Nuclear versus Cytoplasmic Localization of Filamin A in Prostate Cancer: Immunohistochemical Correlation with Metastases

Bedolla, Roble; Wang, Yu; Asuncion, Alfredo; Chamie, Karim; Siddiqui, Salma; Mudryj, Maria; Prihoda, Thomas J.; Siddiqui, Javed; Chinnaiyan, Arul M.; Mehra, Rohit; White, Ralph W. de Vere; Ghosh, Paramita M.

doi:10.1158/1078-0432.ccr-08-1402

Cited by 122 publications

(143 citation statements)

References 23 publications

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“…As in MMECs, FLNA is upregulated in human tumor cells (Zhou et al, 2010), while it not defined as oncogenic protein. FLNA intensely stains numerous neovessels in the BM of MM patients, and is abundantly distributed in MMEC cellular protrusions, like to what happens in invading and migrating prostate cancer cells (Bedolla et al, 2009). Its knockdown affects MMEC spreading and migration in agreement with what has been observed in FLNAdeficient human embryo kidney cells and fibroblasts (Kim et al, 2010).…”

Section: Angiogenic Proteins Of Mmecs S Berardi Et Alsupporting

confidence: 78%

Four proteins governing overangiogenic endothelial cell phenotype in patients with multiple myeloma are plausible therapeutic targets

et al. 2011

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Bone marrow (BM) angiogenesis has an important role in the initiation and progression of multiple myeloma (MM). We looked at novel mechanisms of vessel formation in patients with MM through a comparative proteomic analysis between BM endothelial cells (ECs) of patients with active MM (MMECs) and ECs of patients with monoclonal gammopathy of undetermined significance (MGECs) and of subjects with benign anemia (normal ECs). Four proteins were found overexpressed in MMECs: filamin A, vimentin, a-crystallin B and 14-3-3f/d protein, not yet linked to overangiogenic phenotype. These proteins gave a typical distribution in the BM of MM patients and in MMECs versus MGECs, plausibly according to a different functional state. Their expression was enhanced by vascular endothelial growth factor, fibroblast growth factor 2, hepatocyte growth factor and MM plasma cell conditioned medium in step with enhancement of MMEC angiogenesis. Their silencing RNA knockdown affected critical MMEC angiogenesis-related functions, such as spreading, migration and tubular morphogenesis. A gradual stabilization of 14-3-3f/d protein was observed, with transition from normal ECs to MGECs and MMECs that may be a critical step for the angiogenic switch in MMECs and maintenance of the cell overangiogenic phenotype. These proteins were substantially impacted by anti-MM drugs, such as bortezomib, lenalidomide and panobinostat. Results suggest that these four proteins could be new targets for the antiangiogenic management of MM patients.

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Section: Angiogenic Proteins Of Mmecs S Berardi Et Alsupporting

confidence: 78%

Four proteins governing overangiogenic endothelial cell phenotype in patients with multiple myeloma are plausible therapeutic targets

et al. 2011

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“…7). In the case of filamin, a broad range of filamin ligands, which correspond to diverse cellular events mediated by this phosphorylation event such as platelet aggregation (39), cytoskeletal rearrangement (41), mechanoprotection (40), cancer metastasis (38) and defective neuronal migration (42), were found to promote filamin Ser 2152 phosphorylation. It is conceivable that different ligands, depending on their spatiotemporal localization with filamin, may promote its phosphorylation and modulate specific downstream signaling events.…”

Section: Discussionmentioning

confidence: 99%

A Mechanism of Global Shape-dependent Recognition and Phosphorylation of Filamin by Protein Kinase A

Ithychanda

Mohan

Zhu

et al. 2015

Journal of Biological Chemistry

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Background:The mechanism of filamin Ser 2152 phosphorylation by PKA is unclear. Results: Autoinhibitory filamin is resistant to phosphorylation despite exposed Ser 2152 , but ligand binding alters the filamin conformation, triggering PKA recognition. Conclusion: Filamin Ser2152 phosphorylation is conformation-dependent on ligand binding. Significance: The overall conformation of substrate, not just the exposed phosphorylation site, regulates the kinase substrate recognition in signaling.

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“…Although downregulation of FLNA expression increases the invasiveness of human breast cancer cells (Cunningham et al, 1992;Xu et al, 2010), a positive effect of FLNA on cell migration has also been reported (Castoria et al, 2011;Cunningham et al, 1992). FLNA expression levels in tumors and plasma of patients with breast and primary brain tumors increase with tumor malignancy (Ai et al, 2011;Alper et al, 2009;Bedolla et al, 2009). Finally, a most recent study has demonstrated that FLNA knockout restrains development of KRas induced lung tumors in mice (Nallapalli et al, 2012).…”

Section: Introductionmentioning

confidence: 99%

The actin cross-linker Filamin/Cheerio mediates tumor malignancy downstream of JNK signaling

Külshammer¹,

Uhlířová²

2012

Journal of Cell Science

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SummaryCell shape dynamics, motility, and cell proliferation all depend on the actin cytoskeleton. Malignant cancer cells hijack the actin network to grow and migrate to secondary sites. Understanding the function of actin regulators is therefore of major interest. In the present study, we identify the actin cross-linking protein Filamin/Cheerio (Cher) as a mediator of malignancy in genetically defined Drosophila tumors. We show that in invasive tumors, resulting from cooperation of activated Ras with disrupted epithelial cell polarity, Cher is upregulated in a Jun N-terminal kinase (JNK)-dependent manner. Although dispensable in normal epithelium, Cher becomes required in the tumor cells for their growth and invasiveness. When deprived of Cher, these tumor clones lose their full potential to proliferate and breach tissue boundaries. Instead, the Cher-deficient clones remain confined within the limits of their source epithelium, permitting survival of the host animal. Through interaction with the myosin II heavy chain subunit, Cher is likely to strengthen the cortical actomyosin network and reinforce mechanical tension within the invasive tumors. Accordingly, Cher is required for aberrant expression of genes downstream of the Hippo/Yorkie signaling in the tumor tissue. Our study identifies Cher as a new target of JNK signaling that links cytoskeleton dynamics to tumor progression.

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Nuclear versus Cytoplasmic Localization of Filamin A in Prostate Cancer: Immunohistochemical Correlation with Metastases

Cited by 122 publications

References 23 publications

Four proteins governing overangiogenic endothelial cell phenotype in patients with multiple myeloma are plausible therapeutic targets

Four proteins governing overangiogenic endothelial cell phenotype in patients with multiple myeloma are plausible therapeutic targets

A Mechanism of Global Shape-dependent Recognition and Phosphorylation of Filamin by Protein Kinase A

The actin cross-linker Filamin/Cheerio mediates tumor malignancy downstream of JNK signaling

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