Your search keyword '"Sumimoto, Hideki"' showing total 27 results

1. The adaptor protein p40(phox) as a positive regulator of the superoxide-producing phagocyte oxidase.

Author

Kuribayashi F, Nunoi H, Wakamatsu K, Tsunawaki S, Sato K, Ito T, and Sumimoto H

Subjects

GTP Phosphohydrolases metabolism, Humans, Mutation, Phagocytes metabolism, Phosphoproteins metabolism, Protein Transport, Receptors, Muscarinic metabolism, rac GTP-Binding Proteins metabolism, DNA-Binding Proteins metabolism, NADPH Oxidases metabolism, Proteins, Superoxides metabolism

Abstract

Activation of the superoxide-producing phagocyte NADPH oxidase, crucial in host defense, requires the cytosolic proteins p67(phox) and p47(phox). They translocate to the membrane upon cell stimulation and activate flavocytochrome b(558), the membrane-integrated catalytic core of this enzyme system. The activators p67(phox) and p47(phox) form a ternary complex together with p40(phox), an adaptor protein with unknown function, comprising the PX/PB2, SH3 and PC motif- containing domains: p40(phox) associates with p67(phox) via binding of the p40(phox) PC motif to the p67(phox) PB1 domain, while p47(phox) directly interacts with p67(phox) but not with p40(phox). Here we show that p40(phox) enhances membrane translocation of p67(phox) and p47(phox) in stimulated cells, which leads to facilitated production of superoxide. The enhancement cannot be elicited by a mutant p40(phox) carrying the D289A substitution in PC or a p67(phox) with the K355A substitution in PB1, each being defective in binding to its respective partner. Thus p40(phox) participates in activation of the phagocyte oxidase by regulating membrane recruitment of p67(phox) and p47(phox) via the PB1-PC interaction with p67(phox).

Published

2002

2. Diverse recognition of non-PxxP peptide ligands by the SH3 domains from p67(phox), Grb2 and Pex13p.

Author

Kami K, Takeya R, Sumimoto H, and Kohda D

Subjects

Amino Acid Motifs, Amino Acid Sequence, Binding Sites, CSK Tyrosine-Protein Kinase, Escherichia coli, GRB2 Adaptor Protein, Humans, Ligands, Models, Molecular, Molecular Sequence Data, Mutation, NADPH Oxidases, Peptides, Cyclic metabolism, Protein Binding, Protein Conformation, Protein-Tyrosine Kinases metabolism, Recombinant Fusion Proteins genetics, Recombinant Fusion Proteins metabolism, Saccharomyces cerevisiae Proteins metabolism, Sequence Deletion, src-Family Kinases, Adaptor Proteins, Signal Transducing, Membrane Proteins metabolism, Phosphoproteins metabolism, Proteins metabolism, src Homology Domains physiology

Abstract

The basic function of the Src homology 3 (SH3) domain is considered to be binding to proline-rich sequences containing a PxxP motif. Recently, many SH3 domains, including those from Grb2 and Pex13p, were reported to bind sequences lacking a PxxP motif. We report here that the 22 residue peptide lacking a PxxP motif, derived from p47(phox), binds to the C-terminal SH3 domain from p67(phox). We applied the NMR cross-saturation method to locate the interaction sites for the non-PxxP peptides on their cognate SH3 domains from p67(phox), Grb2 and Pex13p. The binding site of the Grb2 SH3 partially overlapped the conventional PxxP-binding site, whereas those of p67(phox) and Pex13p SH3s are located in different surface regions. The non-PxxP peptide from p47(phox) binds to the p67(phox) SH3 more tightly when it extends to the N-terminus to include a typical PxxP motif, which enabled the structure determination of the complex, to reveal that the non-PxxP peptide segment interacted with the p67(phox) SH3 in a compact helix-turn-helix structure (PDB entry 1K4U).

Published

2002

3. Phosphorylation of p47 phox Directs Phox Homology Domain from SH3 Domain toward Phosphoinositides, Leading to Phagocyte NADPH Oxidase Activation

Author

Ago, Tetsuro, Kuribayashi, Futoshi, Hiroaki, Hidekazu, Takeya, Ryu, Ito, Takashi, Kohda, Daisuke, and Sumimoto, Hideki

Published

2003

4. Structural basis for interaction between the conserved cell polarity proteins Inscuteable and Leu-Gly-Asn repeat-enriched protein (LGN)

Author

Yuzawa, Satoru, Kamakura, Sachiko, Iwakiri, Yuko, Hayase, Junya, and Sumimoto, Hideki

Published

2011

5. Polarity proteins Bem1 and Cdc24 are components of the filamentous fungal NADPH oxidase complex

Author

Takemoto, Daigo, Kamakura, Sachiko, Saikia, Sanjay, Becker, Yvonne, Wrenn, Ruth, Tanaka, Aiko, Sumimoto, Hideki, Scott, Barry, and Dunlap, Jay C.

Published

2011

6. Role of Src Homology 3 Domains in Assembly and Activated of the Phagocyte NADPH Oxidase

Author

Sumimoto, Hideki, Kage, Youhko, Nunoi, Hiroyuki, Sasaki, Hiroyuki, Nose, Takeru, Fukumaki, Yasuyuki, Ohno, Motonori, Minakami, Shigeki, and Takeshige, Koichiro

Published

1994

7. Sequence of General Transcription Factor TFIIB and Relationships to Other Initiation Factors

Author

Malik, Sohail, Hisatake, Koji, Sumimoto, Hideki, Horikoshi, Masami, and Roeder, Robert G.

Published

1991

8. Transgenic Expression of the Formin Protein Fhod3 Selectively in the Embryonic Heart: Role of Actin-Binding Activity of Fhod3 and Its Sarcomeric Localization during Myofibrillogenesis.

Author

Fujimoto, Noriko, Kan-o, Meikun, Ushijima, Tomoki, Kage, Yohko, Tominaga, Ryuji, Sumimoto, Hideki, and Takeya, Ryu

Subjects

HEART development, HEART cells, SARCOMERES, MICROFILAMENT proteins, GENE expression, TRANSGENIC mice

Abstract

Fhod3 is a cardiac member of the formin family proteins that play pivotal roles in actin filament assembly in various cellular contexts. The targeted deletion of mouse Fhod3 gene leads to defects in cardiogenesis, particularly during myofibrillogenesis, followed by lethality at embryonic day (E) 11.5. However, it remains largely unknown how Fhod3 functions during myofibrillogenesis. In this study, to assess the mechanism whereby Fhod3 regulates myofibrillogenesis during embryonic cardiogenesis, we generated transgenic mice expressing Fhod3 selectively in embryonic cardiomyocytes under the control of the β-myosin heavy chain (MHC) promoter. Mice expressing wild-type Fhod3 in embryonic cardiomyocytes survive to adulthood and are fertile, whereas those expressing Fhod3 (I1127A) defective in binding to actin die by E11.5 with cardiac defects. This cardiac phenotype of the Fhod3 mutant embryos is almost identical to that observed in Fhod3 null embryos, suggesting that the actin-binding activity of Fhod3 is crucial for embryonic cardiogenesis. On the other hand, the β-MHC promoter-driven expression of wild-type Fhod3 sufficiently rescues cardiac defects of Fhod3-null embryos, indicating that the Fhod3 protein expressed in a transgenic manner can function properly to achieve myofibril maturation in embryonic cardiomyocytes. Using the transgenic mice, we further examined detailed localization of Fhod3 during myofibrillogenesis in situ and found that Fhod3 localizes to the specific central region of nascent sarcomeres prior to massive rearrangement of actin filaments and remains there throughout myofibrillogenesis. Taken together, the present findings suggest that, during embryonic cardiogenesis, Fhod3 functions as the essential reorganizer of actin filaments at the central region of maturating sarcomeres via the actin-binding activity of the FH2 domain. [ABSTRACT FROM AUTHOR]

Published

2016

9. Role of the small GTPase Rac in p22 phox -dependent NADPH oxidases

Author

Miyano, Kei and Sumimoto, Hideki

Subjects

*CHRONIC granulomatous disease, *OXYGEN, *SUPEROXIDES, *PROTEINS

Abstract

Abstract: The superoxide-producing phagocyte NADPH oxidase gp91 phox /Nox2 and the non-phagocytic oxidases Nox1 and Nox3 each form a complex in the membrane with p22 phox , which provides both stabilization and a docking site for organizer proteins. The p22 phox -complexed Nox2 and Nox1 are dormant on their own, and their activation requires soluble supportive proteins such as a Nox organizer (p47 phox or Noxo1) and a Nox activator (p67 phox or Noxa1). The small GTPase Rac directly binds to the activators, and thus plays an essential role in the Nox2-based oxidase containing p47 phox and p67 phox or a positive role in Nox1 activity supported by Noxo1 and Noxa1. Although Nox3 complexed with p22 phox constitutively produce superoxide, the production can be enhanced by supportive proteins. Here we compare the roles of Rac in these p22 phox -dependent oxidases using the organizer and activator in different combinations. Expression of constitutively active Rac1(Q61L) is essential for activation of the Nox2- or Nox1-based oxidase containing the organizer p47 phox and either p67 phox or Noxa1. When these oxidases use Noxo1 as an organizer instead of p47 phox , they produce a small but significant amount of superoxide without expression of Rac1(Q61L), although the production is enhanced by Rac1(Q61L). Thus p47 phox is likely related to strict dependence on Rac. The Nox3-based oxidase has a similar tendency in the change of the dependence: Rac plays a positive role in Nox3 activation in the presence of p47 phox and either p67 phox or Noxa1, whereas Rac fails to upregulate Nox3 activity when p47 phox is replaced with Noxo1. We also demonstrate that, in the Nox3-based oxidase containing solely p67 phox as supportive protein, expression of Rac1(Q61L) enhances not only superoxide production but also membrane translocation of p67 phox . Since the enhancements are not observed with a mutant p67 phox defective in binding to Rac, this GTPase appear to directly recruit p67 phox to the membrane. [Copyright &y& Elsevier]

Published

2007

10. Full-length p40phox structure suggests a basis for regulation mechanism of its membrane binding.

Author

Honbou, Kazuya, Minakami, Reiko, Yuzawa, Satoru, Takeya, Ryu, Suzuki, Nobuo N, Kamakura, Sachiko, Sumimoto, Hideki, and Inagaki, Fuyuhiko

Subjects

OXIDASES, SUPEROXIDES, PHAGOCYTES, PHAGOCYTOSIS, BACTERIA, PROTEINS

Abstract

The superoxide-producing phagocyte NADPH oxidase is activated during phagocytosis to destroy ingested microbes. The adaptor protein p40phox associates via the PB1 domain with the essential oxidase activator p67phox, and is considered to function by recruiting p67phox to phagosomes; in this process, the PX domain of p40phox binds to phosphatidylinositol 3-phosphate [PtdIns(3)P], a lipid abundant in the phagosomal membrane. Here we show that the PtdIns(3)P-binding activity of p40phox is normally inhibited by the PB1 domain both in vivo and in vitro. The crystal structure of the full-length p40phox reveals that the inhibition is mediated via intramolecular interaction between the PB1 and PX domains. The interface of the p40phox PB1 domain for the PX domain localizes on the opposite side of that for the p67phox PB1 domain, and thus the PB1-mediated PX regulation occurs without preventing the PB1–PB1 association with p67phox. [ABSTRACT FROM AUTHOR]

Published

2007

11. Fhos2, a novel formin-related actin-organizing protein, probably associates with the nestin intermediate filament.

Author

Kanaya, Hideki, Takeya, Ryu, Takeuchi, Kosei, Watanabe, Norinobu, Jing, Naihe, and Sumimoto, Hideki

Subjects

PROTEINS, DNA, MESSENGER RNA, ACTIN, BIOCHEMISTRY, IMMUNOGLOBULINS

Abstract

Fhos1 is a mammalian formin-family protein, and functions as an organizer of the actin microfilament. Here we have cloned human and mouse cDNAs for a novel Fhos homolog, designated Fhos2. The messages for Fhos2 are expressed in the heart, kidney, and brain, where the Fhos1 mRNAs are not abundant. Two splice variants of Fhos2 exist in a tissue-specific manner; the longer variant Fhos2L is the major form in the heart, whereas the kidney and brain predominantly express Fhos2S that encodes a shorter protein. Over-expression of an active form of the two Fhos2 variants, as well as that of Fhos1, induces the formation of actin stress fibers in HeLa cells, suggesting that Fhos2 acts as an actin-organizing protein. Biochemical analysis using rat cardiomyoblastic H9c2 (2-1) cells reveals that endogenous Fhos2 is enriched in the intermediate filament fraction. Consistent with this, Fhos2 localizes to the nestin intermediate filament but not to other cytoskeletons, as demonstrated by staining of H9c2 (2-1) cells with anti-Fhos2 antibodies. Furthermore, Fhos2 is present in nestin-expressing neuroepithelial cells of the fetal rat brain. Thus, Fhos2 not only has the actin-organizing activity but also associates with nestin, which may imply a Fhos2-mediated link between the nestin intermediate filament and actin microfilament. [ABSTRACT FROM AUTHOR]

Published

2005

12. Fhos, a mammalian formin, directly binds to F-actin via a region N-terminal to the FH1 domain and forms a homotypic complex via the FH2 domain to promote actin fiber formation.

Author

Takeya, Ryu and Sumimoto, Hideki

Subjects

*PROTEINS, *ACTIN, *CYTOSKELETON, *CYTOLOGY

Abstract

Formins constitute a family of eukaryotic proteins that are considered to function as a cytoskeleton organizer to regulate morphogenesis, cell polarity and cytokinesis. Fhos is a recently identified mammalian formin, which contains the conserved domains FH (formin homology) 1 and FH2 in the middle region and the Dia-autoregulatory domain (DAD) in the C-terminus. The role of Fhos in the regulation of cytoskeleton, however, has remained unknown. Here we show that Fhos, in an active form, induces the formation of actin stress fibers and localizes to the actin-based structure. Fhos appears to normally exist in a closed inactive form via an intramolecular interaction between the N-terminal region and the C-terminal DAD. Both FH1 and FH2 domains are required for the induction of the stress fiber formation. However, the N-terminal region of Fhos is required for the targeting of this protein to stress fibers, which is probably mediated via its F-actin-binding activity. We also show that Fhos occurs as a homotypic complex in cells. The self-association of Fhos seems to be mediated via the FH2 domain: the domains bind to each other in a direct manner. Thus, the mammalian formin Fhos, which directly binds to F-actin via the N-terminal region, forms a homotypic complex via the FH2 domain to organize actin cytoskeleton. [ABSTRACT FROM AUTHOR]

Published

2003

13. The PB1 domain and the PC motif-containing region are structurally similar protein binding modules.

Author

Yoshinaga, Sosuke, Kohjima, Motoyuki, Ogura, Kenji, Yokochi, Masashi, Takeya, Ryu, Ito, Takashi, Sumimoto, Hideki, and Inagaki, Fuyuhiko

Subjects

PROTEIN binding, UBIQUITIN, GENETIC mutation, PROTEINS, BIOCHEMISTRY, GENETICS

Abstract

The PC motif is evolutionarily conserved together with the PB1 domain, a binding partner of the PC motif-containing protein. For interaction with the PB1 domain, the PC motif-containing region (PCCR) comprising the PC motif and its flanking regions is required. Because the PB1 domain and the PCCR are novel binding modules found in a variety of signaling proteins, their structural and functional characterization is crucial. Bem1p and Cdc24p interact through the PB1-PCCR interaction and regulate cell polarization in budding yeast. Here, we determined a tertiary structure of the PCCR of Cdc24p by NMR. The tertiary structure of the PCCR is similar to that of the PB1 domain of Bem1p, which is classified into a ubiquitin fold. The PC motif portion takes a compact ββα-fold, presented on the ubiquitin scaffold. Mutational studies indicate that the PB1-PCCR interaction is mainly electrostatic. Based on the structural information, we group the PB1 domains and the PCCRs into a novel family, named the PB1 family. Thus, the PB1 family proteins form a specific dimer with each other. [ABSTRACT FROM AUTHOR]

Published

2003

14. The adaptor protein p40phox as a positive regulator of the superoxide-producing phagocyte oxidase.

Author

Kuribayashi, Futoshi, Nunoi, Hiroyuki, Wakamatsu, Kaori, Tsunawaki, Shohko, Sato, Kazuki, Ito, Takashi, and Sumimoto, Hideki

Subjects

PROTEINS, PHAGOCYTES, CYTOCHROMES, ENZYMES, CELLS, BIOLOGICAL membranes

Abstract

Activation of the superoxide-producing phagocyte NADPH oxidase, crucial in host defense, requires the cytosolic proteins p67phox and p47phox. They translocate to the membrane upon cell stimulation and activate flavocytochrome b558, the membrane-integrated catalytic core of this enzyme system. The activators p67phox and p47phox form a ternary complex together with p40phox, an adaptor protein with unknown function, comprising the PX/PB2, SH3 and PC motif-containing domains: p40phox associates with p67phox via binding of the p40phox PC motif to the p67phox PB1 domain, while p47phox directly interacts with p67phox but not with p40phox. Here we show that p40phox enhances membrane translocation of p67phox and p47phox in stimulated cells, which leads to facilitated production of superoxide. The enhancement cannot be elicited by a mutant p40phox carrying the D289A substitution in PC or a p67phox with the K355A substitution in PB1, each being defective in binding to its respective partner. Thus p40phox participates in activation of the phagocyte oxidase by regulating membrane recruitment of p67phox and p47phox via the PB1-PC interaction with p67phox. [ABSTRACT FROM AUTHOR]

Published

2002

15. Novel modular domain PB1 recognizes PC motif to mediate functional protein-protein interactions.

Author

Ito, Takashi, Matsui, Yasushi, Ago, Tetsuro, Ota, Kazuhisa, and Sumimoto, Hideki

Subjects

PROTEINS, PHAGOCYTES, CELLS, IMMUNE system, YEAST, EDIBLE fungi

Abstract

Modular domains mediating specific protein-protein interactions play central roles in the formation of complex regulatory networks to execute various cellular activities. Here we identify a novel domain PB1 in the budding yeast protein Bem1p, which functions in polarity establishment, and mammalian p67phox, which activates the microbicidal phagocyte NADPH oxidase. Each of these specifically recognizes an evolutionarily conserved PC motif to interact directly with Cdc24p (an essential protein for cell polarization) and p40phox (a component of the signaling complex for the oxidase), respectively. Swapping the PB1 domain of Bem1p with that of p67phox, which abolishes its interaction with Cdc24p, confers on cells temperature- sensitive growth and a bilateral mating defect. These phenotypes are suppressed by a mutant Cdc24p harboring the PC motif-containing region of p40phox which restores the interaction with the altered Bem1p. This domain-swapping experiment demonstrates that Bem1p function requires interaction with Cdc24p, in which the PB1 domain and the PC motif participate as responsible modules. [ABSTRACT FROM AUTHOR]

Published

2001

16. Structure and ligand recognition of the PB1 domain: a novel protein module binding to the PC motif.

Author

Terasawa, Hiroaki, Noda, Yukiko, Ito, Takashi, Hatanaka, Hideki, Ichikawa, Saori, Ogura, Kenji, Sumimoto, Hideki, and Inagaki, Fuyuhiko

Subjects

POLYHEDRA, LIGANDS (Biochemistry), COORDINATION compounds, PROTEINS, MUTAGENESIS, GENETIC mutation

Abstract

PB1 domains are novel protein modules capable of binding to target proteins that contain PC motifs. We report here the NMR structure and ligand-binding site of the PB1 domain of the cell polarity establishment protein, Bem1p. In addition, we identify the topology of the PC motif-containing region of Cdc24p by NMR, another cell polarity establishment protein that interacts with Bem1p. The PC motif-containing region is a structural domain offering a scaffold to the PC motif. The chemical shift perturbation experiment and the mutagenesis study show that the PC motif is a major structural element that binds to the PB1 domain. A structural database search reveals close similarity between the Bem1p PB1 domain and the c- Raf1 Ras-binding domain. However, these domains are functionally distinct from each other. [ABSTRACT FROM AUTHOR]

Published

2001

17. Solution structure of the PX domain, a target of the SH3 domain.

Author

Hiroaki, Hidekazu, Ago, Tetsuro, Ito, Takashi, Sumimoto, Hideki, and Kohda, Daisuke

Subjects

HOMOLOGY (Biology), PROTEINS, PROLINE

Abstract

The phox homology (PX) domain is a novel protein module containing a conserved proline-rich motif. We have shown that the PX domain isolated from the human p47phox protein, a soluble subunit of phagocyte NADPH oxidase, binds specifically to the C-terminal SH3 domain derived from the same protein. The solution structure of p47 PX has an α + β structure with a novel folding motif topology and reveals that the proline-rich motif is presented on the molecular surface for easy recognition by the SH3 domain. The proline-rich motif of p47 PX in the free state adopts a distorted left-handed polyproline type II helix conformation. [ABSTRACT FROM AUTHOR]

Published

2001

18. Human homologues of the Caenorhabditis elegans cell polarity protein PAR6 as an adaptor that links the small GTPases Rac and Cdc42 to atypical protein kinase C.

Author

Noda, Yukiko, Takeya, Ryu, Ohno, Shigeo, Naito, Seiji, Ito, Takashi, and Sumimoto, Hideki

Subjects

PROTEINS, CYTOLOGY, CAENORHABDITIS elegans

Abstract

Background Asymmetric cell division in the Caenorhabditis elegans embryos requires products of par (partitioning defective) genes 1–6 and atypical protein kinase C (aPKC), whereas Cdc42 and Rac, members of the Rho family GTPases, play an essential role in cell polarity establishment in yeast and mammalian cells. However, little is known about a link between PAR proteins and the GTPases in cell polarization. Results Here we have cloned cDNAs for three human homologues of PAR6, designated PAR6α, β and γ, comprising 345, 372 and 376 amino acids, respectively. The PAR6 proteins harbour a PDZ domain and a CRIB-like motif, and directly interact with GTP-bound Rac and Cdc42 via this motif and with the aPKC isoforms PKCι/λ and PKCζ via the N-terminal head-to–head association. These interactions are not mutually exclusive, thereby allowing the PAR6 proteins to form a ternary complex with the GTPases and aPKC, both in vitro and in vivo. When PAR6 and aPKC are expressed with a constitutively active form of Rac in HeLa or COS-7 cells, these proteins co-localize to membrane ruffles, which are known to occur at the leading edge of polarized cells during cell movement. Conclusion Human PAR6 homologues most likely play an important role in the cell polarization of mammalian cells, by functioning as an adaptor protein that links activated Rac and Cdc42 to aPKC signalling. [ABSTRACT FROM AUTHOR]

Published

2001

19. Purification and characterization of 20-hydroxy-leukotriene B4 dehydrogenase in human neutrophils.

Author

Gotoh, Yoichi, Sumimoto, Hideki, and Minakami, Shigeki

Subjects

*NEUTROPHILS, *DEHYDROGENASES, *LEUKOTRIENES, *MICROSOMES, *PROTEINS, *ENZYMES

Abstract

Leukotriene B4 (LTB4) is converted to 20-hydroxy-LTB4 (20-OH-LTB4) which is subsequently oxidized to 20-carboxy-LTB4 (20-COOH-LTB4). The oxidation of the hydroxy LTB4 to the carboxy LTB4 by human neutrophils was associated with the reduction of NAD + and required both cytosolic and microsomal fractions. We isolated a cytosolic protein which oxidized the hydroxy LTB4 in the presence of NAD + and the microsomal fraction. It was homogeneous on SDS/PAGE, with a subunit molecular mass of 37 kDa, and may be a dimeric protein with two identical or similar subunits because its molecular mass, estimated by Sephadex G-100 column chromatography, was about 80 kDa. The protein was an alcohol dehydrogenase with high affinity for ω-hydroxy fatty acids, such as 12-hydroxylaurate and 16-hydroxypalmitate. We conclude that the cytosolic protein oxidizes 20-OH-LTB4 to 20-oxo-LTB4 and the microsomal fraction oxidizes the oxo-LTB4 to the carboxy-LTB4, based on the finding that the activity which oxidizes ω-hydroxy fatty acids is present only in the cytosol fraction, while that which oxidizes hydrophobic aldehydes is found only in the microsomal fraction and that the stoichiometry of the formation of 20-COOH-LTB4 to the reduction of NAD+ was 1: 2. The affinity of the dehydrogenase for 20-OHLTB4 may be higher than that for 12-hydroxylaurate (Km = 70 µM), because the latter inhibited the oxidation of the former by only 40%, at a concentration of 12-hydroxylaurate 10 times higher than that of 20-OH-LTB4. The enzyme activity was not affected by pyrazole and 4-methylpyrazole at millimolar concentrations. These characteristics indicate that the dehydrogenase is a unique type of alcohol dehydrogenase. [ABSTRACT FROM AUTHOR]

Published

1989

20. The PC motif : a novel and evolutionarily conserved sequence involved in interaction between p40 phox and p67phox, SH3 domain-containing cytosolic factors of the phagocyte NADPH oxidase.

Author

Nakamura, Rika, Sumimoto, Hideki, Mizuki, Kazuhito, Hata, Kenichiro, Ago, Tetsuro, Kitajima, Shigetaka, Takeshige, Koichiro, Sakaki, Yoshiyuki, and Ito, Takashi

Subjects

*OXIDASES, *YEAST, *PROTEINS

Abstract

The superoxide-generating NADPH oxidase, dormant in resting phagocytes, is activated during phagocytosis following assembly of the membrane-integrated protein cytochrome b558 and cytosolic factors. Among the latter are the three proteins containing Src homology 3 (SH3) domains, p67phox, p47phox and p40 phox. While the first two factors are indispensable for the activity, p40 phox is tightly associated with p67phox in resting cells and is suggested to have some modulatory role. Here we describe a systematic analysis of the interaction between p40 phox and p67phox using the yeast two-hybrid system and in vitro binding assays with recombinant proteins. Both methods unequivocally showed that the minimum requirements for stable interaction are the C-terminal region of p40 phox and the region between the two SH3 domains of p67phox. This interaction is maintained even in the presence of anionic amphiphiles used for the activation of the NADPH oxidase, raising a possibility that it mediates constitutive association of the two factors in both resting and activated cells. The C-terminal region of p40 phox responsible for the interaction contains a characteristic stretch of amino acids designated as the PC motif, that also exists in other signal-transducing proteins from yeast to human. Intensive site-directed mutagenesis to the motif in p40 phox revealed that it plays a critical role in the binding to p67 phox. Thus the PC motif appears to represent a novel module for protein-protein interaction used in a variety of signaling pathways. [ABSTRACT FROM AUTHOR]

Published

1998

21. Functional modules and expression of mouse p40 phox and p67phox, SH3-domain-containing proteins involved in the phagocyte NADPH oxidase complex.

Author

Mizuki, Kazuhito, Kadomatsu, Kenji, Hata, Kenichiro, Ito, Takashi, Fan, Qi-Wen, Kage, Yohko, Fukumaki, Yasuyuki, Sakaki, Yoshiyuki, Takeshige, Koichiro, and Sumimoto, Hideki

Subjects

PROTEINS, PHAGOCYTES, LABORATORY mice

Abstract

The phagocyte NADPH oxidase is activated during phagocytosis to produce superoxide, a precursor of microbicidal oxidants. The formation of the active oxidase complex at the membrane requires translocation of the Rac GTPase and two specialized cytosolic proteins that harbor SH3 domains, p67phox and p47phox. Another SH3-domain-containing protein p40 phox, which is constitutively associated with p67phox in phagocytes, also enters the complex upon cell stimulation. Here we describe how we cloned mouse cDNAs encoding p40 phox and its partner in phagocytes, p67phox. Both p40 phox and p67phox comprise several protein-binding modules that are structurally and functionally well conserved between mouse and human, indicating their nature as adaptor proteins. We have also systematically investigated expression of the gene for p40 phox in comparison with those for p67phox and p47phox. Distributions of the mRNAs for the three proteins among tissues are similar, with the most abundant expression in the spleen. The messages are abundant not only in phagocytic cells, but also in B cell lineage. The p40 phox gene, but not the other two, is expressed in some types of cells such as plasma cells and T lymphocytes. Furthermore, in situ hybridization analysis shows that the p40 phox mRNA is distributed in neuronal cells of mouse brain, providing evidence that one of the genes for the specialized oxidase factors is expressed in neurons. These observations raise the possibility that the adaptor protein p40 phox plays a heretofore unsuspected role via interacting with other proteins in the cells that do not express p67phox or p47phox. [ABSTRACT FROM AUTHOR]

Published

1998

22. Two forms of human Inscuteable-related protein that links Par3 to the Pins homologues LGN and AGS3

Author

Izaki, Tomoko, Kamakura, Sachiko, Kohjima, Motoyuki, and Sumimoto, Hideki

Subjects

*DROSOPHILA, *GENES, *HOMOLOGY (Biology), *AMINO acids, *PROTEINS, *CLONING

Abstract

Abstract: In cell polarization of Drosophila neuroblasts, Inscuteable (Insc) functions via tethering Partner of Insc (Pins) to Bazooka, homologous to human cell polarity protein Par3. However, little has been known about mammalian homologues of Insc. Here we describe cloning of two distinct cDNAs from human Insc gene, which is differentially expressed from alternative first exons: one encodes 579 amino acids, whereas the other lacks the N-terminal 47 amino acids. In contrast to human homologues for Pins and Par3, human Insc exhibits a weak homology with the Drosophila counterpart. Nevertheless, human Insc proteins bind to the human Pins homologues LGN and AGS3, and also to human Par3 and its related protein Par3β. Although LGN by itself is incapable of interacting with Par3, coexpression of human Insc leads to the interaction between LGN and Par3, indicating that human Insc plays an evolutionarily conserved role as an adaptor protein that links Pins to Par3. [Copyright &y& Elsevier]

Published

2006

23. Structure of a Cell Polarity Regulator, a Complex between Atypical PKC and Par6 PB1 Domains.

Author

Hirano, Yoshinori, Yoshinaga, Sosuke, Takeya, Ryu, Suzuki, Nobuo N., Horiuchi, Masataka, Kohjima, Motoyuki, Sumimoto, Hideki, and Inagaki, Fuyuhiko

Subjects

*UBIQUITIN, *PROTEINS, *AMINO acids, *NAD (Coenzyme), *BIOCHEMISTRY, *PROTEIN kinases

Abstract

A complex of atypical PKC and Par6 is a common regulator for cell polarity-related processes, which is an essential clue to evolutionary conserved cell polarity regulation. Here, we determined the crystal structure of the complex of PKCι and Par6α PB1 domains to a resolution of 1.5 Å. Both PB1 domains adopt a ubiquitin fold. PKCι PB1 presents an OPR, PC, and AID (OPCA) motif, 28 amino acid residues with acidic and hydrophobic residues, which interacts with the conserved lysine residue of Par6α PB1 in a front and back manner. On the interface, several salt bridges are formed including the conserved acidic residues on the OPCA motif of PKCι PB1 and the conserved lysine residue on the Par6α PB1. Structural comparison of the PKCι and Par6α PB1 complex with the p40phox and p67phox PB1 domain complex, subunits of neutrophil NADPH oxidase, reveals that the specific interaction is achieved by tilting the interface so that the insertion or extension in the sequence is engaged in the specificity determinant. The PB1 domain develops the interaction surface on the ubiquitin fold to increase the versatility of molecular interaction. [ABSTRACT FROM AUTHOR]

Published

2005

24. Binding of FAD to Cytochrome b558 Is Facilitated during Activation of the Phagocyte NADPH Oxidase, Leading to Superoxide Production.

Author

Hashida, Shukichi, Yuzawa, Satoru, Suzuki, Nobuo N., Fujioka, Yuko, Takikawa, Takayuki, Sumimoto, Hideki, Inagaki, Fuyuhiko, and Fujii, Hirotada

Subjects

*CYTOCHROME b, *CYTOCHROMES, *PHAGOCYTES, *OXIDASES, *SUPEROXIDES, *PROTEINS, *HEME, *ANAEROBIOSIS, *BIOCHEMISTRY

Abstract

The superoxide-producing phagocyte NADPH oxidase can be reconstituted in a cell-free system. The activity of NADPH oxidase is dependent on FAD, but the physiological status of FAD in the oxidase is not fully elucidated. To clarify the role of FAD in NADPH oxidase, FAD-free full-length recombinant p47phox, p67phox, p40phox, and Rac were prepared, and the activity was reconstituted with these proteins and purified cytochrome b55s (cyt b558) with different amounts of FAD. A remarkably high activity, over 100 μmol/s/μmol heme, was obtained in the oxidase with purified cyt b558, ternary complex (p47–p67-p40phox), and Rac. From titration with FAD of the activity of NADPH oxidase reconstituted with purified FAD-devoid cyt b558, the dissociation constant Kd of FAD in cyt b558 of reconstituted oxidase was estimated as nearly I nM. We also examined addition of FAD on the assembly process in reconstituted oxidase. The activity was remarkably enhanced when FAD was present during assembly process, and the efficacy of incorporating FAD into the vacant FAD site in purified cyt b55s increased, compared when FAD was added after assembly processes. The absorption spectra of reconstituted oxidase under anaerobiosis showed that incorporation of FAD into cyt b558 recovered electron flow from NADPH to heme. From both Kd values of FAD and the amount of incorporated FAD in cyt b558 of reconstituted oxidase, in combination with spectra, we propose the model in which the Kd values of FAD in cyt b558 is changeable after activation and FAD binding works as a switch to regulate electron transfer in NADPH oxidase. [ABSTRACT FROM AUTHOR]

Published

2004

25. Novel Human Homologues of p47[sup phox] and p67[sup phox] Participate in Activation of Superoxide-producing NADPH Oxidases.

Author

Takeya, Ryu, Ueno, Noriko, Kami, Keiichiro, Taura, Masahiko, Kohjima, Motoyuki, Izaki, Tomoko, Nunoi, Hiroyuki, and Sumimoto, Hideki

Subjects

*NAD(P)H dehydrogenases, *OXIDASES, *PROTEINS

Abstract

Examines the role of human homologue p47 and p67 adapter proteins in the activation of superoxide-producing NAD(P)H oxidases. Structure and domain architecture of p41, a novel homologue of p47; Interaction of human p41 with other oxidase factors; Effects of p41 and p51 on activation of the phagocyte NAD(P)H oxidase.

Published

2003

26. PAR3<f>β</f>, a novel homologue of the cell polarity protein PAR3, localizes to tight junctions

Author

Kohjima, Motoyuki, Noda, Yukiko, Takeya, Ryu, Saito, Naoaki, Takeuchi, Kosei, and Sumimoto, Hideki

Subjects

*PROTEINS, *PROTEIN kinase C

Abstract

The cell polarity protein PAR3, conserved from the nematode to the vertebrate, forms a complex with PAR6 and atypical protein kinase C (aPKC), and the protein complex occurs at the tight junctions in mammalian epithelial cells. Here we have cloned human cDNA for a novel PAR3 homologue, designated PAR3β, whose messages are present in a variety of tissues and most abundantly expressed in the adult and fetal kidneys. The encoded protein of 1205 amino acids contains a region homologous to the aPKC-binding domain of PAR3α, another human homologue previously identified, and three PDZ domains; the first PDZ domain of PAR3α is considered to interact with PAR6. Unexpectedly, in contrast to other PAR3s found in various species, PAR3β is incapable of binding to any isotypes of PAR6 or aPKC. Nevertheless PAR3β, expressed intrinsically or extrinsically, localizes to the tight junctions, indicating that the localization does not require the ternary complex formation. [Copyright &y& Elsevier]

Published

2002

27. OPR, PC and AID: all in the PB1 family.

Author

Ponting, Chris P., Ito, Takashi, Moscat, Jorge, Diaz-Meco, María T., Inagaki, Fuyuhiko, and Sumimoto, Hideki

Subjects

*PROTEINS, *ORGANIC compounds, *STRUCTURE-activity relationships

Abstract

Comments on a study that examined the multidomain protein Phox and Bem1p (PB1). Structure of PB1 domains; Function of PB1 domains; Nomenclature of homologous domains of PB1.

Published

2002