Sabina Winograd‐Katz scite author profile

The adhesive interactions of cells with their environment through the integrin family of transmembrane receptors have key roles in regulating multiple aspects of cellular physiology, including cell proliferation, viability, differentiation and migration. Consequently, failure to establish functional cell adhesions, and thus the assembly of associated cytoplasmic scaffolding and signalling networks, can have severe pathological effects. The roles of specific constituents of integrin-mediated adhesions, which are collectively known as the 'integrin adhesome', in diverse pathological states are becoming clear. Indeed, the prominence of mutations in specific adhesome molecules in various human diseases is now appreciated, and experimental as well as in silico approaches provide insights into the molecular mechanisms underlying these pathological conditions.

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Cisplatin induces PKB/Akt activation and p38MAPK phosphorylation of the EGF receptor

Winograd‐Katz

2006

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Cisplatin is an effective DNA-damaging antitumor agent employed for the treatment of various human cancers. In this study, we report that Cisplatin activates PKB/Akt in several cancer cell lines and that this activation is mediated by EGFR, Src and PI3-kinase. Inhibition of PI3-kinase activity decreases the survival of the cells exposed to Cisplatin, suggesting that Cisplatin-induced PKB/Akt activation may lead to Cisplatin resistance. While investigating the EGFR-dependent PKB/Akt activation in MDA-MB-468 cells, we found that the EGFR receptor undergoes a gel mobility shift upon Cisplatin treatment, which is mediated by p38MAPK . An EGFR, in which threonine 669 was mutated to alanine (A669), is phosphorylated by p38 MAPK to a much lesser extent, suggesting that threonine 669 is a p38 phosphorylation site. We found that Cisplatin induces EGFR internalization, which is mediated by p38 MAPK-dependent phosphorylation of the receptor on threonine 669. Our results identify the EGFR as a new substrate of p38 and identify threonine 669 as a new phosphorylation site that regulates EGFR internalization. Together, these results suggest that Cisplatin has side effects, which may alter the signaling pattern of cancer cells and modulate the desired effects of Cisplatin treatment.

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Recurrent inactivating RASA2 mutations in melanoma

et al. 2015

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Analysis of 501 melanoma exomes revealed RASA2, encoding a RasGAP, as a tumor-suppressor gene mutated in 5% of melanomas. Recurrent loss-of-function mutations in RASA2 were found to increase RAS activation, melanoma cell growth and migration. RASA2 expression was lost in ≥30% of human melanomas and was associated with reduced patient survival. These findings reveal RASA2 inactivation as a melanoma driver and highlight the importance of Ras GAPs in cancer.

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Involvement of actin polymerization in podosome dynamics

Luxenburg

Winograd‐Katz

Addadi

et al. 2012

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SummaryPodosomes, which are formed by different monocyte derivatives, are small adhesion structures whose coordinated dynamics and cytoskeletal reorganization drive their motile and invasive features. Using live-cell microscopy, we explored the temporal molecular steps of the de novo assembly and disassembly of podosomes in cultured osteoclasts. We demonstrate here that the earliest visible step in podosome assembly is the local accumulation of the plaque protein paxillin, along with cortactin, which stabilizes actin networks, followed by robust polymerization of actin filaments and their association with a-actinin. Only then is a local increase in integrin b3 levels apparent in the podosome ring domain. Thus, local actin polymerization in cortactin-and paxillin-rich locations nucleates podosome assembly before the local accumulation of b3 integrin. We further show that actin polymerization is also important for the recruitment and maintenance of plaque proteins in the mature podosome ring domain. Our model implies that core bundle dynamics play a central role in regulating podosome stability.

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Multiparametric analysis of focal adhesion formation by RNAi-mediated gene knockdown

Winograd‐Katz

Itzkovitz

Kam

et al. 2009

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Cell adhesion to the extracellular matrix is mediated by elaborate networks of multiprotein complexes consisting of adhesion receptors, cytoskeletal components, signaling molecules, and diverse adaptor proteins. To explore how specific molecular pathways function in the assembly of focal adhesions (FAs), we performed a high-throughput, high-resolution, microscopy-based screen. We used small interfering RNAs (siRNAs) to target human kinases, phosphatases, and migration- and adhesion-related genes. Multiparametric image analysis of control and of siRNA-treated cells revealed major correlations between distinct morphological FA features. Clustering analysis identified different gene families whose perturbation induced similar effects, some of which uncoupled the interfeature correlations. Based on these findings, we propose a model for the molecular hierarchy of FA formation, and tested its validity by dynamic analysis of FA formation and turnover. This study provides a comprehensive information resource on the molecular regulation of multiple cell adhesion features, and sheds light on signaling mechanisms regulating the formation of integrin adhesions.

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