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991.
Ishizaki S Kasuya Y Kuroda F Tanaka K Tsuyusaki J Yamauchi K Matsunaga H Iwamura C Nakayama T Tatsumi K 《Life sciences》2012,90(17-18):657-665
AimsCD69 is an early activation marker in lymphocytes and an important signal transmitter in inflammatory processes. However, its role in acute lung injury (ALI) is still unknown. We used a lipopolysaccharide (LPS)-induced mouse model of ALI to study the role of macrophage-surface CD69 in this condition.Main methodsWe investigated bronchoalveolar lavage fluid (BALF) cell subpopulations, myeloperoxidase levels in lung homogenates, lung pathology, and lung oedema in CD69-deficient (CD69?/?) mice 24 h after LPS instillation. We also determined cytokine/chemokine expression levels in BALF and macrophage culture supernatant from CD69?/? and wild type (WT) mice. Also, we investigated CD69, keratinocyte-derived chemokine (KC) and macrophage inflammatory protein (MIP)-2 localization in the lungs after LPS administration. Furthermore, we examined the effect of anti-CD69 antibody on LPS-induced cytokine/chemokine release from cultured macrophages.Key findingsOur study shows that intratracheal instillation of LPS-induced neutrophilic infiltration, histopathological changes, myeloperoxidase positivity, and oedema in the lung to a lower degree in CD69?/? mice than in WT mice. The immunoreactivities for CD69, KC and MIP2 were induced in the lung of WT mice instilled with LPS and were predominantly localized to the macrophages. Moreover, the cytokine/chemokine expression profile between the two genotypes of cultured macrophages in response to LPS was similar to that observed in the BALF. In addition, anti-CD69 antibody inhibited the LPS-induced cytokine/chemokine expression.SignificanceThese results suggest that CD69 on macrophages plays a crucial role in the progression of LPS-induced ALI and may be a potentially useful target in the therapy for ALI. 相似文献
992.
Mori M Miyamoto T Yakushiji H Ohno S Miyake Y Sakaguchi T Hattori M Hongo A Nakaizumi A Ueda M Ohno E 《Human cell》2012,25(1):9-15
Endometrial cancer is one of the most common gynecological malignancies in Japan, where the disease shows an increasing morbidity. However, surgical therapy remains the treatment of choice for endometrial cancers that tend to be insensitive to radiation therapy and chemotherapy. Therefore, novel therapeutic strategies are required. The Notch signaling pathway regulates embryogenesis and cellular development, but deregulated Notch signaling may contribute to tumorigenesis in several cancers. Moreover, γ-secretase inhibitors have been shown to be potent inhibitors of the Notch signaling pathway; they suppress cellular proliferation and induce apoptosis in several cancer cells. In the present study, we investigated the effect of N-[N-(3, 5-difluorophenacetyl-L-alanyl)]-S-phenylglycine t-butyl ester (DAPT, γ-secretase inhibitor) on the cell proliferation and apoptosis in Ishikawa endometrial cancer cells. Real-time PCR detected mRNA derived from NOTCH1 and HES1, which are target genes of the Notch signaling pathway, in Ishikawa endometrial cancer cells. After blocking Notch signaling, cellular proliferation decreased, accompanied by increased expression of p21 mRNA and decreased expression of the cyclin A protein. Furthermore, blockade of Notch signaling induced apoptosis. These results suggest that the Notch signaling pathway may be involved in cell proliferation through cell cycle regulation and apoptosis in Ishikawa endometrial cancer cells. Inhibition of the Notch signaling pathway by γ-secretase inhibitors is expected to be a potential target of novel therapeutic strategies for endometrial cancer. 相似文献
993.
The localization of salt-induced H2O2 accumulation in the leaves of rice was examined using 3,3-diaminobenzidine and CeCl3 staining at ultrastructure level. When the 3-week-old rice plants were affected by 100 mM NaCl for 14 days, the swelling
of thylakoids and the destruction of thylakoid membranes were observed. H2O2 accumulation was also observed in the chloroplast of the leaf treated with NaCl. The electron dense products of 3,3-diaminobenzidine
and CeCl3 were mainly observed especially around the swelling of thylakoids. H2O2 accumulation and any ultrastructural changes were not observed in the chloroplasts under dark condition. Furthermore, treatment
with ascorbic acid suppressed both H2O2 accumulation and the changes in chloroplast ultrastructure. These results suggest that light-induced production of excess
H2O2 under salinity is responsible for the changes in chloroplast ultrastructure. H2O2 accumulation was also observed in the mitochondria, peroxisomes, plasma membrane, and cell walls under light but not dark,
suggesting that these organelles are also the source of H2O2 and the production is light dependent under salinity. 相似文献
994.
Matsuzawa T Kim BH Shenoy AR Kamitani S Miyake M Macmicking JD 《Journal of immunology (Baltimore, Md. : 1950)》2012,189(2):813-818
Autophagy is a major innate immune defense pathway in both plants and animals. In mammals, this cascade can be elicited by cytokines (IFN-γ) or pattern recognition receptors (TLRs and nucleotide-binding oligomerization domain-like receptors). Many signaling components in TLR- and nucleotide-binding oligomerization domain-like receptor-induced autophagy are now known; however, those involved in activating autophagy via IFN-γ remain to be elucidated. In this study, we engineered macrophages encoding a tandem fluorescently tagged LC3b (tfLC3) autophagosome reporter along with stably integrated short hairpin RNAs to demonstrate IFN-γ-induced autophagy required JAK 1/2, PI3K, and p38 MAPK but not STAT1. Moreover, the autophagy-related guanosine triphosphatase Irgm1 proved dispensable in both stable tfLC3-expressing RAW 264.7 and tfLC3-transduced Irgm1(-/-) primary macrophages, revealing a novel p38 MAPK-dependent, STAT1-independent autophagy pathway that bypasses Irgm1. These unexpected findings have implications for understanding how IFN-γ-induced autophagy is mobilized within macrophages for inflammation and host defense. 相似文献
995.
Chloroplast protrusions (CPs) are often observed under environmental stresses, but their role has not been elucidated. The formation of CPs was observed in the leaf of rice plants treated with 75 mm NaCl for 14 d. Some CPs were almost separated from the main chloroplast body. In some CPs, inner membrane structures and crystalline inclusions were included. Similar structures surrounded by double membranes were observed in the cytoplasm and vacuole. Ribulose 1,5-bisphosphate carboxylase/oxygenase (Rubisco) was detected in CPs and the similar structures in the cytoplasm and vacuole. These results suggest that CP is one of the pathways of Rubisco exclusion from chloroplasts into the cytoplasm under salinity, and the exclusions could be transported to vacuole for their degradation. 相似文献
996.
Nunoi H Matsuura B Utsunomiya S Ueda T Miyake T Furukawa S Kumagi T Ikeda Y Abe M Hiasa Y Onji M 《Regulatory peptides》2012,176(1-3):28-35
The motilin receptor (MR) belongs to a family of Class I G protein-coupled receptors that also includes growth hormone secretagogue receptor (GHSR). Their potentially unique structure and the molecular basis of their binding and activation are not yet clear. We previously reported that the perimembranous residues in the predicted extracellular loops and amino-terminal tail of the MR were important for responses to the natural peptide ligand, motilin, and the transmembrane domains of the MR were important for a non-peptidyl ligand, erythromycin. We also reported that the perimembranous residues in the second extracellular loop of the GHSR were critical for natural ligand ghrelin binding and activity. The MR is 52% identical to GHSR, with 86% sequence identity in the transmembrane domains. In the current work, to gain insight into a relationship between MR and GHSR, we studied functional responses to motilin, erythromycin and ghrelin of expression cells of chimeric constructs of MR and GHSR and co-expression cells of both MR and GHSR. We also generated human MR transgenic mice, and clarified a relationship between motilin and ghrelin. MR(1-62)/GHSR(68-366) construct responded only to ghrelin, MR(1-102)/GHSR(108-366) responded to ghrelin and erythromycin, and MR(1-129)/GHSR(135-366) and MR(1-178)/GHSR(184-366) responded to erythromycin, while GHSR(1-183)/MR(179-412) responded to neither motilin, erythromycin nor ghrelin. MR and GHSR co-expression cells have no additional responses to these ligands. Motilin or erythromycin administration to human MR transgenic mice resulted in a decrease of serum acyl-ghrelin levels, while MR and GHSR mRNA expression in the gastrointestinal tracts were not changed. These data suggested that in species expressing both motilin-MR and ghrelin-GHSR, there is a compensatory relationship in vivo. 相似文献
997.
The effect of salinity on C(4) photosynthesis was examined in leaves of maize, a NADP-malic enzyme (NADP-ME) type C(4) species. Potted plants with the fourth leaf blade fully developed were treated with 3% NaCl solution for 5d. Under salt treatment, the activities of pyruvate orthophosphate dikinase (PPDK), phosphoenolpyruvate carboxylase (PEPCase), NADP-dependent malate dehydrogenase (NADP-MDH) and NAD-dependent malate dehydrogenase (NAD-MDH), which are derived mainly from mesophyll cells, increased, whereas those of NADP-ME and ribulose-1,5-bisphosphate carboxylase, which are derived mainly from bundle sheath cells (BSCs), decreased. Immunocytochemical studies by electron microscopy revealed that PPDK protein increased, while the content of ribulose-1,5-bisphosphate carboxylase/oxygenase protein decreased under salinity. In salt-treated plants, the photosynthetic metabolites malate, pyruvate and starch decreased by 40, 89 and 81%, respectively. Gas-exchange analysis revealed that the net photosynthetic rate, the transpiration rate, stomatal conductance (g(s)) and the intercellular CO(2) concentration decreased strongly in salt-treated plants. The carbon isotope ratio (δ(13)C) in these plants was significantly lower than that in control. These findings suggest that the decrease in photosynthetic metabolites under salinity was induced by a reduction in gas-exchange. Moreover, in addition to the decrease in g(s), the decrease in enzyme activities in BSCs was responsible for the decline of C(4) photosynthesis. The increase of PPDK, PEPCase, NADP-MDH, and NAD-MDH activities and the decrease of NADP-ME activity are interpreted as adaptation responses to salinity. 相似文献
998.
Makoto T. Fujiwara Yasushi Yoshioka Tomonari Hirano Yusuke Kazama Tomoko Abe Kensuke Hayashi Ryuuichi D. Itoh 《Plant signaling & behavior》2012,7(1):34-37
Organelle dynamics in the plant male gametophyte has received attention for its importance in pollen tube growth and cytoplasmic inheritance. We recently revealed the dynamic behaviors of plastids in living Arabidopsis pollen grains and tubes, using an inherent promoter-driven FtsZ1–green fluorescent protein (GFP) fusion. Here, we further monitored the movement of pollen tube plastids with an actin1 promoter-driven, stroma-targeted yellow fluorescent protein (YFP). In elongating pollen tubes, most plastids localized to the tube shank, where they displayed either retarded and unsteady motion, or fast, directional, and long-distance movement along the tube polarity. Efficient plastid tracking further revealed a population of tip-forwarding plastids that undergo a fluctuating motion(s) before traveling backward. The behavior of YFP-labeled plastids in pollen basically resembled that of FtsZ1–GFP-labeled plastids, thus validating the use of FtsZ1–GFP for simultaneous visualization of the stroma and the plastid-dividing FtsZ ring. 相似文献
999.
Shichita T Hasegawa E Kimura A Morita R Sakaguchi R Takada I Sekiya T Ooboshi H Kitazono T Yanagawa T Ishii T Takahashi H Mori S Nishibori M Kuroda K Akira S Miyake K Yoshimura A 《Nature medicine》2012,18(6):911-917
Post-ischemic inflammation is an essential step in the progression of brain ischemia-reperfusion injury. However, the mechanism that activates infiltrating macrophages in the ischemic brain remains to be clarified. Here we demonstrate that peroxiredoxin (Prx) family proteins released extracellularly from necrotic brain cells induce expression of inflammatory cytokines including interleukin-23 in macrophages through activation of Toll-like receptor 2 (TLR2) and TLR4, thereby promoting neural cell death, even though intracellular Prxs have been shown to be neuroprotective. The extracellular release of Prxs in the ischemic core occurred 12 h after stroke onset, and neutralization of extracellular Prxs with antibodies suppressed inflammatory cytokine expression and infarct volume growth. In contrast, high mobility group box 1 (HMGB1), a well-known damage-associated molecular pattern molecule, was released before Prx and had a limited role in post-ischemic macrophage activation. We thus propose that extracellular Prxs are previously unknown danger signals in the ischemic brain and that its blocking agents are potent neuroprotective tools. 相似文献
1000.