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931.
Shouta Miyatake Yasuko Manabe Akiko Inagaki Yasuro Furuichi Mayumi Takagi Masato Taoka Toshiaki Isobe Kiichi Hirota Nobuharu L. Fujii 《Biochemical and biophysical research communications》2014
Skeletal muscle is a primary organ that uses blood glucose. Insulin- and 5′AMP-activated protein kinase (AMPK)-regulated intracellular signaling pathways are known as major mechanisms that regulate muscle glucose transport. It has been reported that macrophage migration inhibitory factor (MIF) is secreted from adipose tissue and heart, and affects these two pathways. In this study, we examined whether MIF is a myokine that is secreted from skeletal muscles and affects muscle glucose transport induced by these two pathways. We found that MIF is expressed in several different types of skeletal muscle. Its secretion was also confirmed in C2C12 myotubes, a skeletal muscle cell line. Next, the extensor digitorum longus (EDL) and soleus muscles were isolated from mice and treated with recombinant MIF in an in vitro muscle incubation system. MIF itself did not have any effect on glucose transport in both types of muscles. However, glucose transport induced by a submaximal dose of insulin was diminished by co-incubation with MIF in the soleus muscle. MIF also diminished glucose transport induced by a maximal dose of 5-aminoimidazole-4-carboxyamide ribonucleoside (AICAR), an AMPK activator, in the EDL muscle. These results suggest that MIF is a negative regulator of insulin- and AICAR-induced glucose transport in skeletal muscle. Since MIF secretion from C2C12 myotubes to the culture medium decreased during contraction evoked by electrical stimulations, MIF may be involved in the mechanisms underlying exercise-induced sensitization of glucose transport in skeletal muscle. 相似文献
932.
Florence Charlot Liudmila Chelysheva Yasuko Kamisugi Nathalie Vrielynck Anouchka Guyon Aline Epert Sylvia Le Guin Didier G. Schaefer Andrew C. Cuming Mathilde Grelon Fabien Nogué 《Nucleic acids research》2014,42(19):11965-11978
The eukaryotic RecA homologue Rad51 is a key factor in homologous recombination and recombinational repair. Rad51-like proteins have been identified in yeast (Rad55, Rad57 and Dmc1), plants and vertebrates (RAD51B, RAD51C, RAD51D, XRCC2, XRCC3 and DMC1). RAD51 and DMC1 are the strand-exchange proteins forming a nucleofilament for strand invasion, however, the function of the paralogues in the process of homologous recombination is less clear. In yeast the two Rad51 paralogues, Rad55 and Rad57, have been shown to be involved in somatic and meiotic HR and they are essential to the formation of the Rad51/DNA nucleofilament counterbalancing the anti-recombinase activity of the SRS2 helicase. Here, we examined the role of RAD51B in the model bryophyte Physcomitrella patens. Mutant analysis shows that RAD51B is essential for the maintenance of genome integrity, for resistance to DNA damaging agents and for gene targeting. Furthermore, we set up methods to investigate meiosis in Physcomitrella and we demonstrate that the RAD51B protein is essential for meiotic homologous recombination. Finally, we show that all these functions are independent of the SRS2 anti-recombinase protein, which is in striking contrast to what is found in budding yeast where the RAD51 paralogues are fully dependent on the SRS2 anti-recombinase function. 相似文献
933.
Ken-ei Sada Masahiro Yamamura Masayoshi Harigai Takao Fujii Hiroaki Dobashi Yoshinari Takasaki Satoshi Ito Hidehiro Yamada Takashi Wada Junichi Hirahashi Yoshihiro Arimura Hirofumi Makino 《Arthritis research & therapy》2014,16(2):R101
Introduction
We investigated the clinical and serological features of patients with antineutrophil cytoplasmic antibody (ANCA)-associated vasculitis (AAV) in Japan using data from a nationwide, prospective, inception cohort study.Methods
In total, 156 Japanese patients with newly diagnosed AAV were classified according to the European Medicines Agency (EMEA) algorithm with exploratory surrogate markers for AAV-related non-granulomatous pulmonary lesions, predefined as alveolar haemorrhage and interstitial lung disease (ILD), and their clinical and serological features were evaluated.Results
Using the EMEA algorithm, we identified 14 patients (9.0%) with eosinophilic granulomatosis with polyangiitis (EGPA), 33 (21.2%) with granulomatosis with polyangiitis (GPA), 78 (50.0%) with microscopic polyangiitis and renal-limited vasculitis (MPA/RLV), and 31 (19.9%) with unclassifiable vasculitis. The average ages of patients with EGPA (male/female, 5/9), GPA (12/21), and MPA/RLV (35/43) and unclassifiable (9/22) were 58.0, 63.6, 71.1, and 70.6 years, respectively. Myeloperoxidase (MPO)-ANCA and proteinase-3 ANCA positivity was 50.0% and 0% for EGPA, 54.6% and 45.5% for GPA, 97.4% and 2.6% for MPA/RLV, and 93.5% and 3.2% for unclassifiable, respectively. According to the Birmingham Vasculitis Activity Score (BVAS), cutaneous (71.4%) and nervous system (92.9%) manifestations were prominent in EGPA and ear, nose, and throat manifestations (84.9%) and chest manifestations (66.7%) in GPA. Renal manifestations developed frequently in MPA/RLV (91.0%) and GPA (63.6%). The average serum creatinine levels were 0.71 mg/dL for EGPA, 1.51 mg/dL for GPA, 2.46 mg/dL for MPA/RLV, and 0.69 mg/dL for unclassifiable. The percentages of patients with ILD were 14.3% for EGPA, 9.0% for GPA, 47.4% for MPA/RLV, and 61.3% for unclassifiable. Patients with ILD (n = 61) had significantly lower BVAS (P = 0.019) with fewer ear, nose, and throat and cardiovascular manifestations than patients without ILD (n = 95).Conclusions
MPO-ANCA-positive MPA/RLV is the most common form of AAV in Japanese patients, and one-half of patients with GPA were positive for MPO-ANCA. ILD is an important clinical manifestation in Japanese patients with AAV. Unclassifiable vasculitis with MPO-ANCA positivity and ILD may represent a novel variant of MPA.Trial Registration
The University Hospital Medical Information Network Clinical Trials Registry: UMIN000001648. Registered 28 February 2009. 相似文献934.
In this study, binding of hemoglobin to Actinobacillus actinomycetemcomitans was characterized. The ability of A. actinomycetemcomitans to utilize hemoglobin as an iron source was examined by growth studies. Although the bacterial growth was limited almost completely by adding 400 microM 2, 2'-dipyridyl to culture medium, addition of hemoglobin recovered the growth in a dose-dependent manner, revealing that hemoglobin can be utilized effectively as an iron source by A. actinomycetemcomitans. Binding of A. actinomycetemcomitans to hemoglobin was examined by dot-blot assay. Optimal hemoglobin-binding activity occurred at pH 6 and activity under acidic conditions was found to be higher than that under alkaline conditions. Hemoglobin-binding activity was higher under anaerobic conditions than under aerobic conditions, and iron restriction in culture medium decreased the activity by 55%. Heat and trypsin treatments of the bacterial components reduced the activity by 28% and 60%, respectively. Globin inhibited the activity by 49%, while transferrin, lactoferrin and tested amino acids and sugars had little or no inhibitory effects. These results indicate that proteinaceous components of the bacterial cells may be involved in hemoglobin binding and that globin moiety of the hemoglobin molecule may be essential for the binding. In order to identify hemoglobin-binding proteins, the bacterial cell components extracted with n-octyl-beta-D-thioglucoside were subjected to SDS-PAGE and transferred to a nitrocellulose membrane. The membrane was incubated with hemoglobin and bound hemoglobin was detected with anti-hemoglobin antibodies. About 40- and 65-kDa proteins from A. actinomycetemcomitans reacted with hemoglobin. The 65-kDa protein was detected despite the iron concentration in culture medium, whereas expression of the 40-kDa protein was enhanced only when the organism was grown in iron-restricted culture medium. From these results, it is suggested that 40- and 65-kDa proteins of A. actinomycetemcomitans may be involved in hemoglobin binding. 相似文献
935.
Nagendra Kumar Kamisetty Seung Pil Pack Mitsuru Nonogawa Kazunari Yamada Yasuko Yoshida Tsutomu Kodaki Keisuke Makino 《Journal of biotechnology》2009,140(3-4):242-245
High stability of the oligonucleotides immobilized on the glass is essential for the reliable DNA microarray analysis. In the present study, effect of end-capping of the unreacted silanol, remaining after the surface amine-functionalization, was explored: (1) Cy3-NHS (N-hydorxysuccinincimide) dye was spotted on the surface and change in the fluorescent intensity was measured. (2) DNA probes were immobilized by the reactivity of oxanine linked at the 5’-end, the complementary oligonucleotides with Cy5-fluorescence at the 5’-end was hybridized, and the time-dependence of the fluorescence intensity was observed. Both the systems showed improved stability of the immobilized molecules, indicative of the stabilization by end-capping. 相似文献
936.
937.
Yasuko Mori 《Cellular microbiology》2009,11(7):1001-1006
Human herpesvirus 6 (HHV-6) is a T lymphotropic herpes virus that is categorized into two variants, A (HHV-6A) and B (HHV-6B), on the basis of distinct genetic, immunological and biological characteristics. HHV-6 uses human CD46 as a cellular receptor. Without viral replication, HHV-6A induces cell–cell fusion between cells expressing human CD46. Some HHV-6B strains can also induce CD46-mediated cell–cell fusion. A multiple glycoprotein complex composed of glycoprotein (g) H-gL complexed with gQ1 and gQ2 has been identified, and found to be a viral ligand for the human CD46 receptor. Moreover, a novel complex consisting of gH/gL/gO, which does not associate with CD46, has also been identified. The evidence suggests that an additional receptor for HHV-6B or both variants may play a role in determining the cell tropism of this virus. Finally, cholesterol in the HHV-6 envelope and plasma membrane of the host cells plays an important role in HHV-6 entry, although how this function relates to cell–envelope fusion remains to be elucidated. 相似文献
938.
Kousuke Kasahara Hidemasa Goto Masato Enomoto Yasuko Tomono Tohru Kiyono Masaki Inagaki 《The EMBO journal》2010,29(16):2802-2812
14‐3‐3 proteins control various cellular processes, including cell cycle progression and DNA damage checkpoint. At the DNA damage checkpoint, some subtypes of 14‐3‐3 (β and ζ isoforms in mammalian cells and Rad24 in fission yeast) bind to Ser345‐phosphorylated Chk1 and promote its nuclear retention. Here, we report that 14‐3‐3γ forms a complex with Chk1 phosphorylated at Ser296, but not at ATR sites (Ser317 and Ser345). Ser296 phosphorylation is catalysed by Chk1 itself after Chk1 phosphorylation by ATR, and then ATR sites are rapidly dephosphorylated on Ser296‐phosphorylated Chk1. Although Ser345 phosphorylation is observed at nuclear DNA damage foci, it occurs more diffusely in the nucleus. The replacement of endogenous Chk1 with Chk1 mutated at Ser296 to Ala induces premature mitotic entry after ultraviolet irradiation, suggesting the importance of Ser296 phosphorylation in the DNA damage response. Although Ser296 phosphorylation induces the only marginal change in Chk1 catalytic activity, 14‐3‐3γ mediates the interaction between Chk1 and Cdc25A. This ternary complex formation has an essential function in Cdc25A phosphorylation and degradation to block premature mitotic entry after DNA damage. 相似文献
939.
Hideaki Naoe Kimi Araki Osamu Nagano Yusuke Kobayashi Jo Ishizawa Tatsuyuki Chiyoda Takatsune Shimizu Ken-ichi Yamamura Yutaka Sasaki Hideyuki Saya Shinji Kuninaka 《Molecular and cellular biology》2010,30(16):3994-4005
Cdh1 is an activator of the anaphase-promoting complex/cyclosome and contributes to mitotic exit and G1 maintenance by targeting cell cycle proteins for degradation. However, Cdh1 is expressed and active in postmitotic or quiescent cells, suggesting that it has functions other than cell cycle control. Here, we found that homozygous Cdh1 gene-trapped (Cdh1GT/GT) mouse embryonic fibroblasts (MEFs) and Cdh1-depleted HeLa cells reduced stress fiber formation significantly. The GTP-bound active Rho protein was apparently decreased in the Cdh1-depleted cells. The p190 protein, a major GTPase-activating protein for Rho, accumulated both in Cdh1GT/GT MEFs and in Cdh1-knockdown HeLa cells. Cdh1 formed a physical complex with p190 and stimulated the efficient ubiquitination of p190, both in in vitro and in vivo. The motility of Cdh1-depleted HeLa cells was impaired; however, codepletion of p190 rescued the migration activity of these cells. Moreover, Cdh1GT/GT embryos exhibited phenotypes similar to those observed for Rho-associated kinase I and II knockout mice: eyelid closure delay and disruptive architecture with frequent thrombus formation in the placental labyrinth layer, respectively. Furthermore, the p190 protein accumulated in the Cdh1GT/GT embryonic tissues. Our data revealed a novel function for Cdh1 as a regulator of Rho and provided insights into the role of Cdh1 in cell cytoskeleton organization and cell motility.The anaphase-promoting complex/cyclosome (APC/C) is a multisubunit complex that functions as an E3 ubiquitin ligase for various cell cycle proteins (19, 46). Proteins ubiquitinated by APC/C are recognized and degraded by the 26S proteasome to ensure proper cell cycle progression. APC/C activity is strictly dependent on coactivator proteins that interact with APC/C during specific phases of the cell cycle. Cdh1 (also known as Fzr, Hct1, or Srw) is one of the coactivators that maintain APC/C activity from anaphase of mitosis until the end of the G1 phase of the cell cycle (43, 53).The role of Cdh1 (APC/CCdh1) on cell-cycle progression has been well studied; however, several studies have shed light into another aspect of Cdh1''s function. For example, expression of Cdh1 is not restricted to cycling cells; APC/CCdh1 is also present and active in quiescent cultured cells (9). Furthermore, immunohistochemical analysis has shown that Cdh1 is expressed in a wide variety of tissues that are predominantly composed of postmitotic cells, such as neurons, where APC/CCdh1 has a high cyclin B ubiquitination activity (1, 16). It has been reported that APC/CCdh1 promotes axonal growth and patterning (20) and is required for neuronal survival (1). These results highlight the importance of the APC/C activator Cdh1 in neurons. However, Cdh1 has also been shown to participate in the differentiation of tissues such as the muscle (25). Given that Cdh1 is ubiquitously expressed in organs containing quiescent cells, there might be additional roles for Cdh1.Rho GTPase proteins play a central role in the regulation of cell shape, polarity, and locomotion via their effects on actin polymerization, actomyosin contractility, cell adhesion, and microtubule dynamics (13). Small G proteins, which include Rho, act as molecular switches that cycle between an inactive GDP-bound state and an active GTP-bound state. The latter form of Rho proteins interacts with and activates downstream effector proteins. The activity of Rho GTPases is controlled by three class of key regulators: (i) guanine nucleotide exchange factors (GEFs), which catalyze the exchange of GDP to GTP for their activation (41); (ii) GTPase activating proteins (GAPs), which stimulate the intrinsic GTPase activity for their inactivation (8); and (iii) guanine nucleotide dissociation inhibitors (GDIs), which interact with GDP-bound Rho GTPases and sequester them in the cytoplasm to inhibit the exchange of GDP to GTP (33). In addition to these canonical regulations, recent studies indicate that the ubiquitination pathway is also involved in the modulation of Rho GTPase activity. Smurf1, which is a HECT domain E3 ubiquitin ligase, controls the local levels of RhoA at the cell periphery by targeting it for degradation (40, 55). Therefore, the regulatory mechanisms of Rho GTPase activity seem to be more complex than previously thought. It thus remains to be clarified whether other ubiquitin ligases also play a role in Rho signaling by targeting its components directly or indirectly.In this study, we found that the APC/C activator Cdh1 modulated actin organization. Mouse embryonic fibroblasts (MEFs) derived from a homozygous Cdh1 gene-trapped ([GT] Cdh1GT/GT) mouse model displayed decreased numbers of stress fibers and focal adhesions (FAs). Consistent with these phenotypes, Rho activity was apparently reduced in Cdh1-deficient cells. Cdh1 regulated Rho activity via the targeting of p190 for degradation. We also found that Cdh1 knockdown cells showed decreased motility, which was rescued by codepletion of p190. Furthermore, phenotypic similarities between Cdh1GT/GT embryos and ROCK (also known as Rho-kinase, which is the important Rho downstream effector of actin cytoskeleton formation) knockout (KO) mice (44, 49) support our notion that Cdh1 plays a role in the Rho/ROCK signaling axis. Collectively, our findings suggest an alternative role for Cdh1 other than cell cycle regulation and reveal Cdh1 as a new regulator of Rho. 相似文献