Margalit Zusev scite author profile

The present study highlights on the biochemical and immunological analysis of MS-KIF18A in pre-osteogenic MBA-15 cells. The protein distribution in various cellular compartments was demonstrated by imaging and Western blot (WB) analysis. MS-KIF18A interactions with cytoskeletal proteins were confirmed for tubulin and actin. The complex between MS-KIF18A and microtubules (MT) was demonstrated in cellular system for endogenous proteins and also between recombinant proteins in pull down and immunoprecipitation (IP) assays. Multiple assays including metabolic labeling, cell fractionation and IP with anti-MS-KIF18A antibody demonstrated an association with actin that was prominent in the cell cytoplasm. Sub-cellular fractionation identified diverse forms of MS-KIF18A in cytoplasm and membrane/nucleus compartments which are suggested to represent the result of post-transcriptional modifications, such as phosphorylation and glycosylation. These modifications on MS-KIF18A were analyzed by bioinformatics and immunological assays. Furthermore, we studied the role of ubiquitin-proteasome system in the MS-KIF18A degradation. Taken together, the current study sheds light on MS-KIF18A a MT-dependent kinesin and adds insights on the post-translational modifications that potentially control the protein cellular distribution and its co-association with cytoskeletal proteins.

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The Regulation of MS-KIF18A Expression and Cross Talk with Estrogen Receptor

Zusev

Benayahu

2009

PLoS ONE

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This study provides a novel view on the interactions between the MS-KIF18A, a kinesin protein, and estrogen receptor alpha (ERα) which were studied in vivo and in vitro. Additionally, the regulation of MS-KIF18A expression by estrogen was investigated at the gene and protein levels. An association between recombinant proteins; ERα and MS-KIF18A was demonstrated in vitro in a pull down assay. Such interactions were proven also for endogenous proteins in MBA-15 cells were detected prominently in the cytoplasm and are up-regulated by estrogen. Additionally, an association between these proteins and the transcription factor NF-κB was identified. MS-KIF18A mRNA expression was measured in vivo in relation to age and estrogen level in mice and rats models. A decrease in MS-KIF18A mRNA level was measured in old and in OVX-estrogen depleted rats as compared to young animals. The low MS-KIF18A mRNA expression in OVX rats was restored by estrogen treatment. We studied the regulation of MS-KIF18A transcription by estrogen using the luciferase reporter gene and chromatin immuno-percipitation (ChIP) assays. The luciferase reporter gene assay demonstrated an increase in MS-KIF18A promoter activity in response to 10−8 M estrogen and 10−7M ICI-182,780. Complimentary, the ChIP assay quantified the binding of ERα and pcJun to the MS-KIF18A promoter that was enhanced in cells treated by estrogen and ICI-182,780. In addition, cells treated by estrogen expressed higher levels of MS-KIF18A mRNA and protein and the protein turnover in MBA-15 cells was accelerated. Presented data demonstrated that ERα is a defined cargo of MS-KIF18A and added novel insight on the role of estrogen in regulation of MS-KIF18A expression both in vivo and in vitro.

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Rectracted: Anti-ribosomal-phosphoprotein autoantibodies penetrate to neuronal cells via neuronal growth associated protein, affecting neuronal cellsin vitro

Kivity

Shoenfeld

Arango

et al. 2016

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Retracted: Anti-ribosomal-phosphoprotein autoantibodies penetrate to neuronal cells via neuronal growth associated protein, affecting neuronal cells in vitro

Kivity

Shoenfeld

Arango

et al. 2017

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Margalit Zusev

Differential regulation of activity-dependent neuroprotective protein in rat astrocytes by VIP and PACAP

New insights on cellular distribution, microtubule interactions and post‐translational modifications of MS‐KIF18A

The Regulation of MS-KIF18A Expression and Cross Talk with Estrogen Receptor

Rectracted: Anti-ribosomal-phosphoprotein autoantibodies penetrate to neuronal cells via neuronal growth associated protein, affecting neuronal cellsin vitro

Retracted: Anti-ribosomal-phosphoprotein autoantibodies penetrate to neuronal cells via neuronal growth associated protein, affecting neuronal cells in vitro

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