Your search keyword '"Manser, Edward"' showing total 5 results

1. Protein kinases required for segregation of vimentin filaments in mitotic process

Author

Yasui, Yoshihiro, Goto, Hidemasa, Matsui, Seiya, Manser, Edward, Lim, Louis, Nagata, Koh-ichi, and Inagaki, Masaki

Published

2001

2. Proximity proteomics identifies PAK4 as a component of Afadin–Nectin junctions.

Author

Baskaran, Yohendran, Tay, Felicia Pei-Ling, Ng, Elsa Yuen Wai, Swa, Claire Lee Foon, Wee, Sheena, Gunaratne, Jayantha, and Manser, Edward

Subjects

PROTEOMICS, CELL cycle proteins, TIGHT junctions, PHOSPHORYLATION, BIOTIN

Abstract

Human PAK4 is an ubiquitously expressed p21-activated kinase which acts downstream of Cdc42. Since PAK4 is enriched in cell-cell junctions, we probed the local protein environment around the kinase with a view to understanding its location and substrates. We report that U2OS cells expressing PAK4-BirA-GFP identify a subset of 27 PAK4-proximal proteins that are primarily cell-cell junction components. Afadin/AF6 showed the highest relative biotin labelling and links to the nectin family of homophilic junctional proteins. Reciprocally >50% of the PAK4-proximal proteins were identified by Afadin BioID. Co-precipitation experiments failed to identify junctional proteins, emphasizing the advantage of the BioID method. Mechanistically PAK4 depended on Afadin for its junctional localization, which is similar to the situation in Drosophila. A highly ranked PAK4-proximal protein LZTS2 was immuno-localized with Afadin at cell-cell junctions. Though PAK4 and Cdc42 are junctional, BioID analysis did not yield conventional cadherins, indicating their spatial segregation. To identify cellular PAK4 substrates we then assessed rapid changes (12') in phospho-proteome after treatment with two PAK inhibitors. Among the PAK4-proximal junctional proteins seventeen PAK4 sites were identified. We anticipate mammalian group II PAKs are selective for the Afadin/nectin sub-compartment, with a demonstrably distinct localization from tight and cadherin junctions. PAK4 is a kinase involved in cell-cell junctions, though the identify of the local protein network involving PAK4 is unclear. Here, the authors performed proximity proteomic analysis on mammalian PAK4 and find that PAK4 is associated with Afadin-dependent junctions, and report putative PAK4 phosphorylation substrates at this site. [ABSTRACT FROM AUTHOR]

Published

2021

3. Phosphorylation and reorganization of vimentin by p21-activated kinase (PAK).

Author

Goto, Hidemasa, Tanabe, Kazushi, Manser, Edward, Lim, Louis, Yasui, Yoshihiro, and Inagaki, Masaki

Subjects

CYTOSKELETAL proteins, CYTOSKELETON, PHOSPHORYLATION

Abstract

Abstract Background: Intermediate filament (IF) is one of the three major cytoskeletal filaments. Vimentin is the most widely expressed IF protein component. The Rho family of small GTPases, such as Cdc42, Rac and Rho, are thought to control the organization of actin filaments as well as other cytoskeletal filaments. Results: We determined if the vimentin filaments can be regulated by p21-activated kinase (PAK), one of targets downstream of Cdc42 or Rac. In vitro analyses revealed that vimentin served as an excellent substrate for PAK. This phosphorylated vimentin lost the potential to form 10 nm filaments. We identified Ser25, Ser38, Ser50, Ser65 and Ser72 in the amino-terminal head domain as the major phosphorylation sites on vimentin for PAK. The ectopic expression of constitutively active PAK in COS-7 cells induced vimentin phosphorylation. Fibre bundles or granulates of vimentin were frequent in these transfected cells. However, the kinase-inactive mutant induced neither vimentin phosphorylation nor filament reorganization. Conclusion: Our observations suggest that PAK may regulate the reorganization of vimentin filaments through direct vimentin phosphorylation. [ABSTRACT FROM AUTHOR]

Published

2002

4. A brain serine/threonine protein kinase activated by Cdc42 and Rac1.

Author

Manser, Edward and Leung, Thomas

Subjects

*PHOSPHORYLATION, *PROTEIN kinases

Abstract

Studies the brain serine/threonine protein kinase as a target for the p21ras-related proteins Cdc42 and Rac1. Sequence related to that of the yeast protein STE20, implicated in pheromone-response pathways; Decreased affinity freeing the p21 for further stimulatory activities; Model for p21 regulation of mammalian phosphorylation signalling pathways.

Published

1994

5. Regulation of phosphorylation pathways by p21 GTPases.

Author

Lim, Louis, Manser, Edward, Leung, Thomas, and Hall, Charistine

Subjects

*GUANOSINE triphosphatase, *PHOSPHORYLATION, *MITOGENS, *AMINO acids, *BIOCHEMISTRY, *CHEMICAL reactions

Abstract

The oncogenic Ras P21 GTPases regulate phosphorylation pathways that underlie a wealth of activities, including growth and differentiation, in organisms ranging from yeast to human. In matazoa, growth factors trigger conversion of Ras from an iactive GDP-bound form to an active GTP-bound form. This activation of Ras leads to activation of Raf. Raf is one of the initial kinases in the cytoplasmic mitogeneactivated protein kinase (MAPK) cascade, involving extracellular-signal-regulated kinases (ERK), which culminates in nuclear transcription. The Ras-related subfamily of Rho P21s, including Rho, Rac and Cdc42 are similarly active in their GTP-bound forms. These p21s mediate growth-factor-induced morphological changes involving actin-based cellular structures. For example, in mammalian fibroblasts, Rho mediates the formation of cytoskeletal stress fibres induced by lysophosphatidic acid, while Rac mediates the formation of membrane ruffles induced by platelet-derived growth factor, and Cdc42 mediates the formation of peripheral filophodia by bradykinin. In some cases, factor induced Rac activation results in Rho activation, and factor0induced Cdc42 activation leads to Rac activation, as determined by specific morphological changes. Although separate Cdc42/Rac and Rac/Rho hierarchies exist, these might not extend into a linear form (i.e. Cdc42&rar;Rac&rar;Rho) since Cdc42 and Rho activities may be competitive or even antagonistic. Thus Cdc42-mediated formation of filopodia is accompanied by loss of stress fibres (whose formation is mediated by Rho). Recently, mammalian kinases that bind to the GTP-bound forms or Rho p21s have been isolated. These kinases include the p21-activated serine/threonine kinase (PAK), which is stimulated by binding to Cdc42 and Rac, and the Rho-binding serine/threonine kinase (ROK), which is not as strongly stimulated by binding. [ABSTRACT FROM AUTHOR]

Published

1996