Susanna Concilio scite author profile

Susanna Concilio

3Publications

83Citation Statements Received

166Citation Statements Given

How they've been cited

How they cite others

154

158

Affiliations

Fox Chase Cancer Center, Arcadia University, Moffitt Cancer Center

Publications

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Evolution of Tumor Invasiveness: The Adaptive Tumor Microenvironment Landscape Model

Lee

Silva

Concilio

et al. 2011

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Interactions between cancer cells and their microenvironment are crucial for promoting tumor growth and invasiveness. In the tumor adaptive landscape model, hypoxic and acidic microenvironmental conditions reduce the fitness of cancer cells and significantly restrict their proliferation. This selects for enhanced motility as cancer cells may evolve an invasive phenotype if the consequent cell movement is rewarded by proliferation. Here, we used an integrative approach combining a mathematical tumor adaptive landscape model with experimental studies to examine the evolutionary dynamics that promote an invasive cancer phenotype. Computer simulation results hypothesized an explicit coupling of motility and proliferation in cancer cells. The mathematical modeling results were also experimentally examined by selecting Panc-1 cells with enhanced motility on a fibroblast-derived 3D matrix for cells that move away from the unfavorable metabolic constraints. After multiple rounds of selection, the cells that adapted through increased motility were characterized for their phenotypic properties compared to stationary cells. Microarray and gene depletion studies demonstrated the role of Rho-GDI2 in regulating both cell movement and proliferation. Together, this work illustrates the partnership between evolutionary mathematical modeling and experimental validation as a potentially useful approach to study the complex dynamics of the tumor microenvironment.

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Identification of neuronal substrates implicates Pak5 in synaptic vesicle trafficking

Strochlic

Concilio

Viaud

et al. 2012

Proc. Natl. Acad. Sci. U.S.A.

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Synaptic transmission is mediated by a complex set of molecular events that must be coordinated in time and space. While many proteins that function at the synapse have been identified, the signaling pathways regulating these molecules are poorly understood. Pak5 (p21-activated kinase 5) is a brain-specific isoform of the group II Pak kinases whose substrates and roles within the central nervous system are largely unknown. To gain insight into the physiological roles of Pak5, we engineered a Pak5 mutant to selectively radiolabel its substrates in murine brain extract. Using this approach, we identified two novel Pak5 substrates, Pacsin1 and Synaptojanin1, proteins that directly interact with one another to regulate synaptic vesicle endocytosis and recycling. Pacsin1 and Synaptojanin1 were phosphorylated by Pak5 and the other group II Paks in vitro, and Pak5 phosphorylation promoted Pacsin1-Synaptojanin1 binding both in vitro and in vivo. These results implicate Pak5 in Pacsin1-and Synaptojanin1-mediated synaptic vesicle trafficking and may partially account for the cognitive and behavioral deficits observed in group II Pak-deficient mice.

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Heat induction of a novel Rad9 variant from a cryptic translation initiation site reduces mitotic commitment

Janes

Schmidt

Garrido

et al. 2012

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SummaryExposure of human cells to heat switches the activating signal of the DNA damage checkpoint from genotoxic to temperature stress. This change reduces mitotic commitment at the expense of DNA break repair. The thermal alterations behind this switch remain elusive despite the successful use of heat to sensitise cancer cells to DNA breaks. Rad9 is a highly conserved subunit of the Rad9-Rad1-Hus1 (9-1-1) checkpointclamp that is loaded by Rad17 onto damaged chromatin. At the DNA, Rad9 activates the checkpoint kinases Rad3ATR and Chk1 to arrest cells in G2. Using Schizosaccharomyces pombe as a model eukaryote, we discovered a new variant of Rad9, Rad9-M50, whose expression is specifically induced by heat. High temperatures promote alternative translation from a cryptic initiation codon at methionine-50. This process is restricted to cycling cells and is independent of the temperature-sensing mitogen-activated protein kinase (MAPK) pathway. While fulllength Rad9 delays mitosis in the presence of DNA lesions, Rad9-M50 functions in a remodelled checkpoint pathway to reduce mitotic commitment at elevated temperatures. This remodelled pathway still relies on Rad1 and Hus1, but acts independently of Rad17. Heatinduction of Rad9-M50 ensures that the kinase Chk1 remains in a hypo-phosphorylated state. Elevated temperatures specifically reverse the DNA-damage-induced modification of Chk1 in a manner dependent on Rad9-M50. Taken together, heat reprogrammes the DNA damage checkpoint at the level of Chk1 by inducing a Rad9 variant that can act outside of the canonical 9-1-1 complex.

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