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231.
232.
Mayo Ueda Tomo Daidoji Anariwa Du Cheng-Song Yang Madiha S. Ibrahim Kazuyoshi Ikuta Takaaki Nakaya 《Journal of virology》2010,84(6):3068-3078
In this study, we show that the highly pathogenic H5N1 avian influenza virus (AIV) (A/crow/Kyoto/53/04 and A/chicken/Egypt/CL6/07) induced apoptosis in duck embryonic fibroblasts (DEF). In contrast, apoptosis was reduced among cells infected with low-pathogenic AIVs (A/duck/HK/342/78 [H5N2], A/duck/HK/820/80 [H5N3], A/wigeon/Osaka/1/01 [H7N7], and A/turkey/Wisconsin/1/66 [H9N2]). Thus, we investigated the molecular mechanisms of apoptosis induced by H5N1-AIV infection. Caspase-dependent and -independent pathways contributed to the cytopathic effects. We further showed that, in the induction of apoptosis, the hemagglutinin of H5N1-AIV played a major role and its cleavage sequence was not critical. We also observed outer membrane permeabilization and loss of the transmembrane potential of the mitochondria of infected DEF, indicating that mitochondrial dysfunction was caused by the H5N1-AIV infection. We then analyzed Ca2+ dynamics in the infected cells and demonstrated an increase in the concentration of Ca2+ in the cytosol ([Ca2+]i) and mitochondria ([Ca2+]m) after H5N1-AIV infection. Regardless, gene expression important for regulating Ca2+ efflux from the endoplasmic reticulum did not significantly change after H5N1-AIV infection. These results suggest that extracellular Ca2+ may enter H5N1-AIV-infected cells. Indeed, EGTA, which chelates extracellular free Ca2+, significantly reduced the [Ca2+]i, [Ca2+]m, and apoptosis induced by H5N1-AIV infection. In conclusion, we identified a novel mechanism for influenza A virus-mediated cell death, which involved the acceleration of extracellular Ca2+ influx, leading to mitochondrial dysfunction and apoptosis. These findings may be useful for understanding the pathogenesis of H5N1-AIV in avian species as well as the impact of Ca2+ homeostasis on influenza A virus infection.Avian influenza viruses (AIVs) are classified as highly or low-pathogenic AIVs (HPAIVs or LPAIVs, respectively) based on their pathogenicity in chickens (1). HPAIVs cause systemic infections and high mortality in chickens (28), whereas poultry are asymptomatic or develop mild respiratory problems and/or intestinal illness after LPAIV infection (49). Hemagglutinin (HA) cleavability is a critical determinant of AIV pathogenicity in avian species (61). Other determinants, such as nonstructural (NS) protein and neuraminidase (NA) protein, reportedly regulate the virulence of AIVs (9, 29, 44). However, waterfowl, known as the natural host for AIVs, do not usually have any symptoms during an HPAIV infection (21), whereas they show neurologic symptoms and death after infection with some of the recently emerged HPAIVs, such as the Asian H5N1 virus (11, 46, 62). Thus, the entire mechanism responsible for the pathogenicity of the AIVs is not yet known. Unknown cellular and viral factors probably underlie the pathogenesis of HPAIVs in avian species, especially waterfowl.The alveolar epithelial cells (66) or vascular endothelial cells (32) of human patients and chickens infected by H5N1-AIV show apoptosis. Other reports suggest that apoptosis of these cells is essential for the development of acute lung injury in mice and acute respiratory distress syndrome in humans (39), which is often observed in H5N1-AIV-infected patients. Therefore, it is necessary to evaluate whether apoptosis is critical for the pathogenesis of H5N1-AIV in vivo and to understand the molecular mechanisms of the apoptotic cell death induced by H5N1-AIV infection.Ca2+ is a key regulator of cell survival, and the breakdown of Ca2+ homeostasis, due to sustained elevations in Ca2+ inside cells, triggers programmed cell death involving apoptosis (24). Indeed, disruption of Ca2+ homeostasis plays a key role in apoptosis during the pathogenic process of several types of viral infections, including those with human immunodeficiency virus (HIV), hepatitis C virus, and human T-cell leukemia virus type 1 (3, 4, 31, 57). In addition, the HIV gp120 envelope protein induces neuronal cell death through Ca2+ dysregulation, even in the absence of viral particles (25).In this study, we used duck embryonic fibroblasts (DEF) to elucidate the molecular mechanisms of the apoptotic cell death induced by H5N1-AIV. We show here that H5N1-AIV infection triggered extracellular Ca2+ influx and that this alteration in the concentration of Ca2+ inside the cells subsequently induced mitochondrial dysfunction and led to apoptotic cell death. In addition, we demonstrate that H5N1-HA was a critical viral factor for inducing apoptosis. 相似文献
233.
Hiroki Nishii Takashi Chiba Kenji Morikami Takaaki A. Fukami Hiroshi Sakamoto Kwangseok Ko Hiroshi Koyano 《Bioorganic & medicinal chemistry letters》2010,20(4):1405-1409
A novel quinoline derivative that selectively inhibits c-Met kinase was identified. The molecular design is based on a result of the analysis of a PF-2341066 (1)/c-Met cocrystal structure (PDB code: 2wgj). The kinase selectivity of the derivatives is discussed from the view point of the sequence homology of the kinases, the key interactions found in X-ray cocrystal structures, and the structure–activity relationship (SAR) obtained in this work. 相似文献
234.
Akiyoshi Hoshino Tadahiro Iimura Satoshi Ueha Sanshiro Hanada Yutaka Maruoka Mitsuori Mayahara Keiko Suzuki Toshio Imai Masako Ito Yoshinobu Manome Masato Yasuhara Takaaki Kirino Akira Yamaguchi Kouji Matsushima Kenji Yamamoto 《The Journal of biological chemistry》2010,285(37):28826-28837
Chemokines are characterized by the homing activity of leukocytes to targeted inflammation sites. Recent research indicates that chemokines play more divergent roles in various phases of pathogenesis as well as immune reactions. The chemokine receptor, CCR1, and its ligands are thought to be involved in inflammatory bone destruction, but their physiological roles in the bone metabolism in vivo have not yet been elucidated. In the present study, we investigated the roles of CCR1 in bone metabolism using CCR1-deficient mice. Ccr1−/− mice have fewer and thinner trabecular bones and low mineral bone density in cancellous bones. The lack of CCR1 affects the differentiation and function of osteoblasts. Runx2, Atf4, Osteopontin, and Osteonectin were significantly up-regulated in Ccr1−/− mice despite sustained expression of Osterix and reduced expression of Osteocalcin, suggesting a lower potential for differentiation into mature osteoblasts. In addition, mineralized nodule formation was markedly disrupted in cultured osteoblastic cells isolated from Ccr1−/− mice. Osteoclastogenesis induced from cultured Ccr1−/− bone marrow cells yielded fewer and smaller osteoclasts due to the abrogated cell-fusion. Ccr1−/− osteoclasts exerted no osteolytic activity concomitant with reduced expressions of Rank and its downstream targets, implying that the defective osteoclastogenesis is involved in the bone phenotype in Ccr1−/− mice. The co-culture of wild-type osteoclast precursors with Ccr1−/− osteoblasts failed to facilitate osteoclastogenesis. This finding is most likely due to a reduction in Rankl expression. These observations suggest that the axis of CCR1 and its ligands are likely to be involved in cross-talk between osteoclasts and osteoblasts by modulating the RANK-RANKL-mediated interaction. 相似文献
235.
Shigemoto Fujii Tomohiro Sawa Hideshi Ihara Kit I. Tong Tomoaki Ida Tatsuya Okamoto Ahmed Khandaker Ahtesham Yu Ishima Hozumi Motohashi Masayuki Yamamoto Takaaki Akaike 《The Journal of biological chemistry》2010,285(31):23970-23984
A nitrated guanine nucleotide, 8-nitroguanosine 3′,5′-cyclic monophosphate (8-nitro-cGMP), is formed via nitric oxide (NO) and causes protein S-guanylation. However, intracellular 8-nitro-cGMP levels and mechanisms of formation of 8-nitro-cGMP and S-guanylation are yet to be identified. In this study, we precisely quantified NO-dependent formation of 8-nitro-cGMP in C6 glioma cells via liquid chromatography-tandem mass spectrometry. Treatment of cells with S-nitroso-N-acetylpenicillamine led to a rapid, transient increase in cGMP, after which 8-nitro-cGMP increased linearly up to a peak value comparable with that of cGMP at 24 h and declined thereafter. Markedly high levels (>40 μm) of 8-nitro-cGMP were also evident in C6 cells that had been stimulated to express inducible NO synthase with excessive NO production. The amount of 8-nitro-cGMP generated was comparable with or much higher than that of cGMP, whose production profile slightly preceded 8-nitro-cGMP formation in the activated inducible NO synthase-expressing cells. These unexpectedly large amounts of 8-nitro-cGMP suggest that GTP (a substrate of cGMP biosynthesis), rather than cGMP per se, may undergo guanine nitration. Also, 8-nitro-cGMP caused S-guanylation of KEAP1 in cells, which led to Nrf2 activation and subsequent induction of antioxidant enzymes, including heme oxygenase-1; thus, 8-nitro-cGMP protected cells against cytotoxic effects of hydrogen peroxide. Proteomic analysis for endogenously modified KEAP1 with matrix-assisted laser desorption/ionization time-of-flight-tandem mass spectrometry revealed that 8-nitro-cGMP S-guanylated the Cys434 of KEAP1. The present report is therefore the first substantial corroboration of the biological significance of cellular 8-nitro-cGMP formation and potential roles of 8-nitro-cGMP in the Nrf2-dependent antioxidant response. 相似文献
236.
Tomonari Takemura Satoki Nakamura Daisuke Yokota Isao Hirano Takaaki Ono Kazuyuki Shigeno Shinya Fujisawa Kazunori Ohnishi 《The Journal of biological chemistry》2010,285(9):6585-6594
Chronic myelogenous leukemia (CML) is characterized by a reciprocal chromosomal translocation (9;22) that generates the Bcr-Abl fusion gene. The Ras/Raf-1/MEK/ERK pathway is constitutively activated in Bcr-Abl-transformed cells, and Ras activity enhances the oncogenic ability of Bcr-Abl. However, the mechanism by which Bcr-Abl activates the Ras pathway is not completely understood. Raf kinase inhibitor protein (RKIP) inhibits activation of MEK by Raf-1 and its downstream signal transduction, resulting in blocking the MAP kinase pathway. In the present study, we found that RKIP was depleted in CML cells. We investigated the interaction between RKIP and Bcr-Abl in CML cell lines and Bcr-Abl+ progenitor cells from CML patients. The Abl kinase inhibitors and depletion of Bcr-Abl induced the expression of RKIP and reduced the pERK1/2 status, resulting in inhibited proliferation of CML cells. Moreover, RKIP up-regulated cell cycle regulator FoxM1 expression, resulting in G1 arrest via p27Kip1 and p21Cip1 accumulation. In colony-forming unit granulocyte, erythroid, macrophage, megakaryocyte, colony-forming unit-granulocyte macrophage, and burst-forming unit erythroid, treatment with the Abl kinase inhibitors and depletion of Bcr-Abl induced RKIP and reduced FoxM1 expressions, and inhibited colony formation of Bcr-Abl+ progenitor cells, whereas depletion of RKIP weakened the inhibition of colony formation activity by the Abl kinase inhibitors in Bcr-Abl+ progenitor cells. Thus, Bcr-Abl represses the expression of RKIP, continuously activates pERK1/2, and suppresses FoxM1 expression, resulting in proliferation of CML cells. 相似文献
237.
Functional divergence within class B MADS-box genes TfGLO and TfDEF in Torenia fournieri Lind 总被引:1,自引:0,他引:1
Katsutomo Sasaki Ryutaro Aida Hiroyasu Yamaguchi Masahito Shikata Tomoya Niki Takaaki Nishijima Norihiro Ohtsubo 《Molecular genetics and genomics : MGG》2010,284(5):399-414
Homeotic class B genes GLOBOSA (GLO)/PISTILLATA (PI) and DEFICIENS (DEF)/APETALA3 (AP3) are involved in the development of petals and stamens in Arabidopsis. However, functions of these genes in the development of floral organs in torenia are less well known. Here, we demonstrate
the unique floral phenotypes of transgenic torenia formed due to the modification of class B genes, TfGLO and TfDEF. TfGLO-overexpressing plants showed purple-stained sepals that accumulated anthocyanins in a manner similar to that of petals. TfGLO-suppressed plants showed serrated petals and TfDEF-suppressed plants showed partially decolorized petals. In TfGLO-overexpressing plants, cell shapes on the surfaces of sepals were altered to petal-like cell shapes. Furthermore, TfGLO- and TfDEF-suppressed plants partially had sepal-like cells on the surfaces of their petals. We isolated putative class B gene-regulated
genes and examined their expression in transgenic plants. Three xyloglucan endo-1,4-beta-d-glucanase genes were up-regulated in TfGLO- and TfDEF-overexpressing plants and down-regulated in TfGLO- and TfDEF-suppressed plants. In addition, 10 anthocyanin biosynthesis-related genes, including anthocyanin synthase and chalcone isomerase,
were up-regulated in TfGLO-overexpressing plants and down-regulated in TfGLO-suppressed plants. The expression patterns of these 10 genes in TfDEF transgenic plants were diverse and classified into several groups. HPLC analysis indicated that sepals of TfGLO-overexpressing plants accumulate the same type of anthocyanins and flavones as wild-type plants. The difference in phenotypes
and expression patterns of the 10 anthocyanin biosynthesis-related genes between TfGLO and TfDEF transgenic plants indicated that TfGLO and TfDEF have partial functional divergence, while they basically work synergistically in torenia. 相似文献
238.
A metmyoglobin (Fe3+), an oxidized form of myoglobin (Fe2+), was confined in nanospaces of about 4 nm in diameter in mesoporous silica (FSM; folded-sheet mesoporous material), forming a metmyoglobin (Fe3+)-FSM nanoconjugate. The spectral characteristics of metmyoglobin (Fe3+)- and myoglobin (Fe2+)-FSM show an absorption curve quite similar to that of native metmyoglobin, indicating that myoglobin retains its higher-order structure in the pores of FSM. The metmyoglobin (Fe3+)-FSM conjugate had not only a peroxidase-like activity in the presence of hydrogen peroxide (a hydrogen acceptor) and 2,2-azino-bis(3-ethylbenzothiazoline)-6-sulfomic acid (ABTS) or guaiacol (a hydrogen donor) but also an advanced molecular recognition ability enabling it to distinguish between ABTS and guaiacol. Furthermore, the metmyoglobin (Fe3+)-FSM showed the peroxidase-like activity even in an organic media using benzoyl peroxide as the hydrogen acceptor and leucocrystal violet as the hydrogen donor. The simple immobilization of metmyoglobin (Fe3+) into FSM results in enhanced catalytic activity in organic media compared to that of native metmyoglobin (Fe3+). 相似文献
239.
Impaired flow-dependent control of vascular tone and remodeling in P2X4-deficient mice 总被引:6,自引:0,他引:6
Yamamoto K Sokabe T Matsumoto T Yoshimura K Shibata M Ohura N Fukuda T Sato T Sekine K Kato S Isshiki M Fujita T Kobayashi M Kawamura K Masuda H Kamiya A Ando J 《Nature medicine》2006,12(1):133-137
The structure and function of blood vessels adapt to environmental changes such as physical development and exercise. This phenomenon is based on the ability of the endothelial cells to sense and respond to blood flow; however, the underlying mechanisms remain unclear. Here we show that the ATP-gated P2X4 ion channel, expressed on endothelial cells and encoded by P2rx4 in mice, has a key role in the response of endothelial cells to changes in blood flow. P2rx4(-/-) mice do not have normal endothelial cell responses to flow, such as influx of Ca(2+) and subsequent production of the potent vasodilator nitric oxide (NO). Additionally, vessel dilation induced by acute increases in blood flow is markedly suppressed in P2rx4(-/-) mice. Furthermore, P2rx4(-/-) mice have higher blood pressure and excrete smaller amounts of NO products in their urine than do wild-type mice. Moreover, no adaptive vascular remodeling, that is, a decrease in vessel size in response to a chronic decrease in blood flow, was observed in P2rx4(-/-) mice. Thus, endothelial P2X4 channels are crucial to flow-sensitive mechanisms that regulate blood pressure and vascular remodeling. 相似文献
240.
Helicobacter pylori VacA activates the p38/activating transcription factor 2-mediated signal pathway in AZ-521 cells 总被引:3,自引:0,他引:3