Mahdi Mojallal scite author profile

The assembly of individual endothelial cells into multicellular tubes is a complex morphogenetic event in vascular development. Extracellular matrix cues and cell-cell junctional communication are fundamental to tube formation. Together they determine the shape of endothelial cells and the tubular structures that they ultimately form. Little is known regarding how mechanical signals are transmitted between cells to control cell shape changes during morphogenesis. Here we provide evidence that the scaffold protein amotL2 is needed for aortic vessel lumen expansion. Using gene inactivation strategies in zebrafish, mouse and endothelial cell culture systems, we show that amotL2 associates to the VE-cadherin adhesion complex where it couples adherens junctions to contractile actin fibres. Inactivation of amotL2 dissociates VE-cadherin from cytoskeletal tensile forces that affect endothelial cell shape. We propose that the VE-cadherin/amotL2 complex is responsible for transmitting mechanical force between endothelial cells for the coordination of cellular morphogenesis consistent with aortic lumen expansion and function.

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AmotL2 disrupts apical–basal cell polarity and promotes tumour invasion

Mojallal

Zheng

Hultin

et al. 2014

Nat Commun

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The establishment and maintenance of apical-basal cell polarity is essential for the functionality of glandular epithelia. Cell polarity is often lost in advanced tumours correlating with acquisition of invasive and malignant properties. Despite extensive knowledge regarding the formation and maintenance of polarity, the mechanisms that deregulate polarity in metastasizing cells remain to be fully characterized. Here we show that AmotL2 expression correlates with loss of tissue architecture in tumours from human breast and colon cancer patients. We further show that hypoxic stress results in activation of c-Fos-dependent expression of AmotL2 leading to loss of polarity. c-Fos/hypoxia-induced p60 AmotL2 interacts with the Crb3 and Par3 polarity complexes retaining them in large vesicles and preventing them from reaching the apical membrane. The resulting loss of polarity potentiates the response to invasive cues in vitro and in vivo in mice. These data provide a molecular mechanism how hypoxic stress deregulates cell polarity during tumour progression.

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Abstract A12: AmotL2 linking hypoxia to invasion

Mojallal

Zheng

Hultin

et al. 2011

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Hypoxia has been shown to be a bad prognostic marker correlating with metastasis and poor survival. Furthermore, in response to antiangiogenic therapy hypoxic tumor cells become invasive and form metastasis. Malignant tumor cells undergo epithelial-mesenchymal transition (EMT) and become depolarized. A protein important for apicobasal polarity during tumor progression is Crumbs3 (crb3). Silencing of Crumbs3 disrupts epithelial cell polarity and possibly promotes metastasis. AmotL2, a gene regulated by hypoxia, associates to the Crb3/Pals/Patj polarity complex via its PDZ-binding motif (unpublished data). Here we show that AmotL2 disrupts apicobasal polarity resulting in the development of an invasive phenotype. Citation Format: {Authors}. {Abstract title} [abstract]. In: Proceedings of the Second AACR International Conference on Frontiers in Basic Cancer Research; 2011 Sep 14-18; San Francisco, CA. Philadelphia (PA): AACR; Cancer Res 2011;71(18 Suppl):Abstract nr A12.

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Mahdi Mojallal

AmotL2 links VE-cadherin to contractile actin fibres necessary for aortic lumen expansion

AmotL2 disrupts apical–basal cell polarity and promotes tumour invasion

Abstract A12: AmotL2 linking hypoxia to invasion

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