Tetsuro Sugiura scite author profile

The 'metastasis suppressor' CD82/KAI-1, a member of the tetraspanin superfamily of transmembrane proteins, is widely distributed in normal tissues [1], and has been shown to be suppressed in the advanced stages of various epithelial malignancies [2-6]. Although the physiological relevance of this change is unknown, in vitro data show that ectopically expressed CD82/KAI-1 can suppress tumor cell migration, a process underlying the dissemination of tumor cells in vivo [5]. The function of CD82/KAI-1 is not known and it has been proposed that association of CD82/KAI-1 with other cell-surface proteins may be pivotal in directing its biological activities [7,8]. We show here that the CD82/KAI-1 tetraspanin is directly associated with the EGF receptor (EGFR), and that ectopic expression of CD82/KAI-1 in epithelial cells specifically suppresses EGF-induced lamellipodial extensions and cell migration. In cells expressing CD82/KAI-1, the initial activation of EGFR is not affected, but subsequent desensitization of EGF-induced signaling occurs more rapidly. This attenuation is correlated with an increased rate of receptor endocytosis. These results identify CD82/KAI-1 as a new regulator of EGF-induced signaling and show that the association of EGFR with the tetraspanin is critical in EGFR desensitization.

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Experimental Protection of Mice against LethalStaphylococcus aureusInfection by Novel Bacteriophage φMR11

Matsuzaki

et al. 2003

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The protective effects of bacteriophages were assessed against experimental Staphylococcus aureus infection in mice. Of the S. aureus phages isolated in the study, phi MR11 was representatively used for all testing, because its host range was the most broad and it carries no genes for known toxins or antibiotic resistance. Intraperitoneal injections (8 x 10(8) cells) of S. aureus, including methicillin-resistant bacteria, caused bacteremia and eventual death in mice. In contrast, subsequent intraperitoneal administration of purified phi MR11 (MOI > or = 0.1) suppressed S. aureus-induced lethality. This lifesaving effect coincided with the rapid appearance of phi MR11 in the circulation, which remained at substantial levels until the bacteria were eradicated. Inoculation with high-dose phi MR11 alone produced no adverse effects attributable to the phage. These results uphold the efficacy of phage therapy against pernicious S. aureus infections in humans and suggest that phi MR11 may be a potential prototype for gene-modified, advanced therapeutic S. aureus phages.

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Function of α3β1–Tetraspanin Protein Complexes in Tumor Cell Invasion. Evidence for the Role of the Complexes in Production of Matrix Metalloproteinase 2 (Mmp-2)

1999

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Tumor cell migration through the three- dimensional extracellular matrix (ECM) environment is an important part of the metastatic process. We have analyzed a role played by the integrin–tetraspanin protein complexes in invasive migration by culturing MDA-MB-231 cells within Matrigel. Using time-lapse video recording, we demonstrated that the Matrigel-embedded cells remain round and exhibit only limited ability for migration by extending short, highly dynamic pseudopodia. The α3β1–tetraspanin protein complexes were clustered on the thin microvilli-like protrusions extending from both the main cell body and pseudopodia. Ligation of the α3β1–tetraspanin protein complexes with monoclonal antibodies specifically stimulates production of matrix metalloproteinase 2 (MMP-2) and induces formation of long invasive protrusions within Matrigel. Accordingly, treatment with the monoclonal antibodies to various tetraspanin proteins and to the α3 integrin subunit increases invasive potential of the MDA-MB-231 cells in the Matrigel-penetration assay. A specific inhibitor of phosphoinositide 3-kinase (PI3K), LY294002, negated the effect of the monoclonal antibodies on the morphology of the Matrigel-embedded cells and on production of MMP-2. Interestingly, broad-spectrum inhibitors of protein tyrosine kinases (genistein) and protein tyrosine phosphatases (orthovanadate), and actin filament stabilizing compound (jasplakinolide), also block protrusive activity of the Matrigel-embedded cells but have no effect on the production of MMP-2. These results indicate that α3β1–tetraspanin protein complexes may control invasive migration of tumor cells by using at least two PI3K-dependent signaling mechanisms: through rearrangement of the actin cytoskeleton and by modulating the MMP-2 production.

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Significance of High-Sensitivity Cardiac Troponin T in Hypertrophic Cardiomyopathy

Kubo

Kitaoka

Yamanaka

et al. 2013

Journal of the American College of Cardiology

124

101

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Tetsuro Sugiura

Retrospective analysis of 1502 patients with facial fractures

Attenuation of EGF receptor signaling by a metastasis suppressor, the tetraspanin CD82/KAI-1

Experimental Protection of Mice against LethalStaphylococcus aureusInfection by Novel Bacteriophage φMR11

Function of α3β1–Tetraspanin Protein Complexes in Tumor Cell Invasion. Evidence for the Role of the Complexes in Production of Matrix Metalloproteinase 2 (Mmp-2)

Significance of High-Sensitivity Cardiac Troponin T in Hypertrophic Cardiomyopathy

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