Sujata Guha Roy scite author profile

β-Catenin and plakoglobin (γ-catenin) are closely related molecules of the armadillo family of proteins. They are localized at the submembrane plaques of cell–cell adherens junctions where they form independent complexes with classical cadherins and α-catenin to establish the link with the actin cytoskeleton. Plakoglobin is also found in a complex with desmosomal cadherins and is involved in anchoring intermediate filaments to desmosomal plaques. In addition to their role in junctional assembly, β-catenin has been shown to play an essential role in signal transduction by the Wnt pathway that results in its translocation into the nucleus. To study the relationship between plakoglobin expression and the level of β-catenin, and the localization of these proteins in the same cell, we employed two different tumor cell lines that express N-cadherin, and α- and β-catenin, but no plakoglobin or desmosomal components. Individual clones expressing various levels of plakoglobin were established by stable transfection. Plakoglobin overexpression resulted in a dose-dependent decrease in the level of β-catenin in each clone. Induction of plakoglobin expression increased the turnover of β-catenin without affecting RNA levels, suggesting posttranslational regulation of β-catenin. In plakoglobin overexpressing cells, both β-catenin and plakoglobin were localized at cell– cell junctions. Stable transfection of mutant plakoglobin molecules showed that deletion of the N-cadherin binding domain, but not the α-catenin binding domain, abolished β-catenin downregulation. Inhibition of the ubiquitin-proteasome pathway in plakoglobin overexpressing cells blocked the decrease in β-catenin levels and resulted in accumulation of both β-catenin and plakoglobin in the nucleus. These results suggest that (a) plakoglobin substitutes effectively with β-catenin for association with N-cadherin in adherens junctions, (b) extrajunctional β-catenin is rapidly degraded by the proteasome-ubiquitin system but, (c) excess β-catenin and plakoglobin translocate into the nucleus.

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Regulation of α-smooth muscle actin gene expression in myofibroblast differentiation from rat lung fibroblasts

Roy

Nozaki

Phan

2001

The International Journal of Biochemistry & Cell Biology

117

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Role of stress fibers in the association of intermediate filaments with microtubules in fibroblast cells.

Roy

1993

Cell Biology International

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The association between intermediate filaments (IF) and microtubules (MT) has been demonstrated by several experiments using MT inhibitors and by microinjecting specific antibodies. The actin cytoskeleton has recently been assigned a role in this process of drug induced IF collapse. However, this was not found to be true in large cells with irregular morphology. For instance, in early passage diploid fibroblasts of human origin and in armadillo cell lines, where the cells are large, irregular in shape and exhibit prominent stress fibers (SF), depolymerization of MT with nocodazole did not lead to collapse of IF. Instead, the IF formed bundles of coils that seemed to associate with the SF. Disintegration of the SF with cytochalasin B led to the collapse of the IF. It appears that the actin organization in such large cells with extensive SF, is not as contractile as in typical spindle shaped fibroblasts which have relatively less stable actin organization. The stable SF may actually prevent IF collapse.

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Cytoplasmic microtubule assembly is altered in cytoplasts

Roy¹,

Bhisey²

1992

Cell Biology International Reports

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Sujata Guha Roy

Regulation of β-Catenin Levels and Localization by Overexpression of Plakoglobin and Inhibition of the Ubiquitin-Proteasome System

Regulation of α-smooth muscle actin gene expression in myofibroblast differentiation from rat lung fibroblasts

Role of stress fibers in the association of intermediate filaments with microtubules in fibroblast cells.

Cytoplasmic microtubule assembly is altered in cytoplasts

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