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ABSTRACT: The influenza A virus genome consists of eight single-stranded negative-sense RNA (vRNA) segments. Although genome segmentation provides advantages such as genetic reassortment, which contributes to the emergence of novel strains with pandemic potential, it complicates the genome packaging of progeny virions. Here we elucidate, using electron tomography, the three-dimensional structure of ribonucleoprotein complexes (RNPs) within progeny virions. Each virion is packed with eight well-organized RNPs that possess rod-like structures of different lengths. Multiple interactions are found among the RNPs. The position of the eight RNPs is not consistent among virions, but a pattern suggests the existence of a specific mechanism for assembly of these RNPs. Analyses of budding progeny virions suggest two independent roles for the viral spike proteins: RNP association on the plasma membrane and the subsequent formation of the virion shell. Our data provide further insights into the mechanisms responsible for segmented-genome packaging into virions.
Nature Communications 01/2012; 3:639. · 7.40 Impact Factor
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ABSTRACT: The formation and refinement of synaptic connections are key steps of neural development to establish elaborate brain networks. To investigate the functional role of protein tyrosine phosphatase (PTP) σ, we employed an olfactory sensory neuron (OSN)-specific gene manipulation system in combination with in vivo imaging of transparent zebrafish embryos. Knockdown of PTPσ enhanced the accumulation of synaptic vesicles in the axon terminals of OSNs. The exaggerated accumulation of synaptic vesicles was restored to the normal level by the OSN-specific expression of PTPσ, indicating that presynaptic PTPσ is responsible for the regulation of synaptic vesicle accumulation. Consistently, transient expression of a dominant-negative form of PTPσ in OSNs enhanced the accumulation of synaptic vesicles. The exaggerated accumulation of synaptic vesicles was reproduced in transgenic zebrafish lines carrying an OSN-specific expression vector of the dominant-negative PTPσ. By electron microscopic analysis of the transgenic line, we found the significant increase of the number of OSN-mitral cell synapses in the central zone of the olfactory bulb. The density of docked vesicles at the active zone was also increased significantly. Our results suggest that presynaptic PTPσ controls the number of OSN-mitral cell synapses by suppressing their excessive increase.
Journal of Neurochemistry 08/2011; 119(3):532-43. · 4.06 Impact Factor
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ABSTRACT: Negatively stained influenza virions sometimes show irregular morphology and are often referred to as pleomorphic. However, this irregular morphology has not been visualized when ultrathin-section transmission and scanning electron microscopies are used. This study focused on the effects of ultracentrifugation on influenza A virion morphology, as negative staining often involves ultracentrifugation to concentrate or purify virions. The morphologies of unfixed, glutaraldehyde-fixed and osmium tetroxide-fixed virions were quantitatively compared before and after ultracentrifugation, and it was found that, without chemical fixation, approximately 30% of virions were altered from oval to irregular shapes following ultracentrifugation. By contrast, most glutaraldehyde-fixed virions remained uniformly elliptical, even after ultracentrifugation. When a virus with an 11 aa deletion at the C terminus of its M2 cytoplasmic tail was ultracentrifuged, its morphology was appreciably deformed compared with that of the wild-type virus. These results demonstrate that the native morphology of influenza A virions is regular but is disrupted by ultracentrifugation, and that the cytoplasmic tail of M2 is important for virion integrity.
Journal of General Virology 07/2011; 92(Pt 11):2485-93. · 3.36 Impact Factor
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Dong-Young Kim,
Ayuko Sato,
Satoshi Fukuyama, Hiroshi Sagara,
Takahiro Nagatake,
Il Gyu Kong,
Kaoru Goda,
Tomonori Nochi,
Jun Kunisawa,
Shintaro Sato,
Yoshifumi Yokota,
Chul Hee Lee,
Hiroshi Kiyono
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ABSTRACT: In this study, we demonstrated a new airway Ag sampling site by analyzing tissue sections of the murine nasal passages. We revealed the presence of respiratory M cells, which had the ability to take up OVA and recombinant Salmonella typhimurium expressing GFP, in the turbinates covered with single-layer epithelium. These M cells were also capable of taking up respiratory pathogen group A Streptococcus after nasal challenge. Inhibitor of DNA binding/differentiation 2 (Id2)-deficient mice, which are deficient in lymphoid tissues, including nasopharynx-associated lymphoid tissue, had a similar frequency of M cell clusters in their nasal epithelia to that of their littermates, Id2(+/-) mice. The titers of Ag-specific Abs were as high in Id2(-/-) mice as in Id2(+/-) mice after nasal immunization with recombinant Salmonella-ToxC or group A Streptococcus, indicating that respiratory M cells were capable of sampling inhaled bacterial Ag to initiate an Ag-specific immune response. Taken together, these findings suggest that respiratory M cells act as a nasopharynx-associated lymphoid tissue-independent alternative gateway for Ag sampling and subsequent induction of Ag-specific immune responses in the upper respiratory tract.
The Journal of Immunology 02/2011; 186(7):4253-62. · 5.79 Impact Factor
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ABSTRACT: When Ebola virus nucleoprotein (NP) is expressed in mammalian cells, it assembles into helical structures. Here, the recombinant NP helix purified from cells expressing NP was characterized biochemically and morphologically. We found that the recombinant NP helix is associated with non-viral RNA, which is not protected from RNase digestion and that the morphology of the helix changes depending on the environmental salt concentration. The N-terminal 450 aa residues of NP are sufficient for these properties. However, digestion of the NP-associated RNA eliminates the plasticity of the helix, suggesting that this RNA is an essential structural component of the helix, binding to individual NP molecules via the N-terminal 450 aa. These findings enhance our knowledge of Ebola virus assembly and understanding of the Ebola virus life cycle.
Journal of General Virology 02/2010; 91(Pt 6):1478-83. · 3.36 Impact Factor
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Yuka Masaike,
Takeshi Takagi,
Masataka Hirota,
Joe Yamada,
Satoru Ishihara,
Tetsu M C Yung,
Takamasa Inoue,
Chika Sawa, Hiroshi Sagara,
Satoshi Sakamoto,
Yasuaki Kabe,
Yasuyuki Takahashi,
Yuki Yamaguchi,
Hiroshi Handa
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ABSTRACT: Nitrogen-containing bisphosphonates are pyrophosphate analogs that have long been the preferred prescription for treating osteoporosis. Although these drugs are considered inhibitors of prenylation and are believed to exert their effects on bone resorption by disrupting the signaling pathways downstream of prenylated small GTPases, this explanation seems to be insufficient. Because other classes of prenylation inhibitors have recently emerged as potential antiviral therapeutic agents, we first investigated here the effects of bisphosphonates on simian virus 40 and adenovirus infections and, to our surprise, found that viral infections are suppressed by bisphosphonates through a prenylation-independent pathway. By in-house affinity-capture techniques, dynamin-2 was identified as a new molecular target of bisphosphonates. We present evidence that certain bisphosphonates block endocytosis of adenovirus and a model substrate by inhibiting GTPase activity of dynamin-2. Hence, this study has uncovered a previously unknown mechanism of action of bisphosphonates and offers potential novel use for these drugs.
Molecular pharmacology 11/2009; 77(2):262-9. · 4.53 Impact Factor
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Takahiro Nagatake,
Satoshi Fukuyama,
Dong-Young Kim,
Kaoru Goda,
Osamu Igarashi,
Shintaro Sato,
Tomonori Nochi, Hiroshi Sagara,
Yoshifumi Yokota,
Anton M. Jetten, [......],
Shizuo Akira,
Hitomi Mimuro,
Chihiro Sasakawa,
Yoshinori Fukui,
Kohtaro Fujihashi,
Taishin Akiyama,
Jun-ichiro Inoue,
Josef M. Penninger,
Jun Kunisawa,
Hiroshi Kiyono
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ABSTRACT: The eye is protected by the ocular immunosurveillance system. We show that tear duct–associated lymphoid tissue (TALT) is
located in the mouse lacrimal sac and shares immunological characteristics with mucosa-associated lymphoid tissues (MALTs),
including the presence of M cells and immunocompetent cells for antigen uptake and subsequent generation of mucosal immune
responses against ocularly encountered antigens and bacteria such as Pseudomonas aeruginosa. Initiation of TALT genesis began postnatally; it occurred even in germ-free conditions and was independent of signaling
through organogenesis regulators, including inhibitor of DNA binding/differentiation 2, retinoic acid–related orphan receptor
γt, lymphotoxin (LT) α1β2–LTβR, and lymphoid chemokines (CCL19, CCL21, and CXCL13). Thus, TALT shares immunological features
with MALT but has a distinct tissue genesis mechanism and plays a key role in ocular immunity.
Journal of Experimental Medicine 10/2009; 206(11):2351-2364. · 13.85 Impact Factor
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Takahiro Nagatake,
Satoshi Fukuyama,
Dong-Young Kim,
Kaoru Goda,
Osamu Igarashi,
Shintaro Sato,
Tomonori Nochi, Hiroshi Sagara,
Yoshifumi Yokota,
Anton M Jetten, [......],
Shizuo Akira,
Hitomi Mimuro,
Chihiro Sasakawa,
Yoshinori Fukui,
Kohtaro Fujihashi,
Taishin Akiyama,
Jun-ichiro Inoue,
Josef M Penninger,
Jun Kunisawa,
Hiroshi Kiyono
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ABSTRACT: The eye is protected by the ocular immunosurveillance system. We show that tear duct-associated lymphoid tissue (TALT) is located in the mouse lacrimal sac and shares immunological characteristics with mucosa-associated lymphoid tissues (MALTs), including the presence of M cells and immunocompetent cells for antigen uptake and subsequent generation of mucosal immune responses against ocularly encountered antigens and bacteria such as Pseudomonas aeruginosa. Initiation of TALT genesis began postnatally; it occurred even in germ-free conditions and was independent of signaling through organogenesis regulators, including inhibitor of DNA binding/differentiation 2, retinoic acid-related orphan receptor gammat, lymphotoxin (LT) alpha1beta2-LTbetaR, and lymphoid chemokines (CCL19, CCL21, and CXCL13). Thus, TALT shares immunological features with MALT but has a distinct tissue genesis mechanism and plays a key role in ocular immunity.
Journal of Experimental Medicine 10/2009; 206(11):2351-64. · 13.85 Impact Factor
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ABSTRACT: Us3 is a serine/threonine protein kinase encoded by herpes simplex virus 1 (HSV-1). We recently identified serine at Us3 position 147 (Ser-147) as a physiological phosphorylation site of Us3 (A. Kato, M. Tanaka, M. Yamamoto, R. Asai, T. Sata, Y. Nishiyama, and Y. Kawaguchi, J. Virol. 82:6172-6189, 2008). In the present study, we investigated the effects of phosphorylation of Us3 Ser-147 on regulation of Us3 catalytic activity in infected cells and on HSV-1 pathogenesis. Our results were as follows. (i) Only a small fraction of Us3 purified from infected cells was phosphorylated at Ser-147. (ii) Us3 phosphorylated at Ser-147 purified from infected cells had significantly higher kinase activity than Us3 not phosphorylated at Ser-147. (iii) Phosphorylation of Us3 Ser-147 in infected cells was dependent on Us3 kinase activity. (iv) Replacement of Us3 Ser-147 by alanine significantly reduced viral replication in the mouse cornea and the development of herpes stromal keratitis and periocular skin disease in mice. These results indicated that Us3 catalytic activity is tightly regulated by autophosphorylation of Ser-147 in infected cells and that regulation of Us3 activity by autophosphorylation appeared to play a critical role in viral replication in vivo and in HSV-1 pathogenesis.
Journal of Virology 04/2009; 83(11):5773-83. · 5.40 Impact Factor
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ABSTRACT: Herpes simplex virus 1 (HSV-1) enters cells either via fusion of the virion envelope and host cell plasma membrane or via endocytosis, depending on the cell type. In the study reported here, we investigated a viral entry pathway dependent on the paired immunoglobulin-like type 2 receptor alpha (PILRalpha), a recently identified entry coreceptor for HSV-1 that associates with viral envelope glycoprotein B (gB). Experiments using inhibitors of endocytic pathways and ultrastructural analyses of Chinese hamster ovary (CHO) cells transduced with PILRalpha showed that HSV-1 entry into these cells was via virus-cell fusion at the cell surface. Together with earlier observations that HSV-1 uptake into normal CHO cells and those transduced with a receptor for HSV-1 envelope gD is mediated by endocytosis, these results indicated that expression of PILRalpha produced an alternative HSV-1 entry pathway in CHO cells. We also showed that human and murine PILRalpha were able to mediate entry of pseudorabies virus, a porcine alphaherpesvirus, but not of HSV-2. These results indicated that viral entry via PILRalpha appears to be conserved but that there is a PILRalpha preference among alphaherpesviruses.
Journal of Virology 03/2009; 83(9):4520-7. · 5.40 Impact Factor
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Journal of Biomedical Materials Research Part A - J BIOMED MATER RES PART A. 01/2009;
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ABSTRACT: Bone regenerative medicine via tissue engineering is expected to be an alternative treatment for conventional autogenous bone graft, as it is less invasive. One of the best triads for bone engineering is bone marrow stromal cells, calcium phosphate ceramics, and bone morphogenetic protein (BMP). However, the optimal mixing conditions for BMP-induced osteoblasts and ceramic granules remain unclear. Therefore, we investigated the effect of the mixing conditions for cell scaffolds on the bone-forming potential. The cells were mixed with beta-tricalcium phosphate (beta-TCP) granules followed by osteoblast induction with recombinant human BMP-2 (rhBMP-2) (first mixture), or were first induced with rhBMP-2 on plastic dishes and then mixed with the beta-TCP granules (last mixture) just prior to the operation. Both the first and last mixtures were transplanted into nude mice subcutaneously, with the amount of bone formation analyzed histomorphometrically. In addition, cell numbers and alkaline phosphatase (ALP) activity before transplantation was determined in both the mixtures. In vitro analyses revealed that cell numbers were greater in the last mixture, whereas ALP activity was greater in the first mixture. In vivo analyses revealed that the first mixture was much more osteogenic than the last mixture with respect to new bone formation and osteocalcin synthesis. These data suggest that cell-scaffold mixing conditions have a significant influence on the bone-forming capacity via bone engineering and that first mixture might be the optimal condition for rhBMP-2-induction of human osteoblasts.
Journal of Biomedical Materials Research Part A 10/2008; 91(1):84-91. · 2.63 Impact Factor
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ABSTRACT: We report here the construction of a triply fluorescent-tagged herpes simplex virus 1 (HSV-1) expressing capsid protein VP26, tegument protein VP22, and envelope protein gB as fusion proteins with monomeric yellow, red, and cyan fluorescent proteins, respectively. The recombinant virus enabled us to monitor the dynamics of these capsid, tegument, and envelope proteins simultaneously in the same live HSV-1-infected cells and to visualize single extracellular virions with three different fluorescent emissions. In Vero cells infected by the triply fluorescent virus, multiple cytoplasmic compartments were found to be induced close to the basal surfaces of the infected cells (the adhesion surfaces of the infected cells on the solid growth substrate). Major capsid, tegument, and envelope proteins accumulated and colocalized in the compartments, as did marker proteins for the trans-Golgi network (TGN) which has been implicated to be the site of HSV-1 secondary envelopment. Moreover, formation of the compartments was correlated with the dynamic redistribution of the TGN proteins induced by HSV-1 infection. These results suggest that HSV-1 infection causes redistribution of TGN membranes to form multiple cytoplasmic compartments, possibly for optimal secondary envelopment. This is the first real evidence for the assembly of all three types of herpesvirus proteins-capsid, tegument, and envelope membrane proteins-in TGN.
Journal of Virology 07/2008; 82(11):5198-211. · 5.40 Impact Factor
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ABSTRACT: The supportive functions of oligodendrocytes are required for the survival and development of axons, ensuring the organization of highly specialized neuronal networks in brain. Although the molecules that regulate oligodendrocyte differentiation in vitro have been identified, their roles in vivo are largely uncertain. Here we report that fyn deficiency on the C57BL/6 genetic background resulted in premature death, showing severe hydrocephalus with neonatal onset. One week after birth, fyn-deficient mice showed enlarged lateral ventricles with thinner cerebral cortices and degenerating axons in the corpus callosum. In addition, before the onset of myelination, the number of oligodendrocytes was reduced and their morphogenesis was impaired in the cerebral cortex. These results demonstrate that Fyn is essential for normal brain development and suggest that defects in oligodendrocyte development cause degeneration of cortical axons and subsequent hydrocephalus in fyn-deficient mice.
Molecular and Cellular Neuroscience 07/2008; 38(2):203-12. · 3.66 Impact Factor
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Keisuke Nagatsuma,
Yoshihiro Hayashi,
Hiroshi Hano, Hiroshi Sagara,
Kazuhiro Murakami,
Masaya Saito,
Takahiro Masaki,
Tomoe Lu,
Mitsugu Tanaka,
Hideaki Enzan,
Yoshio Aizawa,
Hisao Tajiri,
Tomokazu Matsuura
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ABSTRACT: To determine the extent to which hepatic stellate cell (HSC) activation contributes to liver fibrosis, it was found necessary to develop an alternative structural and functional stellate cell marker for in situ studies. Although several HSC markers have been reported, none of those are associated with particular HSC functions.
The present study was undertaken to examine whether lecithin:retinol acyltransferase (LRAT), the physiological retinol esterification enzyme of the liver, is a potential and relevant tissue marker for HSC.
An antibody specific to mouse and human LRAT was prepared based on the amino acid sequences. Antibodies to LRAT were used for immunohistochemical studies to assess the distribution of LRAT-positive cells in the liver with the aid of fluorescence and immunogold electron microscopy.
LRAT-positive cells were found to be confined in the space of Disse, corresponding with the location of desmin-positive HSC in rodent liver, also in human liver. Interestingly, LRAT-positive staining was also observed along the liver sinusoidal endothelial lining. Furthermore, immune electron microscopic studies revealed that LRAT was mainly distributed in HSC within the rough-endoplasmic reticulum (RER) and multivesicular bodies, whereas LRAT staining within the endothelial cells was largely confined to the perinuclear area and to some extent to the RER.
Evidence has been accumulated that LRAT might serve as an excellent alternative HSC marker for future structural and functional studies. Furthermore, the presence of LRAT in endothelial cells might suggest a currently unknown function of this enzyme in liver endothelial biology.
Liver international: official journal of the International Association for the Study of the Liver 07/2008; 29(1):47-54. · 3.82 Impact Factor
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ABSTRACT: Toward the end of mitosis, neighboring chromosomes gather closely to form a compact cluster. This is important for reassembling the nuclear envelope around the entire chromosome mass but not individual chromosomes. By analyzing mice and cultured cells lacking the expression of chromokinesin Kid/kinesin-10, we show that Kid localizes to the boundaries of anaphase and telophase chromosomes and contributes to the shortening of the anaphase chromosome mass along the spindle axis. Loss of Kid-mediated anaphase chromosome compaction often causes the formation of multinucleated cells, specifically at oocyte meiosis II and the first couple of mitoses leading to embryonic death. In contrast, neither male meiosis nor somatic mitosis after the morula-stage is affected by Kid deficiency. These data suggest that Kid-mediated anaphase/telophase chromosome compaction prevents formation of multinucleated cells. This protection is especially important during the very early stages of development, when the embryonic cells are rich in ooplasm.
Cell 04/2008; 132(5):771-82. · 32.40 Impact Factor
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ABSTRACT: Enteropathogenic Escherichia coli (EPEC) destroys intestinal microvilli and suppresses phagocytosis by injecting effectors into infected cells through a type III secretion system (TTSS). EspB, a component of the TTSS, is also injected into the cytoplasm of host cells. However, the physiological functions of EspB within the host cell cytoplasm remain unclear. We show that EspB binds to myosins, which are a superfamily of proteins that interact with actin filaments and mediate essential cellular processes, including microvillus formation and phagocytosis. EspB inhibits the interaction of myosins with actin, and an EspB mutant that lacks the myosin-binding region maintained its TTSS function but could not induce microvillus effacing or suppress phagocytosis. Moreover, the myosin-binding region of EspB is essential for Citrobacter rodentium, an EPEC-related murine pathogen, to efficiently infect mice. These results suggest that EspB inhibits myosin functions and thereby facilitates efficient infection by EPEC.
Cell host & microbe 01/2008; 2(6):383-92. · 13.02 Impact Factor
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ABSTRACT: Ebola virus (EBOV) VP24, together with nucleoprotein and VP35, is an essential component of viral RNA-protein complexes called "nucleocapsids." In this study, using a series of deletion mutants of VP24, we identified regions within VP24 that are important for the formation of nucleocapsid-like structures and determined that both termini of VP24 are essential for nucleocapsid formation. This finding advances our knowledge of both EBOV morphogenesis and the nature of VP24 molecules in nucleocapsid formation, which will be useful for the development of antiviral compounds.
The Journal of Infectious Diseases 12/2007; 196 Suppl 2:S247-50. · 6.41 Impact Factor
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Dai Chida,
Shinichi Nakagawa,
So Nagai, Hiroshi Sagara,
Harumi Katsumata,
Toshihiro Imaki,
Harumi Suzuki,
Fumiko Mitani,
Tadashi Ogishima,
Chikara Shimizu,
Hayato Kotaki,
Shigeru Kakuta,
Katsuko Sudo,
Takao Koike,
Mitsumasa Kubo,
Yoichiro Iwakura
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ABSTRACT: ACTH (i.e., corticotropin) is the principal regulator of the hypothalamus-pituitary-adrenal axis and stimulates steroidogenesis in the adrenal gland via the specific cell-surface melanocortin 2 receptor (MC2R). Here, we generated mice with an inactivation mutation of the MC2R gene to elucidate the roles of MC2R in adrenal development, steroidogenesis, and carbohydrate metabolism. These mice, the last of the knockout (KO) mice to be generated for melanocortin family receptors, provide the opportunity to compare the phenotype of proopiomelanocortin KO mice with that of MC1R-MC5R KO mice. We found that the MC2R KO mutation led to neonatal lethality in three-quarters of the mice, possibly as a result of hypoglycemia. Those surviving to adulthood exhibited macroscopically detectable adrenal glands with markedly atrophied zona fasciculata, whereas the zona glomerulosa and the medulla remained fairly intact. Mutations of MC2R have been reported to be responsible for 25% of familial glucocorticoid deficiency (FGD) cases. Adult MC2R KO mice resembled FGD patients in several aspects, such as undetectable levels of corticosterone despite high levels of ACTH, unresponsiveness to ACTH, and hypoglycemia after prolonged (36 h) fasting. However, MC2R KO mice differ from patients with MC2R-null mutations in several aspects, such as low aldosterone levels and unaltered body length. These results indicate that MC2R is required for postnatal adrenal development and adrenal steroidogenesis and that MC2R KO mice provide a useful animal model by which to study FGD.
Proceedings of the National Academy of Sciences 12/2007; 104(46):18205-10. · 9.68 Impact Factor
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ABSTRACT: N-WASP induces filopodial actin cytoskeleton through activation of the Arp2/3 complex. Here, we show that heat shock protein 90 (HSP90) regulates the structure of actin filaments induced by N-WASP and the Arp2/3 complex. HSP90 binds to N-WASP and to F-actin and bundles actin filaments. Bundling activity of HSP90 does not affect actin filament nucleation induced by N-WASP and the Arp2/3 complex. HSP90 is co-localized with N-WASP at branching points of actin filaments produced by the Arp2/3 complex and thereby bundles branched filaments; this bundled actin structure is inhibited by blocking direct binding between HSP90 and N-WASP. Furthermore, HSP90 converts branched actin filaments on N-WASP-coated beads to filopodia-like star-shaped bundles. These findings indicate that HSP90 promotes the formation of N-WASP/Arp2/3 complex-induced unbranched filopodial actin structures.
Genes to Cells 06/2007; 12(5):611-22. · 2.68 Impact Factor
