312 research outputs found
白血病原因キナーゼであるFIP1L1-PDGFRAとSUMO化E3リガーゼであるPIAS1は、その酵素活性により正の相互作用を形成する
Citation: Ibata Makoto, Iwasaki Junko, Fujioka Yoichiro, Nakagawa Koji, Darmanin Stephanie, Onozawa Masahiro, Hashimoto Daigo, Ohba Yusuke, Hatakeyama Shigetsugu, Teshima Takanori, Kondo Takeshi. (2016) Leukemogenic kinase FIP1L1-PDGFRA and a small ubiquitin-like modifier E3 ligase, PIAS1, form a positive cross-talk through their enzymatic activities. Cancer Science 108 (2017) : 200-207. doi:10.1111/cas.13129配架番号:227
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Yamamba's Amorphous Self and the Marginal Space in Ohba Minako's Stories
This thesis deals with how Ohba Minako, a Japanese woman author who was prolific in the late twentieth century, uses a Japanese female yōkai (or “supernatural monster”) called yamamba (often translated into “mountain witch”) in order to produce a non-hierarchical community in her short stories and novels. Yamamba are usually depicted as old women who lure lost male travelers in the mountains into their huts in order to eat them. Therefore, feminist scholars analyze this figure from a feminist perspective as a reflection of misogyny in the patriarchal society. Acknowledging the usefulness and validity of the feminist approach and expanding it into viewing vagabonds and immigrants’ marginal communities, I will focus on how Ohba emphasizes the yamamba’s amorphous self, which I will explain constantly changes and thus carries the potential to transcend the border between the self and the other. Ohba’s depictions of yamamba as a mind-reader and women who speak with a language that does not belong to any specific nations or races are, I will argue, all part of her efforts to highlight the vi social injustices of putting individuals into certain molds of identities and her declarations to oppose to them as a woman and as a foreigner who lived in immigrants’ communities.Master of Arts (M.A.
Budding of Ebola Virus Particles Requires the Rab11-Dependent Endocytic Recycling Pathway
The Ebola virus-encoded major matrix protein VP40 traffics to the plasma membrane, which leads to the formation of filamentous viral particles and subsequent viral egress. However, the cellular machineries underlying this process are not fully understood. In the present study, we have assessed the role of host endocytic recycling in Ebola virus particle formation. We found that a small GTPase Rab11, which regulates recycling of molecules among the trans-Golgi network, recycling endosomes, and the plasma membrane, was incorporated in Ebola virus-like particles. Although Rab11 predominantly localized in the perinuclear region, it distributed diffusely in the cytoplasm and partly localized in the periphery of the cells transiently expressing VP40. In contrast, Rab11 exhibited a perinuclear distribution when 2 VP40 derivatives that lack ability to traffic to the plasma membrane were expressed. Finally, expression of a dominant-negative form of Rab11 or knockdown of Rab11 inhibited both VP40-induced clusters at the plasma membrane and release of viral-like particles. Taken together, our findings demonstrate that Ebola virus exploits host endocytic recycling machinery to facilitate the trafficking of VP40 to the cell surface and the subsequent release of viral-like particles for its establishment of efficient viral egress
Invasions of Small Numbers: How Many Virus Particles Does It Take to Infect Someone with the Flu?
Abstract LB-323: Comparative miRNA microarray profiling indicates miR-363 promotes chemoresistance in ovarian cancer cells by targeting the Hippo member, LATS2
Abstract
Ovarian cancer is the most aggressive female reproductive tract tumours. Taxane (TX) is widely used for ovarian cancer treatment. However, ovarian cancer often acquire chemoresistance. MicroRNAs (miR) have been reported to regulate many tumours’ chemoresistance. Here, we investigated the comparative microRNA expression profile between the ovarian cancer cells and their taxane-resistant counterpart, KF-TX to get novel markers for taxane resistance in ovarian cancer. The array data revealed that miR-486, miR143,miR145 and miR363 are the most upregulated miRNAs in association with TX resistance. However, miR-155, miR-100, miR-31 and miR-629 are the most significantly downregulated miRNAs after resistance development. We then focused on the role of miR-363 in chemoresistance of the ovarian cancer. qRT-PCR indicated that miR-363 was upregulated in KF-TX cells, confirming the array data, and introduction of miR-363 into sensitive ovarian cancer cells confers TX-resistance and significantly inhibited the expression of the Hippo member, LATS2, as indicated by viability, clonogenic assays and expression analysis. Furthermore, we validated the role of LATS2 in the TX-response by sh-based silencing, which also confers TX-resistance in the responsive ovarian cancer cells. On the other hand, specific inhibitor against miR-363 restored the response to TX. In addition, miR-363 was found to bind to the 3′-UTR of LATS2 mRNA, confirming that miR-363 directly targets LATS2 as indicated by dual luciferase assay. RT-PCR-based evaluation of miR-363 in a panel of human ovarian tumours revealed its upregulation in most of the tumour tissues identified as resistant while downregulation of the same gene in most of the tissues identified as sensitive ones. Moreover, higher levels of miR-363 in human ovarian cancer specimens were significantly correlated with TX chemoresistance and poor prognosis. Taken together, our study reveals the involvement of miR-363 in chemoresistance by targeting LATS2 in ovarian cancers, raising the possibility that combination therapy with a miR-363 inhibitor and TX may increase TX efficacy and reduce the chance of TX-resistance.
Note: This abstract was not presented at the meeting.
Citation Format: Noriaki Sakuragi, Mohamed Kamel Farah, Zeinab Mohamed, Safwat Okasha, Hidemichi Watari, Takashi Mitamura, sherif El Khamisy, Yusuke Ohba. Comparative miRNA microarray profiling indicates miR-363 promotes chemoresistance in ovarian cancer cells by targeting the Hippo member, LATS2 [abstract]. In: Proceedings of the American Association for Cancer Research Annual Meeting 2017; 2017 Apr 1-5; Washington, DC. Philadelphia (PA): AACR; Cancer Res 2017;77(13 Suppl):Abstract nr LB-323. doi:10.1158/1538-7445.AM2017-LB-323</jats:p
Visualization of Ras-PI3K interaction in the endosome using BiFC
Recent studies indicate the importance of spatiotemporal regulation in the diversity and specificity of intracellular signaling. Here, we show that Ras-PI3K signaling plays an important role in the local regulation of phosphatidylinositol metabolism in the endosome through live-cell imaging by using a bimolecular fluorescence complementation technique, in which molecular interaction is indicated by fluorescence emission. Using several possible combinations of Ras and the Ras-binding domain, we identified an optimal set of probe molecules that yielded the most significant increase in fluorescence intensity between the active and inactive forms of Ras. This combination revealed that, among the Ras effectors tested, phosphatidylinositol 3-kinase (PI3K) was specifically implicated in signaling in the endosome. We also found that full length PI3K was recruited to the endosome in EGF- and Ras-dependent manners, which appears to be essential for the activation of PI3K in this compartment. Taken together, these findings demonstrate that the spatiotemporal regulation of Ras-PI3K signaling may dictate the activation of PI3K and subsequent downstream signaling in the endosome
Role of endocytic pathway in cell-to-cell EBV transmission
Epstein-Barr virus (EBV) establishes a lifelong latent infection in B lymphocytes and often is found in epithelial cells. Several lines of evidence indicate that viral transmission mediated by cell-to-cell contact is the dominant mode of infection by EBV for epithelial cells. However, its detailed molecular mechanism has not been fully elucidated. We investigated the role of host membrane trafficking machinery in this process. We have found that adhesion molecules critical for this process are expressed in EBV-positive and -negative Burkitt's lymphoma (BL) cells and multiple epithelial cell lines. Treatment with blocking antibodies against β1 and β2 integrin families and their ligands suppressed EBV transmission in a dose-dependent manner. We also confirmed that adhesion molecules are upregulated in co-cultured BL cells. Immunofluorescence staining revealed that the intracellular adhesion molecule 1 (ICAM-1) distributed to the cell surface and partially co-localized with recycling endosomes in co-cultured BL cells. Moreover, cell-to-cell EBV transmission was inhibited upon blocking endocytic recycling by expression of a dominant-negative form of a small GTPase Rab11 or by knockdown of Rab11, supporting the notion that the endocytic pathway-dependent trafficking of ICAM-1 to the cell surface of BL cells contributes to viral transmission by stabilizing cell-to-cell contact between the donor cells and recipient cells. Finally, we demonstrated that co-cultivation upregulated clathrin-mediated endocytosis in the recipient cells, allowing EBV to be internalized. Taken together, our findings demonstrate that EBV exploits host endocytic machinery in both donor and recipient cells, a process which is facilitated by cell-to-cell contact, thereby promoting successful viral transmission
Transcription factor 8 activates R-Ras to regulate angiogenesis
We have recently reported that transcription factor 8 (TCF8) negatively regulates pathological angiogenesis by regulating endothelial invasiveness by acting as a transcriptional attenuator of matrix metalloproteinase 1. TCF8 also modulates cell–matrix and cell–cell adhesion; however molecular mechanism of this TCF8 function remains obscure. Here, we provide evidence that TCF8 activates R-Ras, another class of angiogenic regulator, to suppress angiogenesis by a mechanism other than a transcriptional attenuator. Tube formation by human umbilical vein endothelial cells (HUVECs) facilitated by TCF8 suppression was significantly inhibited by the expression of onstitutive active mutant of R-Ras. When we examined the mRNA expression levels of R-Ras regulators, no significant changes were observed to explain the R-Ras activation by TCF8. Interestingly, we found that TCF8 bound to CalDAG-GEFIII, an R-Ras activator, in the cytosol, indicating that TCF8 emanates signaling for R-Ras activation from cytosol to regulate angiogenesis negatively
Budding of Ebola Virus Particles Requires the Rab11-Dependent Endocytic Recycling Pathway
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