Dai Kezuka scite author profile

Dai Kezuka

4Publications

73Citation Statements Received

56Citation Statements Given

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151

Affiliations

Tohoku Medical and Pharmaceutical University Hospital, Tohoku University, Kanazawa University

Publications

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Deletion of N‐myc downstream‐regulated gene 2 attenuates reactive astrogliosis and inflammatory response in a mouse model of cortical stab injury

Takarada-Iemata

Kezuka

Takeichi

et al. 2014

Journal of Neurochemistry

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N-myc downstream-regulated gene 2 (Ndrg2) is a differentiation-and stress-associated molecule predominantly expressed in astrocytes in the CNS. In this study, we examined the expression and the role of Ndrg2 after cortical stab injury. We observed that Ndrg2 expression was elevated in astrocytes surrounding the wounded area as early as day 1 after injury in wild-type mice. Deletion of Ndrg2 resulted in lower induction of reactive astroglial and microglial markers in the injured cortex. Histological analysis showed reduced levels of hypertrophic changes in astrocytes, accumulation of microglia, and neuronal death in Ndrg2 À/À mice after injury.Furthermore, activation of the IL-6/signal transducer and activator of transcription 3 (STAT3) pathway, including the expression of IL-6 family cytokines and phosphorylation of STAT3, was markedly reduced in Ndrg2 À/À mice after injury.In a culture system, both of Il6 and Gfap were up-regulated in wild-type astrocytes treated with forskolin. Deletion of Ndrg2 attenuated induction of these genes, but did not alter proliferation or migration of astrocytes. Adenovirus-mediated reexpression of Ndrg2 rescued the reduction of IL-6 expression after forskolin stimulation. These findings suggest that Ndrg2 plays a key role in reactive astrogliosis after cortical stab injury through a mechanism involving the positive regulation of IL-6/ STAT3 signaling.

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Deletion of Atf6α enhances kainate-induced neuronal death in mice

Kezuka

Tkarada-Iemata

Hattori

et al. 2016

Neurochemistry International

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Blockade of checkpoint ILT3/LILRB4/gp49B binding to fibronectin ameliorates autoimmune disease in BXSB/Yaa mice

Inui

Wong

et al. 2021

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Extracellular matrix (ECM) is the basis for virtually whole cellular processes and is also related to tumor metastasis. Fibronectin (FN), a major ECM macromolecule expressed by different cell types and also present in plasma, consists of multiple functional modules that bind to ECM-associated, plasma, and cell-surface proteins such as integrin and FN itself, thus ensuring its cell-adhesive and modulatory role. Here we show that FN constitutes an immune checkpoint. Thus, FN was identified as a physiological ligand for a tumor/leukemia/lymphoma- as well as autoimmune-associated checkpoint, ILT3/LILRB4 (B4, CD85k). Human B4 and the murine ortholog, gp49B, bound FN with sub-micromolar affinities as assessed by bio-layer interferometry. The major B4-binding site in FN was located at the N-terminal 30-kDa module (FN30), which is apart from the major integrin-binding site present at middle of the molecule. Blockade of B4–FN binding such as with B4 antibodies or a recombinant FN30-Fc fusion protein paradoxically ameliorated autoimmune disease in lupus-prone BXSB/Yaa mice. These unexpected nature of the B4–FN checkpoint in autoimmunity is discussed, referring to its potential role in tumor immunity.

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Gp49B is a pathogenic marker for auto-antibody-producing plasma cells in lupus-prone BXSB/Yaamice

Wong

Sugahara–Tobinai

et al. 2019

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Immune homeostasis is critically regulated by the balance between activating and inhibitory receptors expressed on various immune cells such as T and B lymphocytes, and myeloid cells. The inhibitory receptors play a fundamental role in the immune checkpoint pathway, thus maintaining peripheral tolerance. We recently found that expression of leukocyte immunoglobulin-like receptor (LILR)B4, an inhibitory member of the human LILR family, is augmented in auto-antibody-producing plasmablasts/plasma cells of systemic lupus erythematosus (SLE) patients. However, the mechanism behind the ‘paradoxical’ up-regulation of this inhibitory receptor upon pathogenic antibody-secreting cells is yet to be known. To this end, in this study, we examined if glycoprotein 49B (gp49B), the murine counterpart of human LILRB4, is also elevated in auto-antibody-producing cells in several SLE mouse models, and tried to clarify the underlying mechanism. We found that gp49B is expressed on plasma cells of lupus-prone models but not of healthy C57BL/6 mice, and the level was positively correlated to the anti-double-stranded DNA IgG titer in serum. Gp49B genetic deletion, however, did not abolish the serum auto-antibodies or fully ameliorate the lethal glomerulonephritis, indicating that gp49B is not the sole regulator of lupus but a pathogenic element in the disease. We conclude that the elevated expression of this inhibitory receptor on pathogenic plasma cells was also relevant upon the murine SLE model. The mechanism of gp49B underlying the disease progression in lupus-prone mice has been discussed.

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Dai Kezuka

Deletion of N‐myc downstream‐regulated gene 2 attenuates reactive astrogliosis and inflammatory response in a mouse model of cortical stab injury

Deletion of Atf6α enhances kainate-induced neuronal death in mice

Blockade of checkpoint ILT3/LILRB4/gp49B binding to fibronectin ameliorates autoimmune disease in BXSB/Yaa mice

Gp49B is a pathogenic marker for auto-antibody-producing plasma cells in lupus-prone BXSB/Yaamice

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