Yoshihiro Fukui scite author profile

Immune and inflammatory responses require leukocytes to migrate within and through the vasculature, a process that is facilitated by their capacity to switch to a polarized morphology with asymmetric distribution of receptors. We report that neutrophil polarization within activated venules served to organize a protruding domain that engaged activated platelets present in the bloodstream. The selectin ligand PSGL-1 transduced signals emanating from these interactions, resulting in redistribution of receptors that drive neutrophil migration. Consequently, neutrophils unable to polarize or to transduce signals through PSGL-1 displayed aberrant crawling, and blockade of this domain protected mice against thrombo-inflammatory injury. These results reveal that recruited neutrophils scan for activated platelets, and suggest that their bipolarity allows integration of signals present at both the endothelium and the circulation before inflammation proceeds.

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Haematopoietic cell-specific CDM family protein DOCK2 is essential for lymphocyte migration

Fukui

Hashimoto

Sanui

et al. 2001

Nature

414

411

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Cell migration is a fundamental biological process involving membrane polarization and cytoskeletal dynamics, both of which are regulated by Rho family GTPases. Among these molecules, Rac is crucial for generating the actin-rich lamellipodial protrusion, a principal part of the driving force for movement. The CDM family proteins, Caenorhabditis elegans CED-5, human DOCK180 and Drosophila melanogaster Myoblast City (MBC), are implicated to mediate membrane extension by functioning upstream of Rac. Although genetic analysis has shown that CED-5 and Myoblast City are crucial for migration of particular types of cells, physiological relevance of the CDM family proteins in mammals remains unknown. Here we show that DOCK2, a haematopoietic cell-specific CDM family protein, is indispensable for lymphocyte chemotaxis. DOCK2-deficient mice (DOCK2-/-) exhibited migration defects of T and B lymphocytes, but not of monocytes, in response to chemokines, resulting in several abnormalities including T lymphocytopenia, atrophy of lymphoid follicles and loss of marginal-zone B cells. In DOCK2-/- lymphocytes, chemokine-induced Rac activation and actin polymerization were almost totally abolished. Thus, in lymphocyte migration DOCK2 functions as a central regulator that mediates cytoskeletal reorganization through Rac activation.

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Increased insulin sensitivity and hypoglycaemia in mice lacking the p85α subunit of phosphoinositide 3–kinase

et al. 1999

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The hallmark of type 2 diabetes, the most common metabolic disorder, is a defect in insulin-stimulated glucose transport in peripheral tissues. Although a role for phosphoinositide-3-kinase (PI3K) activity in insulin-stimulated glucose transport and glucose transporter isoform 4 (Glut4) translocation has been suggested in vitro, its role in vivo and the molecular link between activation of PI3K and translocation has not yet been elucidated. To determine the role of PI3K in glucose homeostasis, we generated mice with a targeted disruption of the gene encoding the p85alpha regulatory subunit of PI3K (Pik3r1; refs 3-5). Pik3r1-/- mice showed increased insulin sensitivity and hypoglycaemia due to increased glucose transport in skeletal muscle and adipocytes. Insulin-stimulated PI3K activity associated with insulin receptor substrates (IRSs) was mediated via full-length p85 alpha in wild-type mice, but via the p50 alpha alternative splicing isoform of the same gene in Pik3r1-/- mice. This isoform switch was associated with an increase in insulin-induced generation of phosphatidylinositol(3,4,5)triphosphate (PtdIns(3,4,5)P3) in Pik3r1-/- adipocytes and facilitation of Glut4 translocation from the low-density microsome (LDM) fraction to the plasma membrane (PM). This mechanism seems to be responsible for the phenotype of Pik3r1-/- mice, namely increased glucose transport and hypoglycaemia. Our work provides the first direct evidence that PI3K and its regulatory subunit have a role in glucose homeostasis in vivo.

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Antitumor Activity of ZSTK474, a New Phosphatidylinositol 3-Kinase Inhibitor

Yaguchi

Fukui²,

Koshimizu³

et al. 2006

361

282

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Adenoviral Gene Transfer of Activated Phosphatidylinositol 3′-Kinase and Akt Inhibits Apoptosis of Hypoxic Cardiomyocytes In Vitro

et al. 1999

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Background-The intracellular signaling pathways that control cardiomyocyte apoptosis have not been fully defined.Because insulin-like growth factor-1 (IGF-1) prevents cardiomyocyte apoptosis, we examined the role of its downstream signaling molecules in an in vitro model of hypoxia-induced cardiomyocyte apoptosis. Methods and Results-Treatment of rat neonatal cardiomyocytes with IGF-1 increased activity of both phosphatidylinositol 3Ј (PI 3)-kinase and its downstream target, Akt (also known as protein kinase B or PKB). Cardiomyocytes were subjected to hypoxia for 24 hours, and apoptosis was assessed by DNA laddering, TUNEL staining, and ELISA for histone-associated DNA fragments. IGF-1 treatment (100 nmol/L) reduced cardiomyocyte apoptosis, and this effect was inhibited by simultaneous treatment with a PI 3-kinase inhibitor.

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Yoshihiro Fukui

Neutrophils scan for activated platelets to initiate inflammation

Haematopoietic cell-specific CDM family protein DOCK2 is essential for lymphocyte migration

Increased insulin sensitivity and hypoglycaemia in mice lacking the p85α subunit of phosphoinositide 3–kinase

Antitumor Activity of ZSTK474, a New Phosphatidylinositol 3-Kinase Inhibitor

Adenoviral Gene Transfer of Activated Phosphatidylinositol 3′-Kinase and Akt Inhibits Apoptosis of Hypoxic Cardiomyocytes In Vitro

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