79 research outputs found

    Role of ER Stress in Ventricular Contractile Dysfunction in Type 2 Diabetes

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    BACKGROUND: Diabetes mellitus (DM) is associated with an increased risk of ischemic heart disease and of adverse outcomes following myocardial infarction (MI). Here we assessed the role of endoplasmic reticulum (ER) stress in ventricular dysfunction and outcomes after MI in type 2 DM (T2DM). METHODOLOGY AND PRINCIPAL FINDINGS: In hearts of OLETF, a rat model of T2DM, at 25∼30 weeks of age, GRP78 and GRP94, markers of ER stress, were increased and sarcoplasmic reticulum calcium ATPase (SERCA)2a protein was reduced by 35% compared with those in LETO, a non-diabetic control. SERCA2a mRNA levels were similar, but SERCA2a protein was more ubiquitinated in OLETF than in LETO. Left ventricular (LV) end-diastolic elastance (Eed) was higher in OLETF than in LETO (53.9±5.2 vs. 20.2±5.6 mmHg/µl), whereas LV end-systolic elastance and positive inotropic responses to β-adrenergic stimulation were similar in OLETF and LETO. 4-Phenylbutyric acid (4-PBA), an ER stress modulator, suppressed both GRP up-regulation and SERCA2a ubiquitination and normalized SERCA2a protein level and Eed in OLETF. Sodium tauroursodeoxycholic acid, a structurally different ER stress modulator, also restored SERCA2a protein level in OLETF. Though LV dysfunction was modest, mortality within 48 h after coronary occlusion was markedly higher in OLETF than in LETO (61.3% vs. 7.7%). Telemetric recording showed that rapid progression of heart failure was responsible for the high mortality rate in OLETF. ER stress modulators failed to reduce the mortality rate after MI in OLETF. CONCLUSIONS: ER stress reduces SERCA2a protein via its augmented ubiquitination and degradation, leading to LV diastolic dysfunction in T2DM. Even at a stage without systolic LV dysfunction, susceptibility to lethal heart failure after infarction is markedly increased, which cannot be explained by ER stress or change in myocardial response to sympathetic nerve activation

    The RNA Polymerase PB2 Subunit of Influenza A/HongKong/156/1997 (H5N1) Restrict the Replication of Reassortant Ribonucleoprotein Complexes

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    BACKGROUND: Genetic reassortment plays a critical role in the generation of pandemic strains of influenza virus. The influenza virus RNA polymerase, composed of PB1, PB2 and PA subunits, has been suggested to influence the efficiency of genetic reassortment. However, the role of the RNA polymerase in the genetic reassortment is not well understood. METHODOLOGY/PRINCIPAL FINDINGS: Here, we reconstituted reassortant ribonucleoprotein (RNP) complexes, and demonstrated that the PB2 subunit of A/HongKong/156/1997 (H5N1) [HK PB2] dramatically reduced the synthesis of mRNA, cRNA and vRNA when introduced into the polymerase of other influenza strains of H1N1 or H3N2. The HK PB2 had no significant effect on the assembly of the polymerase trimeric complex, or on promoter binding activity or replication initiation activity in vitro. However, the HK PB2 was found to remarkably impair the accumulation of RNP. This impaired accumulation and activity of RNP was fully restored when four amino acids at position 108, 508, 524 and 627 of the HK PB2 were mutated. CONCLUSIONS/SIGNIFICANCE: Overall, we suggest that the PB2 subunit of influenza polymerase might play an important role for the replication of reassortant ribonucleoprotein complexes

    Novel Preparation Method for Poly(2,6-dichloro-1,4-phenylene oxide)

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    キノイド化合物を利用した固相重合反応と構造制御

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    application/pdf置換キノイド化合物(置換キノジメタン化合物、置換キノンメチド化合物、置換キノンメチドイミン化合物)の結晶や共結晶の結晶構造解析とそれらの固相重合反応生成物の解析を基に結晶中における分子間相互作用と固相重合反応性との関係を明らかにした。また、種々の置換キノンメチド化合物を合成し、それらの固相重合と溶液重合を行い生成ポリマーの一次構造制御について議論した。Substituted quinoid compounds (substituted quinodimethanes, substituted quinone methides, substituted quinone methide imines) crystals and their cocrystals were prepared, and the relationship of the solid-state polymerization reactivity with the intermolecular interaction between molecules in the crystals was discussed on the basis of their single-crystal structure analyses and their products obtained by solid-state polymerizations. And also, novel substituted quinone methides were prepared, and their solid-state and solution polymerizations were investigated and control of the primary structure of obtained polymers was discussed.2010年度~2012年度科学研究費補助金(基盤研究(C))研究成果報告書2255011

    Preparation of Mechanically Cross-Linked Polystyrenes

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