Your search keyword '"Tsunehito Higashi"' showing total 12 results

1. Protein kinase Cβ is involved in cigarette smoke gas phase-induced ferroptosis in J774 macrophages

Author

Tsunehito Higashi, Haruka Handa, Yosuke Mai, Katsumi Maenaka, and Takashi Tadokoro

Subjects

Cigarette smoke gas phase, Ferroptosis, Protein kinase C, Therapeutics. Pharmacology, RM1-950

Abstract

Cigarette smoking is a risk factor for respiratory infection caused by immune cell dysfunction. Cigarette smoke is divided into tar and gas phases. Although the gas phase induces cell death in various cell types, the mechanism for gas phase-induced cell death remains to be clarified. In this study, we have examined the effects of cigarette smoke gas phase on J774 macrophages. Cigarette smoke gas phase and cytotoxic factors in the gas phase induced protein kinase C (PKC)-dependent ferroptosis. Pharmacological studies using isoform-specific PKC inhibitors have revealed that PKCβ is involved in cigarette smoke gas phase-induced ferroptosis in J774 macrophages.

Published

2023

2. ARF1 recruits RAC1 to leading edge in neutrophil chemotaxis

Author

Yuichi Mazaki, Yasuhito Onodera, Tsunehito Higashi, Takahiro Horinouchi, Tsukasa Oikawa, and Hisataka Sabe

Subjects

Chemotaxis, ARF1, GBF1, RAC1, Medicine, Cytology, QH573-671

Abstract

Abstract Background The small GTPase ARF1 mediates membrane trafficking mostly from the Golgi, and is essential for the G protein-coupled receptor (GPCR)-mediated chemotaxis of neutrophils. In this process, ARF1 is activated by the guanine nucleotide exchanger GBF1, and is inactivated by the GTPase-activating protein GIT2. Neutrophils generate the Gβγ-PAK1-αPIX-GIT2 linear complex during GPCR-induced chemotaxis, in which αPIX activates RAC1/CDC42, which then employs PAK1. However, it has remained unclear as to why GIT2 is included in this complex. Results We investigated the association between ARF1 and RAC1/CDC42 during the fMLP-stimulated chemotaxis of HL60 cells. We found that the silencing of GBF1 significantly impaired the recruitment of RAC1 to the leading edges, but not PAK1, αPIX, RAC2, or CDC42. A significant population of RAC1 colocalized with ARF1 at the leading edges in stimulated cells, whereas fMLP activated both ARF1 and ARF5. Consistently, the silencing of ARF1, but not ARF5, impaired the recruitment of RAC1, whereas the silencing of RAC1 did not affect the recruitment of ARF1 to the leading edges. Conclusions Our results indicated that the activation of ARF1 triggers the plasma membrane recruitment of RAC1 in GPCR-mediated chemotaxis, which is essential for cortical actin remodeling. Thus, membrane remodeling at the leading edges appears to precede actin remodeling in chemotaxis. Together with the fact that GIT2, which inactivates ARF1, is an integral component of the machinery activating RAC1, we proposed a model in which the ARF1-RAC1 linkage enables the regulation of ARF1 by repetitive on/off cycles during GPCR-mediated neutrophil chemotaxis.

Published

2017

3. Cigarette Smoke Extract Inhibits Platelet Aggregation by Suppressing Cyclooxygenase Activity

Author

Hitoshi Kashiwagi, Koh-ichi Yuhki, Yoshitaka Imamichi, Fumiaki Kojima, Shima Kumei, Tsunehito Higashi, Takahiro Horinouchi, Soichi Miwa, Shuh Narumiya, and Fumitaka Ushikubi

Subjects

cigarette smoke extract, platelets, thromboxane a2, cyclooxygenase, Diseases of the circulatory (Cardiovascular) system, RC666-701

Abstract

The results of studies that were performed to determine whether cigarette smoking affects platelet function have been controversial, and the effects of nicotine- and tar-free cigarette smoke extract (CSE) on platelet function remain to be determined. The aim of this study was to determine the effect of CSE on platelet aggregation and to clarify the mechanism by which CSE affects platelet function. CSE inhibited murine platelet aggregation induced by 9,11-dideoxy-9α,11α-methanoepoxy-prosta-5Z,13E-dien-1-oic acid (U-46619), a thromboxane (TX) A2 receptor agonist, and that induced by collagen with respective IC50 values of 1.05 ± 0.14% and 1.34 ± 0.19%. A similar inhibitory action of CSE was also observed in human platelets. CSE inhibited arachidonic acid–induced TXA2 production in murine platelets with an IC50 value of 7.32 ± 2.00%. Accordingly, the inhibitory effect of CSE on collagen-induced aggregation was significantly blunted in platelets lacking the TXA2 receptor compared with the inhibitory effect in control platelets. In contrast, the antiplatelet effects of CSE in platelets lacking each inhibitory prostanoid receptor, prostaglandin (PG) I2 receptor and PGE2 receptor subtypes EP2 and EP4, were not significantly different from the effects in respective control platelets. Among the enzymes responsible for TXA2 production in platelets, the activity of cyclooxygenase (COX)-1 was inhibited by CSE with an IC50 value of 1.07 ± 0.15% in an uncompetitive manner. In contrast, the activity of TX synthase was enhanced by CSE. The results indicate that CSE inhibits COX-1 activity and thereby decreases TXA2 production in platelets, leading to inhibition of platelet aggregation.

Published

2017

4. Endothelin Receptor Signaling: New Insight Into Its Regulatory Mechanisms

Author

Takahiro Horinouchi, Koji Terada, Tsunehito Higashi, and Soichi Miwa

Subjects

Therapeutics. Pharmacology, RM1-950

Abstract

The endothelin (ET) system consists of two G protein coupled–receptors (GPCRs), ET type A receptor (ETAR) and ET type B receptor (ETBR), and three endogenous ligands, ET-1, ET-2, and ET-3. Stimulation of ETRs with ET-1 induces an increase in intracellular Ca2+ concentration that is involved in a diverse array of physiological and pathophysiological processes, including vasoconstriction, and cell proliferation. Store-operated Ca2+ entry and receptor-operated Ca2+ entry triggered by activation of ETRs are regulated or modulated by endoplasmic reticulum Ca2+ sensor (stromal interaction molecule 1) and voltage-independent cation channels (transient receptor potential canonical channels and Orai1). The ET-1–induced Ca2+ mobilization results from activation of heterotrimeric G proteins by ETRs. In contrast, GPCR biology including modulation of receptor function and trafficking is regulated by a variety of GPCR interacting proteins (GIPs) that generally interact with the C-terminal domain of GPCRs. The ETR signaling is also regulated by GIPs such as Jun activation domain-binding protein 1. This review focuses on the regulatory mechanisms of the ETR signaling with special attention to the components involved in Ca2+ signaling and to GIPs in the signal transduction, modification, and degradation of ETRs. Keywords:: endothelin receptor, G protein–coupled receptor, G protein–coupled receptor interacting protein, Jun activation domain–binding protein 1, stromal interaction molecule

Published

2013

5. RBMX: A Regulator for Maintenance and Centromeric Protection of Sister Chromatid Cohesion

Author

Sachihiro Matsunaga, Hideaki Takata, Akihiro Morimoto, Kayoko Hayashihara, Tsunehito Higashi, Kouhei Akatsuchi, Eri Mizusawa, Mariko Yamakawa, Mamoru Ashida, Tomoko M. Matsunaga, Takachika Azuma, Susumu Uchiyama, and Kiichi Fukui

Subjects

Biology (General), QH301-705.5

Abstract

Cohesion is essential for the identification of sister chromatids and for the biorientation of chromosomes until their segregation. Here, we have demonstrated that an RNA-binding motif protein encoded on the X chromosome (RBMX) plays an essential role in chromosome morphogenesis through its association with chromatin, but not with RNA. Depletion of RBMX by RNA interference (RNAi) causes the loss of cohesin from the centromeric regions before anaphase, resulting in premature chromatid separation accompanied by delocalization of the shugoshin complex and outer kinetochore proteins. Cohesion defects caused by RBMX depletion can be detected as early as the G2 phase. Moreover, RBMX associates with the cohesin subunits, Scc1 and Smc3, and with the cohesion regulator, Wapl. RBMX is required for cohesion only in the presence of Wapl, suggesting that RBMX is an inhibitor of Wapl. We propose that RBMX is a cohesion regulator that maintains the proper cohesion of sister chromatids.

Published

2012

6. Nicotine- and Tar-free Cigarette Smoke Extract Induces Cell Injury via Intracellular Ca2+-Dependent Subtype-Specific Protein Kinase C Activation

Author

Yosuke Mai, Tsunehito Higashi, Koji Terada, Chizuru Hatate, Prabha Nepal, Mika Horiguchi, Takuya Harada, Soichi Miwa, and Takahiro Horinouchi

Subjects

Therapeutics. Pharmacology, RM1-950

Abstract

Nicotine- and tar-free cigarette smoke extract (CSE) is reported to induce cell damage via activation of protein kinase C (PKC) and NADPH oxidase (NOX) in rat C6 glioma cells. Here we determined PKC isozyme(s) activated by CSE and their activation mechanism. In C6 glioma cells, mRNAs for PKCα, PKCδ, PKCε, and PKCι were expressed. CSE triggered translocation of PKCα and PKCε to plasma membrane. CSE-induced cell damage and PKC translocation were inhibited by chelating intracellular Ca2+ but not extracellular Ca2+. These results suggest that CSE induces cell damage through intracellular Ca2+-dependent activation of PKCα and PKCε and subsequent NOX activation. Keywords:: cigarette smoke extract (CSE), protein kinase C (PKC), Ca2+

Published

2012

7. A simple and rapid method for standard preparation of gas phase extract of cigarette smoke.

Author

Tsunehito Higashi, Yosuke Mai, Yoichi Noya, Takahiro Horinouchi, Koji Terada, Akimasa Hoshi, Prabha Nepal, Takuya Harada, Mika Horiguchi, Chizuru Hatate, Yuji Kuge, and Soichi Miwa

Subjects

Medicine, Science

Abstract

Cigarette smoke consists of tar and gas phase: the latter is toxicologically important because it can pass through lung alveolar epithelium to enter the circulation. Here we attempt to establish a standard method for preparation of gas phase extract of cigarette smoke (CSE). CSE was prepared by continuously sucking cigarette smoke through a Cambridge filter to remove tar, followed by bubbling it into phosphate-buffered saline (PBS). An increase in dry weight of the filter was defined as tar weight. Characteristically, concentrations of CSEs were represented as virtual tar concentrations, assuming that tar on the filter was dissolved in PBS. CSEs prepared from smaller numbers of cigarettes (original tar concentrations ≤ 15 mg/ml) showed similar concentration-response curves for cytotoxicity versus virtual tar concentrations, but with CSEs from larger numbers (tar ≥ 20 mg/ml), the curves were shifted rightward. Accordingly, the cytotoxic activity was detected in PBS of the second reservoir downstream of the first one with larger numbers of cigarettes. CSEs prepared from various cigarette brands showed comparable concentration-response curves for cytotoxicity. Two types of CSEs prepared by continuous and puff smoking protocols were similar regarding concentration-response curves for cytotoxicity, pharmacology of their cytotoxicity, and concentrations of cytotoxic compounds. These data show that concentrations of CSEs expressed by virtual tar concentrations can be a reference value to normalize their cytotoxicity, irrespective of numbers of combusted cigarettes, cigarette brands and smoking protocols, if original tar concentrations are ≤15 mg/ml.

Published

2014

8. Development of cysteine-free fluorescent proteins for the oxidative environment.

Author

Takahisa Suzuki, Seisuke Arai, Mayumi Takeuchi, Chiye Sakurai, Hideaki Ebana, Tsunehito Higashi, Hitoshi Hashimoto, Kiyotaka Hatsuzawa, and Ikuo Wada

Subjects

Medicine, Science

Abstract

Molecular imaging employing fluorescent proteins has been widely used to highlight specific reactions or processes in various fields of the life sciences. Despite extensive improvements of the fluorescent tag, this technology is still limited in the study of molecular events in the extracellular milieu. This is partly due to the presence of cysteine in the fluorescent proteins. These proteins almost cotranslationally form disulfide bonded oligomers when expressed in the endoplasmic reticulum (ER). Although single molecule photobleaching analysis showed that these oligomers were not fluorescent, the fluorescent monomer form often showed aberrant behavior in folding and motion, particularly when fused to cysteine-containing cargo. Therefore we investigated whether it was possible to eliminate the cysteine without losing the brightness. By site-saturated mutagenesis, we found that the cysteine residues in fluorescent proteins could be replaced with specific alternatives while still retaining their brightness. cf(cysteine-free)SGFP2 showed significantly reduced restriction of free diffusion in the ER and marked improvement of maturation when fused to the prion protein. We further applied this approach to TagRFP family proteins and found a set of mutations that obtains the same level of brightness as the cysteine-containing proteins. The approach used in this study to generate new cysteine-free fluorescent tags should expand the application of molecular imaging to the extracellular milieu and facilitate its usage in medicine and biotechnology.

Published

2012

9. Texture characteristic variables based on virtual volume.

Author

Atsushi Kakemura, Tsunehito Higashi, and Koichi Irie

Published

1998

10. Cigarette smoke extract induces ferroptosis in vascular smooth muscle cells.

Author

Ariunaa Sampilvanjil, Tadayoshi Karasawa, Naoya Yamada, Takanori Komada, Tsunehito Higashi, Chintogtokh Baatarjav, Sachiko Watanabe, Ryo Kamata, Nobuhiko Ohno, and Masafumi Takahashi

Subjects

DEFEROXAMINE, VASCULAR smooth muscle, CIGARETTE smoke, MUSCLE cells, METHYL vinyl ketone, DISSECTING aneurysms

Abstract

Cigarette smoking is a major risk factor for aortic aneurysm and dissection; however, no causative link between smoking and these aortic disorders has been proven. In the present study, we investigated the mechanism by which cigarette smoke affects vascular wall cells and found that cigarette smoke extract (CSE) induced a novel form of regulated cell death termed ferroptosis in vascular smooth muscle cells (VSMCs). CSE markedly induced cell death in A7r5 cells and primary rat VSMCs, but not in endothelial cells, which was completely inhibited by specific ferroptosis inhibitors [ferrostatin-1 (Fer-1) and Liproxstatin-1] and an iron chelator (deferoxamine). CSE-induced VSMC death was partially inhibited by a GSH precursor (N-acetyl cysteine) and an NADPH oxidase inhibitor [diphenyleneiodonium chloride (DPI)], but not by inhibitors of pan-caspases (ZVAD), caspase-1 (Z-YVAD), or necroptosis (necrostatin-1). CSE also upregulated IL-1, IL-6, TNF-, matrix metalloproteinase (MMP)-2, MMP-9, and TIMP-1 (tissue inhibitor of metalloproteinase)in A7r5 cells, which was inhibited by Fer-1. Furthermore, CSE induced the upregulation of Ptgs2 mRNA, lipid peroxidation, and intracellular GSH depletion, which are key features of ferroptosis. VSMC ferroptosis was induced by acrolein and methyl vinyl ketone, major constituents of CSE. Furthermore, CSE caused medial VSMC loss in ex vivo aortas. Electron microscopy analysis showed mitochondrial damage and fragmentation in medial VSMCs of CSE-treated aortas. All of these manifestations were partially restored by Fer-1. These findings demonstrate that ferroptosis is responsible for CSE-induced VSMC death and suggest that ferroptosis is a potential therapeutic target for preventing aortic aneurysm and dissection. [ABSTRACT FROM AUTHOR]

Published

2020

11. In vivo manipulation of fluorescently labeled organelles in living cells by multiphoton excitation.

Author

Wataru Watanabe, Sachihiro Matsunaga, Tsunehito Higashi, Kiichi Fukui, and Kazuyoshi Itoh

Subjects

ULTRASHORT laser pulses, ORGANELLES, HISTONES, PHOTONS

Abstract

Femtosecond laser pulses in the near-infrared region have potential applications in the imaging and manipulation of intracellular organelles. We report on the manipulation of intracellular organelles by two-photon excitation. The dynamics of green fluorescent protein (GFP)-histone are investigated by two-photon fluorescence recovery after photobleaching (FRAP). Intracellular ablation of fluorescently labeled organelles in living cells is performed by focusing femtosecond laser pulses. We report on the selective marking of individual organelles by using two-photon conversion of a photoconvertible fluorescent protein. [ABSTRACT FROM AUTHOR]

Published

2008

12. Agonist-promoted Ubiquitination Differentially Regulates Receptor Trafficking of Endothelin Type A and Type B Receptors.

Author

Koji Terada, Takahiro Horinouchi, Yoichiro Fujioka, Tsunehito Higashi, Prabha Nepal, Mika Horiguchi, Sarita Karki, Chizuru Hatate, Akimasa Hoshi, Takuya Harada, Yosuke Mai, Yusuke Ohba, and Soichi Miwa

Subjects

*G protein coupled receptors, *ENDOTHELINS, *PREPROENDOTHELIN, *LYSOSOMES, *CELL membranes, *LYSINE

Abstract

Two types of G protein-coupled receptors for endothelin-1 (ET-1), ET type A receptor (ETAR) and ETBR, closely resemble each other, but upon ET-1 stimulation, they follow totally different intracellular trafficking pathways; ETAR is recycled back to plasma membrane, whereas ETBR is targeted to lysosome for degradation. However, the mechanisms for such different fates are unknown. Here we demonstrated that ETBR but not ETAR was ubiquitinated on the cell surface following ET-1 stimulation and that ETBR was internalized and degraded in lysosome more rapidly than ETAR. The mutant ETBR (designated "5KR mutant") in which 5 lysine residues in the C-tail were substituted to arginine was not ubiquitinated, and its rates of internalization and degradation after ET-1 stimulation became slower, being comparable with those of ETAR. Confocal microscopic study showed that following ET-1 stimulation, ETAR and 5KR mutant of ETBR were co-localized mainly with Rab11, a marker of recycling endosome, whereas ETBR was co-localized with Rab7, a marker of late endosome/lysosome. In the 5KR mutant, ET-1-induced ERK phosphorylation and an increase in the intracellular Ca2+ concentration upon repetitive ET-1 stimulation were larger. A series of ETBR mutants (designated "4KR mutant"), in which either one of 5 arginine residues of the 5KR mutant was reverted to lysine, were normally ubiquitinated, internalized, and degraded, with ERK phosphorylation being normalized. These results demonstrate that agonist-induced ubiquitination at either lysine residue in the C-tail of ETBR but not ETAR switches intracellular trafficking from recycling to plasma membrane to targeting to lysosome, causing decreases in the cell surface level of ETBR and intracellular signaling. [ABSTRACT FROM AUTHOR]

Published

2014