Your search keyword '"Uruno, Takehito"' showing total 10 results

1. Targeting Ras-Driven Cancer Cell Survival and Invasion through Selective Inhibition of DOCK1

Author

Tajiri, Hirotada, Uruno, Takehito, Shirai, Takahiro, Takaya, Daisuke, Matsunaga, Shigeki, Setoyama, Daiki, Watanabe, Mayuki, Kukimoto-Niino, Mutsuko, Oisaki, Kounosuke, Ushijima, Miho, Sanematsu, Fumiyuki, Honma, Teruki, Terada, Takaho, Oki, Eiji, Shirasawa, Senji, Maehara, Yoshihiko, Kang, Dongchon, Côté, Jean-François, Yokoyama, Shigeyuki, Kanai, Motomu, and Fukui, Yoshinori

Abstract

Oncogenic Ras plays a key role in cancer initiation but also contributes to malignant phenotypes by stimulating nutrient uptake and promoting invasive migration. Because these latter cellular responses require Rac-mediated remodeling of the actin cytoskeleton, we hypothesized that molecules involved in Rac activation may be valuable targets for cancer therapy. We report that genetic inactivation of the Rac-specific guanine nucleotide exchange factor DOCK1 ablates both macropinocytosis-dependent nutrient uptake and cellular invasion in Ras-transformed cells. By screening chemical libraries, we have identified 1-(2-(3′-(trifluoromethyl)-[1,1′-biphenyl]-4-yl)-2-oxoethyl)-5-pyrrolidinylsulfonyl-2(1H)-pyridone (TBOPP) as a selective inhibitor of DOCK1. TBOPP dampened DOCK1-mediated invasion, macropinocytosis, and survival under the condition of glutamine deprivation without impairing the biological functions of the closely related DOCK2 and DOCK5 proteins. Furthermore, TBOPP treatment suppressed cancer metastasis and growth in vivo in mice. Our results demonstrate that selective pharmacological inhibition of DOCK1 could be a therapeutic approach to target cancer cell survival and invasion.

Published

2017

2. DOCK5 functions as a key signaling adaptor that links FcεRI signals to microtubule dynamics during mast cell degranulation

Author

Ogawa, Kana, Tanaka, Yoshihiko, Uruno, Takehito, Duan, Xuefeng, Harada, Yosuke, Sanematsu, Fumiyuki, Yamamura, Kazuhiko, Terasawa, Masao, Nishikimi, Akihiko, Côté, Jean-François, and Fukui, Yoshinori

Abstract

Mast cells play a key role in the induction of anaphylaxis, a life-threatening IgE-dependent allergic reaction, by secreting chemical mediators that are stored in secretory granules. Degranulation of mast cells is triggered by aggregation of the high-affinity IgE receptor, FcεRI, and involves dynamic rearrangement of microtubules. Although much is known about proximal signals downstream of FcεRI, the distal signaling events controlling microtubule dynamics remain elusive. Here we report that DOCK5, an atypical guanine nucleotide exchange factor (GEF) for Rac, is essential for mast cell degranulation. As such, we found that DOCK5-deficient mice exhibit resistance to systemic and cutaneous anaphylaxis. The Rac GEF activity of DOCK5 is surprisingly not required for mast cell degranulation. Instead, DOCK5 associated with Nck2 and Akt to regulate microtubule dynamics through phosphorylation and inactivation of GSK3β. When DOCK5–Nck2–Akt interactions were disrupted, microtubule formation and degranulation response were severely impaired. Our results thus identify DOCK5 as a key signaling adaptor that orchestrates remodeling of the microtubule network essential for mast cell degranulation.

Published

2014

3. DOCK8 is a Cdc42 activator critical for interstitial dendritic cell migration during immune responses

Author

Harada, Yosuke, Tanaka, Yoshihiko, Terasawa, Masao, Pieczyk, Markus, Habiro, Katsuyoshi, Katakai, Tomoya, Hanawa-Suetsugu, Kyoko, Kukimoto-Niino, Mutsuko, Nishizaki, Tomoko, Shirouzu, Mikako, Duan, Xuefeng, Uruno, Takehito, Nishikimi, Akihiko, Sanematsu, Fumiyuki, Yokoyama, Shigeyuki, Stein, Jens V., Kinashi, Tatsuo, and Fukui, Yoshinori

Abstract

To migrate efficiently through the interstitium, dendritic cells (DCs) constantly adapt their shape to the given structure of the extracellular matrix and follow the path of least resistance. It is known that this amoeboid migration of DCs requires Cdc42, yet the upstream regulators critical for localization and activation of Cdc42 remain to be determined. Mutations of DOCK8, a member of the atypical guanine nucleotide exchange factor family, causes combined immunodeficiency in humans. In the present study, we show that DOCK8 is a Cdc42-specific guanine nucleotide exchange factor that is critical for interstitial DC migration. By generating the knockout mice, we found that in the absence of DOCK8, DCs failed to accumulate in the lymph node parenchyma for T-cell priming. Although DOCK8-deficient DCs migrated normally on 2-dimensional surfaces, DOCK8 was required for DCs to crawl within 3-dimensional fibrillar networks and to transmigrate through the subcapsular sinus floor. This function of DOCK8 depended on the DHR-2 domain mediating Cdc42 activation. DOCK8 deficiency did not affect global Cdc42 activity. However, Cdc42 activation at the leading edge membrane was impaired in DOCK8-deficient DCs, resulting in a severe defect in amoeboid polarization and migration. Therefore, DOCK8 regulates interstitial DC migration by controlling Cdc42 activity spatially.

Published

2012

4. DOCK8 is a Cdc42 activator critical for interstitial dendritic cell migration during immune responses

Author

Harada, Yosuke, Tanaka, Yoshihiko, Terasawa, Masao, Pieczyk, Markus, Habiro, Katsuyoshi, Katakai, Tomoya, Hanawa-Suetsugu, Kyoko, Kukimoto-Niino, Mutsuko, Nishizaki, Tomoko, Shirouzu, Mikako, Duan, Xuefeng, Uruno, Takehito, Nishikimi, Akihiko, Sanematsu, Fumiyuki, Yokoyama, Shigeyuki, Stein, Jens V., Kinashi, Tatsuo, and Fukui, Yoshinori

Abstract

To migrate efficiently through the interstitium, dendritic cells (DCs) constantly adapt their shape to the given structure of the extracellular matrix and follow the path of least resistance. It is known that this amoeboid migration of DCs requires Cdc42, yet the upstream regulators critical for localization and activation of Cdc42 remain to be determined. Mutations of DOCK8, a member of the atypical guanine nucleotide exchange factor family, causes combined immunodeficiency in humans. In the present study, we show that DOCK8 is a Cdc42-specific guanine nucleotide exchange factor that is critical for interstitial DC migration. By generating the knockout mice, we found that in the absence of DOCK8, DCs failed to accumulate in the lymph node parenchyma for T-cell priming. Although DOCK8-deficient DCs migrated normally on 2-dimensional surfaces, DOCK8 was required for DCs to crawl within 3-dimensional fibrillar networks and to transmigrate through the subcapsular sinus floor. This function of DOCK8 depended on the DHR-2 domain mediating Cdc42 activation. DOCK8 deficiency did not affect global Cdc42 activity. However, Cdc42 activation at the leading edge membrane was impaired in DOCK8-deficient DCs, resulting in a severe defect in amoeboid polarization and migration. Therefore, DOCK8 regulates interstitial DC migration by controlling Cdc42 activity spatially.

Published

2012

5. Haematopoietic lineage cell-specific protein 1 (HS1) promotes actin-related protein (Arp) 2/3 complex-mediated actin polymerization

Author

URUNO, Takehito, ZHANG, Peijun, LIU, Jiali, HAO, Jian-Jiang, and ZHAN, Xi

Abstract

HS1 (haematopoietic lineage cell-specific gene protein 1), a prominent substrate of intracellular protein tyrosine kinases in haematopoietic cells, is implicated in the immune response to extracellular stimuli and in cell differentiation induced by cytokines. Although HS1 contains a 37-amino acid tandem repeat motif and a C-terminal Src homology 3 domain and is closely related to the cortical-actin-associated protein cortactin, it lacks the fourth repeat that has been shown to be essential for cortactin binding to filamentous actin (F-actin). In this study, we examined the possible role of HS1 in the regulation of the actin cytoskeleton. Immunofluorescent staining demonstrated that HS1 co-localizes in the cytoplasm of cells with actin-related protein (Arp) 2/3 complex, the primary component of the cellular machinery responsible for de novo actin assembly. Furthermore, recombinant HS1 binds directly to Arp2/3 complex with an equilibrium dissociation constant (Kd) of 880nM. Although HS1 is a modest F-actin-binding protein with a Kd of 400nM, it increases the rate of the actin assembly mediated by Arp2/3 complex, and promotes the formation of branched actin filaments induced by Arp2/3 complex and a constitutively activated peptide of N-WASP (neural Wiskott–Aldrich syndrome protein). Our data suggest that HS1, like cortactin, plays an important role in the modulation of actin assembly.

Published

2003

6. Fibroblast growth factor-1 interacts with the glucose-regulated protein GRP75/mortalin

Author

MIZUKOSHI, Eiichi, SUZUKI, Masashi, LOUPATOV, Alexei, URUNO, Takehito, HAYASHI, Hisaki, MISONO, Tomoko, KAUL, Sunil C., WADHWA, Renu, and IMAMURA, Toru

Abstract

Fibroblast growth factor-1 (FGF-1), which lacks a signal peptide and is intracellularly localized as a result of endogenous expression or endocytosis, is thought to be involved in regulating cell growth and differentiation. In the study reported here, we purified proteins that bind intracellular FGF-1. Affinity adsorption was used to purify FGF-1-binding proteins from rat L6 cells expressing FGF-1. One of the isolated proteins was identified as the glucose-regulated protein GRP75/mortalin/PBP-74/mthsp70, a member of the hsp70 family of heat-shock proteins known to be involved in regulating glucose responses, antigen processing and cell mortality. The interaction of FGF-1 and GRP75/mortalin in vivo was confirmed by co-immunoprecipitation, immunohistochemical co-localization in Rat-1 fibroblasts and by using the yeast two-hybrid system. Moreover, a binding assay in vitro with the use of recombinant FGF-1 and mortalin demonstrated a direct physical interaction between the two proteins. These results reveal that GRP75/mortalin is an intracellular FGF-1-binding protein in cells and suggest that GRP75/mortalin is involved in the trafficking of and/or signalling by FGF-1.

Published

1999

7. Distinct Regulation of Myoblast Differentiation by Intracellular and Extracellular Fibroblast Growth Factor-1

Author

Uruno, Takehito, Oki, Junko, Ozawa, Kazuo, Miyakawa, Kazuko, Ueno, Hikaru, and Imamura, Toru

Abstract

We studied the role of fibroblast growth factor (FGF)-1 in the physiology of myoblast differentiation. We found that, while endogenous FGF-1 in L6-10 rat myoblasts did not suppress the progress of differentiation, the addition of FGF-1 to the culture medium suppressed it. Moreover, L6-10 cells stably transfected with full length FGF-1 undergo enhanced differentiation. The latter was well correlated with myogenin expression and myotube formation. Constitutive expression of a mutant FGF-1 (FGF-1 U) that lacked a nuclear localization signal, promoted the differentiation of the myoblasts even more strongly. Furthermore, the expression of FGF-1 U in an inducible expression system enhanced myogenin expression promptly. In L6-10 transfectants expressing a dominant-negative mutant of FGF receptor, stable transfection of FGF-1 promoted differentiation as it did in parent cells. Studies with FGF receptors and MAP kinase suggest that both are involved in the effect of FGF-1 when it is supplemented to culture medium but not during the effect of endogenous FGF-1 synthesized in cells. We conclude that intracellular (endogenous) and extracellular (exogenous) FGF-1 have differential effects on the regulation of myogenic differentiation of L6-10 cells.

Published

1999

8. The C-terminal Region of Fibroblast Growth Factor-1 is Crucial for its Biological Activity and High Level Protein Expression in Mammalian Cells

Author

Miyakawa, Kazuko, Ozawa, Kazuo, Uruno, Takehito, and Imamura, Toraj

Abstract

We have studied the role of the carboxyl (C)-terminus of fibroblast growth factor(FGF)-1 using prokaryotic and eukaryotic expression systems. The full-length FGF-1 protein and its mutants lacking 6-and 9-amino acids at the C-terminus [FGF-1 (Cdel6) and FGF-1 (Cdel9), respectively] could be expressed in E. coli cells at the similar levels. The deletion mutants bound very weakly to FGF receptor and to heparin, and did not stimulate DNA synthesis in BALB/c3T3 cells. In contrast to E. coli cells, in NIH3T3 transfectants and L6 transfectants, the protein expression level of FGF-1 (Cdel6) was significantly lower than that of FGF-1, and longer C-terminal deletions further decreased the protein expression levels. However, the level of transcripts in the transfectants and the level of translates in in vitro system were equivalent for all the FGF-1 constructs. Treatment with proteasome inhibitors of the NIH3T3 transfectants expressing FGF-1(Cdel6) increased the protein level six-fold. The results indicate that the C-terminus of FGF-1 is crucial for its biological activity and high-level expression in mammalian cells and suggest that deletion of the C-terminus of FGF-1 induces its post-translational degradation by proteasome system.

Published

1999

9. S100A4 Protein Is Essential for the Development of Mature Microfold Cells in Peyer’s Patches

Author

Kunimura, Kazufumi, Sakata, Daiji, Tun, Xin, Uruno, Takehito, Ushijima, Miho, Katakai, Tomoya, Shiraishi, Akira, Aihara, Ryosuke, Kamikaseda, Yasuhisa, Matsubara, Keisuke, Kanegane, Hirokazu, Sawa, Shinichiro, Eberl, Gérard, Ohga, Shouichi, Yoshikai, Yasunobu, and Fukui, Yoshinori

Abstract

Intestinal microfold cells (M cells) in Peyer’s patches are a special subset of epithelial cells that initiate mucosal immune responses through uptake of luminal antigens. Although the cytokine receptor activator of nuclear factor-κB ligand (RANKL) expressed on mesenchymal cells triggers differentiation into M cells, other environmental cues remain unknown. Here, we show that the metastasis-promoting protein S100A4 is required for development of mature M cells. S100A4-producing cells are a heterogenous cell population including lysozyme-expressing dendritic cells and group 3 innate lymphoid cells. We found that in the absence of DOCK8, a Cdc42 activator critical for interstitial leukocyte migration, S100A4-producing cells are reduced in the subepithelial dome, resulting in a maturation defect of M cells. While S100A4 promotes differentiation into mature M cells in organoid culture, genetic inactivation of S100a4prevents the development of mature M cells in mice. Thus, S100A4 is a key environmental cue that regulates M cell differentiation in collaboration with RANKL.

Published

2019

10. Cholesterol sulfate is a DOCK2 inhibitor that mediates tissue-specific immune evasion in the eye

Author

Sakurai, Tetsuya, Uruno, Takehito, Sugiura, Yuki, Tatsuguchi, Takaaki, Yamamura, Kazuhiko, Ushijima, Miho, Hattori, Yuko, Kukimoto-Niino, Mutsuko, Mishima-Tsumagari, Chiemi, Watanabe, Mayuki, Suematsu, Makoto, and Fukui, Yoshinori

Abstract

A modified form of cholesterol protects the eye from immune cell invasion by inhibiting the Rac-specific GEF DOCK2.

Published

2018