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881.
Soumura M Kume S Isshiki K Takeda N Araki S Tanaka Y Sugimoto T Chin-Kanasaki M Nishio Y Haneda M Koya D Kashiwagi A Maegawa H Uzu T 《Biochemical and biophysical research communications》2010,402(2):265-271
Free fatty acid (FFA)-bound albumin, which is filtrated through the glomeruli and reabsorbed into proximal tubular cells, is one of the crucial mediators of tubular damage in proteinuric kidney disease. In this study, we examined the role of each kind of FFA on renal tubular damage in vitro and tried to identify its molecular mechanism. In cultured proximal tubular cells, a saturated fatty acid, palmiate, increased the expression of monocyte chemoattractant protein-1 (MCP-1), but this effect was abrogated by co-incubation of monounsaturated fatty acid, oleate, or ω-3 polyunsaturated fatty acid, eicosapentaenoic acid (EPA). Palmitate led to intracellular accumulation of diacylglycerol (DAG) and subsequent activation of protein kinase C protein family. Among the several PKC inhibitors, rottlerin, a PKCθ inhibitor, prevented palmitate-induced MCP-1 expression via inactivation of NFB pathway. Overexpression of dominant-negative PKCθ also inhibited palmitate-induced activation of MCP-1 promoter. Furthermore, palmitate enhanced PKCθ-dependent mitochondrial apoptosis, which was also prevented by co-incubation with oleate or EPA through restoration of pro-survival Akt pathway. Moreover, oleate and EPA inhibited palmitate-induced PKCθ activation through the conversion of intracellular DAG to triglyceride with the restoration of diacylglycerol acyltransferase 2 expression. These results suggest that oleate and EPA have protective effects against the palmitate-induced renal tubular cell damage by inhibiting PKCθ activation. 相似文献
882.
Shin Takasawa Koji Nata Takayuki Ikeda Hiroyo Ota Sumiyo Sakuramoto-Tsuchida Takeo Yoshikawa Hiroshi Okamoto 《Biochemical and biophysical research communications》2010,397(2):140-145
Cyclic ADP-ribose (cADPR), a potent Ca2+ mobilizing intracellular messenger synthesized by CD38, regulates the opening of ryanodine receptors (RyRs). Increases in intracellular Ca2+ concentrations in pancreatic islets, resulting from Ca2+ mobilization from RyRs as well as Ca2+ influx from extracellular sources, are important in insulin secretion by glucose. In the present study, by screening a rat islet cDNA library, we isolated a novel RyR cDNA (the islet-type RyR), which is generated from the RyR2 gene by alternative splicing of exons 4 and 75. When the expression vectors for the islet-type and the authentic RyRs were transfected into HEK293 cells, the islet-type RyR2 as well as the authentic one showed high affinity [3H]ryanodine binding. Intracellular Ca2+ release in the islet-type RyR2-transfected cells was enhanced in the presence of cADPR but not in the authentic RyR2-transfected cells. The islet-type RyR2 mRNA was expressed in a variety of tissues such as in pancreatic islets, cerebrum, and cerebellum, whereas the authentic RyR2 mRNA was predominantly expressed in heart and aorta. These results suggest that the islet-type RyR2 may be an intracellular target for cADPR signaling. 相似文献
883.
884.
Michiru Nishita Sumiyo Itsukushima Akira Nomachi Mitsuharu Endo ZhiChao Wang Daisuke Inaba Sen Qiao Shinji Takada Akira Kikuchi Yasuhiro Minami 《Molecular and cellular biology》2010,30(14):3610-3619
The receptor tyrosine kinase Ror2 acts as a receptor or coreceptor for Wnt5a to mediate Wnt5a-induced activation of the Wnt/JNK pathway and inhibition of the β-catenin-dependent canonical Wnt pathway. However, little is known about how Ror2 cooperates with another receptor component(s) to mediate Wnt5a signaling. We show here that Ror2 regulates Wnt5a-induced polymerization of Dishevelled (Dvl) and that this Ror2-mediated regulation of Dvl is independent of the cytoplasmic region of Ror2. Ror2 can associate with Frizzled7 (Fz7) via its extracellular cysteine-rich domain to form a receptor complex that is required for the regulation of Dvl and activation of the AP-1 promoter after Wnt5a stimulation. Suppressed expression of Fz7 indeed results in the inhibition of Wnt5a-induced polymerization of Dvl and AP-1 activation. Interestingly, both the DIX and the DEP domains of Dvl are indispensable for Dvl polymerization and subsequent AP-1 activation after Wnt5a stimulation. We further show that polymerized Dvl is colocalized with Rac1 and that suppressed expression of Rac1 inhibits Wnt5a-induced AP-1 activation. Collectively, our results indicate that Ror2/Fz receptor complex plays an important role in the Wnt5a/Rac1/AP-1 pathway by regulating the polymerization of Dvl.Wnt proteins can elicit β-catenin-dependent and -independent signaling pathways (2, 20, 46). Ror2 is a member of the Ror family of receptor tyrosine kinases and plays essential roles in developmental morphogenesis (21, 26, 31, 32, 44). Ror2 has been shown to act as a receptor or coreceptor for Wnt5a to activate the β-catenin-independent signaling pathway, involving JNK/c-Jun (AP-1), Src and Ca2+, which are essential for cell polarity, migration, and cancer cell invasion (8, 14, 28-31, 37). Wnt5a/Ror2 signaling also plays a crucial role in inhibiting the β-catenin-dependent signaling pathway (25). Structure-function analyses of Ror2 revealed that Ror2 mediates Wnt5a signaling through distinct mechanisms dependent on and independent of its kinase activity, i.e., Wnt5a-induced migration of fibroblast cells requires the cytoplasmic C-terminal portion of Ror2 but not its intrinsic kinase activity (28), whereas the intrinsic kinase activity of Ror2 is indispensable for extracellular matrix (ECM) degradation of osteosarcoma cells (8). In addition, inhibition of the β-catenin-dependent signaling pathway by Wnt5a also requires the intrinsic kinase activity of Ror2 (24). Importantly, the Caenorhabditis elegans ortholog of Ror2, CAM-1, also has the kinase activity-dependent and -independent functions (9, 12, 13). Furthermore, CAM-1 exhibits the cytoplasmic region-independent functions, including cell migration (17), synaptic transmission at the neuromuscular junction (10), and inhibition of the β-catenin-dependent signaling pathway (11), although their underlying molecular mechanisms remain to be determined. However, it is unknown whether or not Ror2 also exhibits the cytoplasmic region-independent functions in other organisms.Dishevelled (Dvl) is an essential mediator of both the β-catenin-dependent and -independent signaling pathways. We have previously reported that both Ror2 and Dvl are required for Wnt5a-induced cell migration (28). However, the relationship between Ror2 and Dvl in Wnt5a signaling remains unclear. It has been reported that Dvl has an ability to form dynamic polymers, which are crucial for activating the β-catenin-dependent signaling pathway probably by serving as a scaffold for Axin recruitment (39, 41). However, there is no direct evidence showing that Wnt stimulation indeed induces dynamic formation of Dvl polymers. In addition, it remains unclear whether or not the polymerization of Dvl is involved in the β-catenin-independent signaling pathway.In the present study we show that Wnt5a induces dynamic polymerization of Dvl2 via a receptor complex containing both Ror2 and Frizzled (Fz)7, even in the absence of the cytoplasmic region of Ror2. We further provide evidence indicating that Ror2/Fz7 receptor complex plays an important role in Wnt5a/Rac1/AP-1 pathway by regulating polymerization of Dvl2. 相似文献
885.
Wnt3a Promotes Hippocampal Neurogenesis by Shortening Cell Cycle Duration of Neural Progenitor Cells
Yutaka Yoshinaga Tetsushi Kagawa Takeshi Shimizu Toshihiro Inoue Shinji Takada Jun-ichi Kuratsu Tetsuya Taga 《Cellular and molecular neurobiology》2010,30(7):1049-1058
The effects of Wnt signaling on neural progenitor cells have been controversial. Activation of the canonical Wnt signaling
pathway either promotes neural progenitor cell proliferation or accelerates their differentiation into postmitotic neurons.
This study demonstrates that activation of the Wnt signaling pathway by itself induces neural progenitor cell proliferation
but does not directly affect neuronal differentiation processes. To investigate whether Wnt signaling promotes expansion and/or
differentiation of neural progenitor cells in the developing hippocampus, we prepared primary mouse hippocampal progenitors
and treated them with Wnt3a in a chemically defined culture medium. Wnt3a increased the total number of cells, including the
numbers of Ki67+ proliferating cells and Tuj1+ differentiated neurons. This result verified that Wnt3a promoted neural progenitor cell proliferation. Meanwhile, Wnt3a did
not appear to actively enhance the neuronal differentiation process itself, because (1) the ratio of Tuj1+ cells to the total cells, and (2) the ratio of BrdU+ Tuj1+ cells to the total BrdU+ cells, were both comparable between cultures with or without Wnt3a. Indeed, Wnt3a caused no significant change in either
cell survival or the proportion of symmetric and asymmetric cell divisions that directly affected neuron production. We finally
demonstrated that the Wnt3a treatment simply shortened cell cycle duration of neural progenitor cells by 2.9 h. The accelerated
cell cycle progression without affecting the ratio of symmetric/asymmetric cell divisions explains how Wnt signaling per se
leads to the expansion of both proliferative cell population and differentiated neuronal cell population. 相似文献
886.
Huihuang Yan Shinji Kikuchi Pavel Neumann Wenli Zhang Yufeng Wu Feng Chen Jiming Jiang 《The Plant journal : for cell and molecular biology》2010,63(3):353-365
We conducted genome‐wide mapping of cytosine methylation using methylcytosine immunoprecipitation combined with Illumina sequencing. The chromosomal distribution pattern of methylated DNA is similar to the heterochromatin distribution pattern on rice chromosomes. The DNA methylation patterns of rice genes are similar to those in Arabidopsis thaliana, including distinct methylation patterns asssociated with gene bodies and promoters. The DNA sequences in the core domains of rice Cen4, Cen5 and Cen8 showed elevated methylation levels compared with sequences in the pericentromeric regions. In addition, elevated methylation levels were associated with the DNA sequences in the CENH3‐binding subdomains, compared with the sequences in the flanking H3 subdomains. In contrast, the centromeric domain of Cen11, which is composed exclusively of centromeric satellite DNA, is hypomethylated compared with the pericentromeric domains. Thus, the DNA sequences associated with functional centromeres can be either hypomethylated or hypermethylated. The methylation patterns of centromeric DNA appear to be correlated with the composition of the associated DNA sequences. We propose that both hypomethylation and hypermethylation of CENH3‐associated DNA sequences can serve as epigenetic marks to distinguish where CENH3 deposition will occur within the surrounding H3 chromatin. 相似文献
887.
Tamami Nakano Haruhisa Ota Nobumasa Kato Shigeru Kitazawa 《Proceedings. Biological sciences / The Royal Society》2010,277(1684):1027-1030
Individuals with autism spectrum disorders (ASD) are superior in processing local features. Frith and Happe conceptualize this cognitive bias as ‘weak central coherence’, implying that a local enhancement derives from a weakness in integrating local elements into a coherent whole. The suggested deficit has been challenged, however, because individuals with ASD were not found to be inferior to normal controls in holistic perception. In these opposing studies, however, subjects were encouraged to ignore local features and attend to the whole. Therefore, no one has directly tested whether individuals with ASD are able to integrate local elements over time into a whole image. Here, we report a weakness of individuals with ASD in naming familiar objects moved behind a narrow slit, which was worsened by the absence of local salient features. The results indicate that individuals with ASD have a clear deficit in integrating local visual information over time into a global whole, providing direct evidence for the weak central coherence hypothesis. 相似文献
888.
Shinichi Miyamura Shinji Sakaushi Terumitsu Hori Tamotsu Nagumo 《Phycological Research》2010,58(4):258-269
Behaviors of male and female gametes, planozygotes and their microtubular cytoskeletons of a marine green alga Bryopsis maxima Okamura were studied using field emission scanning electron microscopy, high‐speed video microscopy, and anti‐tubulin immunofluorescence microscopy. After fusion of the biflagellate male and female gametes, two sets of basal bodies lay side by side in the planozygote. Four long female microtubular roots extended from the basal bodies to the cell posterior. Four short male roots extended to nearly half the distance to the posterior end. Two flagella, one each from the male and female gametes, become a pair. Specifically, the no. 2 flagellum of the female gamete and one male flagellum point to the right side of the eyespot of the female gamete, which is located at the cell posterior and which is associated with 2s and 2d roots of the female gamete. This spatial relationship of the flagella, microtubular roots, and the eyespot in the planozygote is retained until settlement. During forward swimming, the planozygote swings the flagella backward and moves by flagellar beating. The male and female flagella in the pair usually beat synchronously. The cell withdraws the flagella and becomes round when the planozygote settles to the substratum 20 min after mixing. The axoneme and microtubular roots depolymerize, except for the proximal part and the basal bodies. Subsequently, distinct arrays of cortical microtubules develop in zygotes until 30 min after mixing. These results are discussed with respect to the functional significance of the spatial relationships of flagellar apparatus‐eyespot‐cell fusion sites in the mating gametes and planozygote of green algae. 相似文献
889.
890.
Yoshio Kimura Shinji Kawasaki Hinae Yoshimoto Kaoru Takegawa 《Journal of bacteriology》2010,192(5):1467-1470
Glycine sarcosine methyltransferase (Gsm) and sarcosine dimethylglycine methyltransferase (Sdm) catalyze glycine betaine synthesis from glycine. Disruption of the M. xanthus gsmA (MXAN 7068) or sdmA (MXAN 3190) gene, encoding Gsm or Sdm homologue proteins, respectively, generated mutants that exhibited a longer lag period of growth and delayed spore germination under osmostress.Myxococcus xanthus is a Gram-negative bacterium that exhibits a complex multicellular developmental cycle (6, 7). These bacteria live in soil, where they prey on other microbes for food. In response to nutritional stress, hundreds of thousands of vegetative cells aggregate to form multicellular fruiting bodies containing differentiated myxospores. Once conditions become favorable for growth, the desiccation- and heat-resistant spores can germinate and initiate vegetative growth.It was reported previously that the receptor-type adenylyl cyclases CyaA and CyaB of M. xanthus act as osmosensors during spore germination and growth, respectively (8, 9). Glycine betaine is a very efficient osmolyte found in a wide range of prokaryotic and eukaryotic organisms, where it is accumulated at high cytoplasmic concentrations in response to osmotic stress (4, 16). In this study, it is reported that in M. xanthus glycine betaine can be biosynthesized from glycine and mainly functions as an osmoprotectant for cell growth and spore germination under osmotic stress conditions. 相似文献