Taisuke Kanaji scite author profile

Platelet interaction with exposed adhesive ligands at sites of vascular injury is required to initiate a normal hemostatic response and may become a pathogenic factor in arterial diseases leading to thrombosis. We report a targeted disruption in a key receptor for collageninduced platelet activation, glycoprotein (GP) VI. The breeding of mice with heterozygous GP VI alleles produced the expected frequency of wild-type, heterozygous, and homozygous genotypes, indicating that these animals had no reproductive problems and normal viability. GP VI null platelets failed to aggregate in response to type I fibrillar collagen or convulxin, a snake venom protein and known platelet agonist of GP VI. Nevertheless, tail bleeding time measurements revealed no severe bleeding tendency as a consequence of GP VI deficiency. Ex vivo platelet thrombus formation on type I collagen fibrils was abolished using blood from either GP VI null or FcR-␥ null animals. Reflection interference contrast microscopy revealed that the lack of thrombus formation by GP VI null platelets could be linked to a defective platelet activation following normal initial tethering to the surface, visualized as lack of spreading and less stable adhesion. These results illustrate the role of GP VI in postadhesion events leading to the development of platelet thrombi on collagen fibrils. IntroductionPlatelet membrane receptors interact with surface-bound adhesive ligands and, as such, become essential for hemostasis and thrombosis. 1 There are numerous unique receptors interacting with different adhesive ligands suggesting that a large opportunity exists for functional redundancy in platelet adhesion. However, an emerging theme of platelet biology is the relevance of different membrane receptors in different areas of the vasculature. 2,3 A specific example is the exclusive role for the platelet glycoprotein (GP) Ib-IX-V complex and von Willebrand factor in areas of the vascular system where flow rates and high shear occur, such as in small arteries and arterioles. 4 Thus, defining the physiologic relevance of an individual receptor and its ligand is an important aspect for understanding participation of the platelet in hemostasis and thrombosis.Among adhesive ligands of the extravascular matrix, collagen is a significant component with a number of known collagen receptors on the platelet surface. 5,6 One of the more recently characterized collagen receptors is GP VI. 7 The molecular cloning of GP VI revealed it to be a member of the immunoglobulin superfamily of type I transmembrane proteins. [8][9][10] The surface expression of GP VI requires the concomitant expression of the ␥-subunit of the FcR receptor (FcR-␥) and their association is functionally relevant as collagen binding to GP VI results in platelet signaling via the immunoreceptor tyrosine-based activation motif (ITAM) located in the FcR-␥ subunit. 8,[11][12][13][14] As with many of the platelet receptors, the in vivo relevance of GP VI was established prior to its description and recognition as a p...

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Involvement of IL-32 in activation-induced cell death in T cells

Goda¹,

Kanaji²,

Kanaji³

et al. 2006

180

195

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NK cell transcript 4 (NK4), now denoted as IL-32, was originally identified as a transcript whose expression was increased in activated NK cells. It has been very recently demonstrated that NK4 is secreted from several cells upon the stimulation of some inflammatory cytokines such as IL-18, IL-1beta, IFN-gamma and IL-12. Furthermore, NK4 induces production of tumor necrosis factor, macrophage inflammatory protein (MIP)-2 and IL-8 in monocytic cell lines, indicating that this factor would be involved in the inflammatory responses. Based on these findings, NK4 was renamed IL-32. However, the biological activities of IL-32 on other cell types remained undetermined. Furthermore, it was still argued whether IL-32 acts on cells from outside or inside the cells. In this article, we first report that expression of IL-32 was up-regulated in activated T cells and NK cells, and that IL-32beta was the predominantly expressed isoform in activated T cells. IL-32 was specifically expressed in T cells undergoing apoptosis and enforced expression of IL-32-induced apoptosis, whereas its down-regulation rescued the cells from apoptosis in HeLa cells. IL-32 existing in the supernatant would be derived from the cytoplasm of apoptotic cells. These results strongly indicated that IL-32 would be involved in activation-induced cell death in T cells, probably via its intracellular actions. Our present findings expand our understanding of the biological function of IL-32 and argue that IL-32 may act on cells, not only from the outside but also from the inside.

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Amelioration of the macrothrombocytopenia associated with the murine Bernard-Soulier syndrome

2002

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A Common Genetic Polymorphism (46 C to T Substitution) in the 5′-Untranslated Region of the Coagulation Factor XII Gene Is Associated With Low Translation Efficiency and Decrease in Plasma Factor XII Level

et al. 1998

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We studied the Hga I polymorphism (46 C/T) in the 5′-untranslated region of the coagulation factor XII (FXII) gene corresponding to four bases upstream from the ATG translation initiation codon. By using allele-specific restriction analysis with restriction endonuclease Hga I, the allele frequency of 46C/T was estimated to be 0.27/0.73 in Orientals (allele number =152), and conversely, 0.8/0.2 in Caucasians (allele number =40). Because it has been reported that plasma levels of FXII were lower in Orientals than in Caucasians, we investigated the relationship between this polymorphism and plasma levels of FXII. As a result, there were significant differences in plasma FXII levels between these three allele types: C/C,170±38% (178±27%); C/T, 141±29% (123±34%); and T/T, 82±19% (61±11%) [FXII activity (FXII antigen levels)]. In heterozygotes of 46 C/T both alleles were equally transcribed in hepatocytes, as determined by reverse transcription polymerase chain reaction (RT-PCR), suggesting little influence of the polymorphism at the level of transcription or on the stability of mRNA. In in vitro transcription/translation analysis, less FXII was produced from cDNA containing 46 T than from that containing 46 C. Therefore, it is highly likely that the 46 T polymorphism in the FXII gene decreased the translation efficiency and led to low plasma levels of FXII activity and antigen, probably due to the creation of another ATG codon and/or impairment of the consensus sequence for the translation initiation scanning model.

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Taisuke Kanaji

Periostin: A novel component of subepithelial fibrosis of bronchial asthma downstream of IL-4 and IL-13 signals

The contribution of glycoprotein VI to stable platelet adhesion and thrombus formation illustrated by targeted gene deletion

Involvement of IL-32 in activation-induced cell death in T cells

Amelioration of the macrothrombocytopenia associated with the murine Bernard-Soulier syndrome

A Common Genetic Polymorphism (46 C to T Substitution) in the 5′-Untranslated Region of the Coagulation Factor XII Gene Is Associated With Low Translation Efficiency and Decrease in Plasma Factor XII Level

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