Kozo Yamaichi scite author profile

Kozo Yamaichi

5Publications

41Citation Statements Received

42Citation Statements Given

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118

Affiliations

Daiichi-Sankyo (Japan), Suntory (Japan), Osaka University

Publications

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Purification, cDNA Cloning, and Characterization of a New Serpin with Megakaryocyte Maturation Activity

Tsujimoto¹,

Tsuruoka²,

Ishida³

et al. 1997

Journal of Biological Chemistry

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A new member of the serine protease inhibitor (serpin) superfamily with megakaryocyte maturation activity was purified, and its cDNA was cloned and characterized. The predicted amino acid sequence consisting of 380 residues was unique and was 38% identical to the serpin plasminogen activator inhibitor type 2 (PAI-2). The recombinant factor expressed in Chinese hamster ovary cells showed species-specific activity on the induction of megakaryocyte maturation in vitro. When injected into mice, the factor indeed elicited an increase in the number of platelets in plasma. The sequence alignment indicated that the factor possessed a lysine residue at the P 1 position, suggesting that it might function as an inhibitor of Lys-specific proteases. Although we could not show any inhibitory activities toward several known Lys-specific proteases, we detected the activity toward protease activity present in the culture supernatant of COLO 201 cells. These results suggested that the protein might influence the maturation of megakaryocytes via action as a serpin.

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Discovery of a non-peptide small molecule that selectively mimics the biological actions of calcitonin

Katayama

Furuya

Yamaichi

et al. 2001

Biochimica et Biophysica Acta (BBA) - General Subjects

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High level expression of a frog α-amidating enzyme, AE-II, in cultured cells and silkworm larvae using aBombyx mori nuclear polyhedrosis virus expression vector

et al. 1992

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A Xenopus laevis peptidyl C-terminal alpha-amidating enzyme (AE-II) gene, modified by deletion of a region encoding the putative membrane-spanning domain and the putative C-terminal cytosolic tail, was expressed in BoMo-15 AIIc insect cells and silkworm larvae using a Bombyx mori baculovirus expression vector system. The expressed enzyme was identified predominantly in the culture medium and the hemolymph of silkworm larvae, indicating successful secretion of the expressed AE-II. The level of recombinant enzyme in the larval hemolymph at 4 days post-infection (40 micrograms/ml) was more than 100-fold the peak levels found in the culture medium (250 ng/ml). The enzyme activity in the larval hemolymph at 4 days post-infection was 3700 units/ml.

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Imidocarb, a potent anti-protozoan drug, up-regulates interleukin-10 production by murine macrophages

Katayama

Hayashi

Nagahira

et al. 2003

Biochemical and Biophysical Research Communications

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The prevention of an anomalous chromatographic behavior and the resulting successful removal of viruses from monoclonal antibody with an asymmetric charge distribution by using a membrane adsorber in highly efficient, anion‐exchange chromatography in flow‐through mode

Masuda

Ogino

Yamaichi

et al. 2020

Biotechnology Progress

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Anion exchange (AEX) chromatography in the flow‐through mode is a widely employed purification process for removal of process/product‐related impurities and exogenous/endogenous viruses from monoclonal antibodies (mAbs). The pH of the mobile phase for AEX chromatography is typically set at half a unit below the isoelectric point (pI) of each mAb (i.e., pI − 0.5) or lower and, in combination with a low ionic strength, these conditions are usually satisfactory for both the recovery of the mAb and removal of impurities. However, we have recently encountered a tight binding of mAb1 to AEX resins under these standard chromatographic conditions. This anomalous adsorption behavior appears to be an effect of the asymmetric charge distribution on the surface of the mAb1. We found that mAb1 did not bind to the AEX resins if the mobile phase has a much lower pH and higher ionic strength, but those conditions would not allow adequate virus removal. We predicted that the use of membrane adsorbers might provide effective mAb1 purification, since the supporting matrix has a network structure that would be less susceptible to interactions with the asymmetric charge distribution on the protein surface. We tested the Natriflo HD‐Q AEX membrane adsorber under standard chromatographic conditions and found that mAb1 flowed through the membrane adsorber, resulting in successful separation from murine leukemia virus. This AEX membrane adsorber is expected to be useful for process development because mAbs can be purified under similar standard chromatographic conditions regardless of their charge distributions.

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Kozo Yamaichi

Purification, cDNA Cloning, and Characterization of a New Serpin with Megakaryocyte Maturation Activity

Discovery of a non-peptide small molecule that selectively mimics the biological actions of calcitonin

High level expression of a frog α-amidating enzyme, AE-II, in cultured cells and silkworm larvae using aBombyx mori nuclear polyhedrosis virus expression vector

Imidocarb, a potent anti-protozoan drug, up-regulates interleukin-10 production by murine macrophages

The prevention of an anomalous chromatographic behavior and the resulting successful removal of viruses from monoclonal antibody with an asymmetric charge distribution by using a membrane adsorber in highly efficient, anion‐exchange chromatography in flow‐through mode

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