apoptotic and mitotic activities.ResultsK129E retains its anti-apoptotic activity, but causes errors in mitosis and cytokinesis, which may be linked to its reduced affinity for borealin.ConclusionK129E expression can induce genomic instability by introducing mitotic aberrations, thus it may play a causative role in cancer.

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Aysha M. Aljaberi

Mitotic activity of survivin is regulated by acetylation at K129

Analysis of the functional repertoire of a mutant form of survivin, K129E, which has been linked to lung cancer

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