Cansu Alapinar scite author profile

Cansu Alapinar

4Publications

125Citation Statements Received

100Citation Statements Given

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111

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Ege University

Publications

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Inflammation‐mediated abrogation of androgen signaling: An in vitro model of prostate cell inflammation

Debelec-Butuner

Alapinar

Varisli

et al. 2012

Molecular Carcinogenesis

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As a link between inflammation and cancer has been reported in many studies, we established an in vitro model of prostatic inflammation to investigate the loss of androgen receptor (AR)-mediated signaling in androgen responsive prostate cell lines. First, the U937 monocyte cell line was differentiated into macrophages using phorbol acetate (PMA), and cells were induced with lipopolysaccharide (LPS) for cytokine secretion. Next, the cytokine levels (TNFa, IL-6, and IL1b) in conditioned media (CM) were analyzed. Prostate cells were then fed with CM containing varying concentrations of TNFa, and IkB degradation, nuclear factor kappa B (NFkB) translocation and transactivation, and the expression of matrix metalloproteinase-8 (MMP8) and matrix metalloproteinase-9 (MMP9) were then assessed. As a result of CM treatment, ubiquitin-mediated AR degradation, which was restored using anti-TNFa antibody neutralization, led to both a decrease in KLK4, PSA, and NKX3.1 expression levels and the upregulation of GPX2. In addition to the loss of AR, acute and chronic CM exposure resulted in p53 degradation and consequent p21 downregulation, which was also restored by either androgen administration or ectopic NKX3.1 expression via the stabilization of MDM2 levels in LNCaP cells. Additionally, CM treatment enhanced H2AX (S139) phosphorylation (a hallmark of DNA damage) and genetic heterogeneity in the absence of androgens in prostate cells without activating mitochondrial apoptosis. Thus, the data suggest that inflammatory cytokine exposure results in the loss of AR and p53 signaling in prostate cells and facilitates genetic heterogeneity via ROS accumulation to promote prostate carcinogenesis.

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TNFα-Mediated Loss of β-Catenin/E-Cadherin Association and Subsequent Increase in Cell Migration Is Partially Restored by NKX3.1 Expression in Prostate Cells

et al. 2014

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Inflammation-induced carcinogenesis is associated with increased proliferation and migration/invasion of various types of tumor cells. In this study, altered β-catenin signaling upon TNFα exposure, and relation to loss of function of the tumor suppressor NKX3.1 was examined in prostate cancer cells. We used an in vitro prostate inflammation model to demonstrate altered sub-cellular localization of β-catenin following increased phosphorylation of Akt(S473) and GSK3β(S9). Consistently, we observed that subsequent increase in β-catenin transactivation enhanced c-myc, cyclin D1 and MMP2 expressions. Consequently, it was also observed that the β-catenin-E-cadherin association at the plasma membrane was disrupted during acute cytokine exposure. Additionally, it was demonstrated that disrupting cell-cell interactions led to increased migration of LNCaP cells in real-time migration assay. Nevertheless, ectopic expression of NKX3.1, which is degraded upon proinflammatory cytokine exposure in inflammation, was found to induce the degradation of β-catenin by inhibiting Akt(S473) phosphorylation, therefore, partially rescued the disrupted β-catenin-E-cadherin interaction as well as the cell migration in LNCaP cells upon cytokine exposure. As, the disrupted localization of β-catenin at the cell membrane as well as increased Akt(S308) priming phosphorylation was observed in human prostate tissues with prostatic inflammatory atrophy (PIA), high-grade prostatic intraepithelial neoplasia (H-PIN) and carcinoma lesions correlated with loss of NKX3.1 expression. Thus, the data indicate that the β-catenin signaling; consequently sub-cellular localization is deregulated in inflammation, associates with prostatic atrophy and PIN pathology.

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169 Oxidative Stress Regulation is Abrogated by Loss of NKX3.1 Expression in Acute and Chronic Inflammation

Debelec-Butuner¹,

Alapinar²,

Korkmaz³

2012

European Journal of Cancer

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1124 POSTER Loss of NKX3.1 by Inflammatory Microenvironment Resulted in Uncontrolled Proliferation in Prostate Cells

Debelec-Butuner¹,

Alapinar²,

Korkmaz³

2011

European Journal of Cancer

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Cansu Alapinar

Inflammation‐mediated abrogation of androgen signaling: An in vitro model of prostate cell inflammation

TNFα-Mediated Loss of β-Catenin/E-Cadherin Association and Subsequent Increase in Cell Migration Is Partially Restored by NKX3.1 Expression in Prostate Cells

169 Oxidative Stress Regulation is Abrogated by Loss of NKX3.1 Expression in Acute and Chronic Inflammation

1124 POSTER Loss of NKX3.1 by Inflammatory Microenvironment Resulted in Uncontrolled Proliferation in Prostate Cells

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