Mena Bishay scite author profile

Mena Bishay

2Publications

22Citation Statements Received

102Citation Statements Given

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University of Alberta

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Regulation of subcellular distribution and oncogenic potential of nucleophosmin by plakoglobin

et al. 2012

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Nucleophosmin (NPM) is a nucleolar phosphoprotein that is involved in many cellular processes and has both oncogenic and growth suppressing activities. NPM is localized primarily in nucleoli but shuttles between the nucleus and the cytoplasm, and sustained cytoplasmic distribution contributes to its tumor promoting activities. Plakoglobin (PG, γ-catenin) is a homolog of β-catenin with dual adhesive and signaling functions. These proteins interact with cadherins and mediate adhesion, while their signaling activities are regulated by association with various intracellular partners. Despite these similarities, β-catenin has a well-defined oncogenic activity, whereas PG acts as a tumor/metastasis suppressor through unknown mechanisms. Comparison of the proteomic profiles of carcinoma cell lines with low- or no PG expression with their PG-expressing transfectants has identified NPM as being upregulated upon PG expression. Here, we examined NPM subcellular distribution and in vitro tumorigenesis/metastasis in the highly invasive and very low PG expressing MDA-MB-231 (MDA-231) breast cancer cells and their transfectants expressing increased PG (MDA-231-PG) or NPM shRNA (MDA-231-NPM-KD) or both (MDA-231-NPM-KD+PG). Increased PG expression increased the levels of nucleolar NPM and coimmunoprecipitation studies showed that NPM interacts with PG. PG expression or NPM knockdown decreased the growth rate of MDA-231 cells substantially and this reduction was decreased further in MDA-231-NPM-KD+PG cells. In in vitro tumorigenesis/metastasis assays, MDA-231-PG cells showed substantially lower and MDA-231-NPM-KD cells substantially higher invasiveness relative to the MDA-231 parental cells, and the co-expression of PG and NPM shRNA led to even further reduction of the invasiveness of MDA-231-PG cells. Furthermore, examination of the levels and localization of PG and NPM in primary biopsies of metastatic infiltrating ductal carcinomas revealed coordinated expression of PG and NPM. Together, the data suggest that PG may regulate NPM subcellular distribution, which may potentially change the function of the NPM protein from oncogenic to tumor suppression.

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A minimally invasive approach to transperitoneal perforation of the bladder during bladder tumour resection

Bishay

Honey

2016

CUAJ

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The authors present a case of intraperitoneal rupture of the bladder during transurethral resection of a bladder tumour (TURBT), which was managed conservatively. By passing a urethroscope -which was smaller in diameter than the perforation -through the hole, a small superficial burn was identified on the adjacent bowel and deemed benign, saving this patient with multiple comorbidities from having to undergo an open laparotomy. The bladder was drained with a Foley catheter to allow the perforation to heal and the patient was discharged without incident. By using this approach, a direct view of the neighbouring structures confirmed the integrity of bowel and prevented the need for increased risks associated with a laparotomy.

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Mena Bishay

Regulation of subcellular distribution and oncogenic potential of nucleophosmin by plakoglobin

A minimally invasive approach to transperitoneal perforation of the bladder during bladder tumour resection

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