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Rho-Kinase Phosphorylates COOH-terminal Threonines of Ezrin/Radixin/Moesin (ERM) Proteins and Regulates Their Head-to-Tail Association

Matsui, Takeshi ; Maeda, Masato ; Doi, Yoshinori ; [et al.]

Rockefeller University Press ; 1998

In: The Journal of Cell Biology Vol. 140, No. 3 ( 1998-02-09), p. 647-657

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In: The Journal of Cell Biology, Rockefeller University Press, Vol. 140, No. 3 ( 1998-02-09), p. 647-657

Abstract: The ezrin/radixin/moesin (ERM) proteins are involved in actin filament/plasma membrane interaction that is regulated by Rho. We examined whether ERM proteins are directly phosphorylated by Rho- associated kinase (Rho-kinase), a direct target of Rho. Recombinant full-length and COOH-terminal half radixin were incubated with constitutively active catalytic domain of Rho-kinase, and ∼30 and ∼100% of these molecules, respectively, were phosphorylated mainly at the COOH-terminal threonine (T564). Next, to detect Rho-kinase–dependent phosphorylation of ERM proteins in vivo, we raised a mAb that recognized the T564-phosphorylated radixin as well as ezrin and moesin phosphorylated at the corresponding threonine residue (T567 and T558, respectively). Immunoblotting of serum-starved Swiss 3T3 cells with this mAb revealed that after LPA stimulation ERM proteins were rapidly phosphorylated at T567 (ezrin), T564 (radixin), and T558 (moesin) in a Rho-dependent manner and then dephosphorylated within 2 min. Furthermore, the T564 phosphorylation of recombinant COOH-terminal half radixin did not affect its ability to bind to actin filaments in vitro but significantly suppressed its direct interaction with the NH2-terminal half of radixin. These observations indicate that the Rho-kinase–dependent phosphorylation interferes with the intramolecular and/ or intermolecular head-to-tail association of ERM proteins, which is an important mechanism of regulation of their activity as actin filament/plasma membrane cross-linkers.

Type of Medium: Online Resource

ISSN: 0021-9525 , 1540-8140

URL: Article

DOI: 10.1083/jcb.140.3.647

RVK:

WA 15000

Language: English

Publisher: Rockefeller University Press

Publication Date: 1998

detail.hit.zdb_id: 1421310-2

SSG: 12

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ERM (Ezrin/Radixin/Moesin)-based Molecular Mechanism of Microvillar Breakdown at an Early Stage of Apoptosis

Kondo, Takahisa ; Takeuchi, Kosei ; Doi, Yoshinori ; [et al.]

Rockefeller University Press ; 1997

In: The Journal of Cell Biology Vol. 139, No. 3 ( 1997-11-03), p. 749-758

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In: The Journal of Cell Biology, Rockefeller University Press, Vol. 139, No. 3 ( 1997-11-03), p. 749-758

Abstract: Breakdown of microvilli is a common early event in various types of apoptosis, but its molecular mechanism and implications remain unclear. ERM (ezrin/radixin/moesin) proteins are ubiquitously expressed microvillar proteins that are activated in the cytoplasm, translocate to the plasma membrane, and function as general actin filament/plasma membrane cross-linkers to form microvilli. Immunofluorescence microscopic and biochemical analyses revealed that, at the early phase of Fas ligand (FasL)–induced apoptosis in L cells expressing Fas (LHF), ERM proteins translocate from the plasma membranes of microvilli to the cytoplasm concomitant with dephosphorylation. When the FasL-induced dephosphorylation of ERM proteins was suppressed by calyculin A, a serine/threonine protein phosphatase inhibitor, the cytoplasmic translocation of ERM proteins was blocked. The interleukin-1β–converting enzyme (ICE) protease inhibitors suppressed the dephosphorylation as well as the cytoplasmic translocation of ERM proteins. These findings indicate that during FasL-induced apoptosis, the ICE protease cascade was first activated, and then ERM proteins were dephosphorylated followed by their cytoplasmic translocation, i.e., microvillar breakdown. Next, to examine the subsequent events in microvillar breakdown, we prepared DiO-labeled single-layered plasma membranes with the cytoplasmic surface freely exposed from FasL-treated or nontreated LHF cells. On single-layered plasma membranes from nontreated cells, ERM proteins and actin filaments were densely detected, whereas those from FasL-treated cells were free from ERM proteins or actin filaments. We thus concluded that the cytoplasmic translocation of ERM proteins is responsible for the microvillar breakdown at an early phase of apoptosis and that the depletion of ERM proteins from plasma membranes results in the gross dissociation of actin-based cytoskeleton from plasma membranes. The physiological relevance of this ERM protein–based microvillar breakdown in apoptosis will be discussed.

Type of Medium: Online Resource

ISSN: 0021-9525 , 1540-8140

URL: Article

DOI: 10.1083/jcb.139.3.749

RVK:

WA 15000

Language: English

Publisher: Rockefeller University Press

Publication Date: 1997

detail.hit.zdb_id: 1421310-2

SSG: 12

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Normal Development of Mice and Unimpaired Cell Adhesion/Cell Motility/Actin-based Cytoskeleton without Compensatory Up-regulation of Ezrin or Radixin in Moesin Gene Knockout

Doi, Yoshinori ; Itoh, Masahiko ; Yonemura, Shigenobu ; [et al.]

Elsevier BV ; 1999

In: Journal of Biological Chemistry Vol. 274, No. 4 ( 1999-01), p. 2315-2321

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In: Journal of Biological Chemistry, Elsevier BV, Vol. 274, No. 4 ( 1999-01), p. 2315-2321

Type of Medium: Online Resource

ISSN: 0021-9258

URL: Article

DOI: 10.1074/jbc.274.4.2315

Language: English

Publisher: Elsevier BV

Publication Date: 1999

detail.hit.zdb_id: 2141744-1

detail.hit.zdb_id: 1474604-9

SSG: 12

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Ezrin/Radixin/Moesin (ERM) Proteins Bind to a Positively Charged Amino Acid Cluster in the Juxta-Membrane Cytoplasmic Domain of CD44, CD43, and ICAM-2

Yonemura, Shigenobu ; Hirao, Motohiro ; Doi, Yoshinori ; [et al.]

Rockefeller University Press ; 1998

In: The Journal of Cell Biology Vol. 140, No. 4 ( 1998-02-23), p. 885-895

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In: The Journal of Cell Biology, Rockefeller University Press, Vol. 140, No. 4 ( 1998-02-23), p. 885-895

Abstract: Abstract. CD44 has been identified as a membrane-binding partner for ezrin/radixin/moesin (ERM) proteins, plasma membrane/actin filament cross-linkers. ERM proteins, however, are not necessarily colocalized with CD44 in tissues, but with CD43 and ICAM-2 in some types of cells. We found that glutathione-S-transferase fusion proteins with the cytoplasmic domain of CD43 and ICAM-2, as well as CD44, bound to moesin in vitro. The regions responsible for the in vitro binding of CD43 and CD44 to moesin were narrowed down to their juxta-membrane 20–30–amino acid sequences in the cytoplasmic domain. These sequences and the cytoplasmic domain of ICAM-2 (28 amino acids) were all characterized by the positively charged amino acid clusters. When E-cadherin chimeric molecules bearing these positively charged amino acid clusters of CD44, CD43, or ICAM-2 were expressed in mouse L fibroblasts, they were co-concentrated with ERM proteins at microvilli, whereas those lacking these clusters were diffusely distributed on the cell surface. The specific binding of ERM proteins to the juxta-membrane positively charged amino acid clusters of CD44, CD43, and ICAM-2 was confirmed by immunoprecipitation and site-directed mutagenesis. From these findings, we conclude that ERM proteins bind to integral membrane proteins bearing a positively charged amino acid cluster in their juxta-membrane cytoplasmic domain.

Type of Medium: Online Resource

ISSN: 0021-9525 , 1540-8140

URL: Article

DOI: 10.1083/jcb.140.4.885

RVK:

WA 15000

Language: English

Publisher: Rockefeller University Press

Publication Date: 1998

detail.hit.zdb_id: 1421310-2

SSG: 12

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