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131.
Greenberg E Hershkovitz L Itzhaki O Hajdu S Nemlich Y Ortenberg R Gefen N Edry L Modai S Keisari Y Besser MJ Schachter J Shomron N Markel G 《PloS one》2011,6(4):e18936
MicroRNAs (miRNAs) are small non-coding RNAs with regulatory roles, which are involved in a broad spectrum of physiological and pathological processes, including cancer. A common strategy for identification of miRNAs involved in cell transformation is to compare malignant cells to normal cells. Here we focus on identification of miRNAs that regulate the aggressive phenotype of melanoma cells. To avoid differences due to genetic background, a comparative high-throughput miRNA profiling was performed on two isogenic human melanoma cell lines that display major differences in their net proliferation, invasion and tube formation activities. This screening revealed two major cohorts of differentially expressed miRNAs. We speculated that miRNAs up-regulated in the more-aggressive cell line contribute oncogenic features, while the down-regulated miRNAs are tumor suppressive. This assumption was further tested experimentally on five candidate tumor suppressive miRNAs (miR-31, -34a, -184, -185 and -204) and on one candidate oncogenic miRNA (miR-17-5p), all of which have never been reported before in cutaneous melanoma. Remarkably, all candidate Suppressive-miRNAs inhibited net proliferation, invasion or tube formation, while miR-17-5p enhanced cell proliferation. miR-34a and miR-185 were further shown to inhibit the growth of melanoma xenografts when implanted in SCID-NOD mice. Finally, all six candidate miRNAs were detected in 15 different metastatic melanoma specimens, attesting for the physiological relevance of our findings. Collectively, these findings may prove instrumental for understanding mechanisms of disease and for development of novel therapeutic and staging technologies for melanoma. 相似文献
132.
Vincenzo Sorrentino Jessica K. Nelson Elena Maspero André R. A. Marques Lilith Scheer Simona Polo Noam Zelcer 《Journal of lipid research》2013,54(8):2174-2184
Low density lipoprotein (LDL) cholesterol is taken up into cells via clathrin-mediated endocytosis of the LDL receptor (LDLR). Following dissociation of the LDLR-LDL complex, LDL is directed to lysosomes whereas the LDLR recycles to the plasma membrane. Activation of the sterol-sensing nuclear receptors liver X receptors (LXRs) enhances degradation of the LDLR. This depends on the LXR target gene inducible degrader of the LDLR (IDOL), an E3-ubiquitin ligase that promotes ubiquitylation and lysosomal degradation of the LDLR. How ubiquitylation of the LDLR by IDOL controls its endocytic trafficking is currently unknown. Using genetic- and pharmacological-based approaches coupled to functional assessment of LDL uptake, we show that the LXR-IDOL axis targets a LDLR pool present in lipid rafts. IDOL-dependent internalization of the LDLR is independent of clathrin, caveolin, macroautophagy, and dynamin. Rather, it depends on the endocytic protein epsin. Consistent with LDLR ubiquitylation acting as a sorting signal, degradation of the receptor can be blocked by perturbing the endosomal sorting complex required for transport (ESCRT) or by USP8, a deubiquitylase implicated in sorting ubiquitylated cargo to multivesicular bodies. In summary, we provide evidence for the existence of an LXR-IDOL-mediated internalization pathway for the LDLR that is distinct from that used for lipoprotein uptake. 相似文献
133.
Shilo Rosenwasser Robert Fluhr Janak Raj Joshi Noam Leviatan Noa Sela Amotz Hetzroni Haya Friedman 《Plant physiology》2013,163(2):1071-1083
134.
Mor Goldfeder Mor Egozy Vered Shuster Ben-Yosef Noam Adir Ayelet Fishman 《Applied microbiology and biotechnology》2013,97(5):1953-1961
Tyrosinase is a member of the type 3 copper enzyme family involved in the production of melanin in a wide range of organisms. The ability of tyrosinases to convert monophenols into diphenols has stimulated studies regarding the production of substituted catechols, important intermediates for the synthesis of pharmaceuticals, agrochemicals, polymerization inhibitors, and antioxidants. Despite its enormous potential, the use of tyrosinases for catechol synthesis has been limited due to the low monophenolase/diphenolase activity ratio. In the presence of two water miscible ionic liquids, [BMIM][BF4] and ethylammonium nitrate, the selectivity of a tyrosinase from Bacillus megaterium (TyrBm) was altered, and the ratio of monophenolase/diphenolase activity increased by up to 5-fold. Furthermore, the addition of sodium dodecyl sulphate (SDS) at levels of 2–50 mM increased the activity of TyrBm by 2-fold towards the natural substrates l-tyrosine and l-Dopa and 15- to 20-fold towards the non-native phenol and catechol. The R209H tyrosinase variant we previously identified as having a preferential ratio of monophenolase/diphenolase activity was shown to have a 45-fold increase in activity towards phenol in the presence of SDS. We propose that the effect of SDS on the ability of tyrosinase to convert non-natural substrates is due to the interaction of surfactant molecules with residues located at the entrance to the active site, as visualized by the newly determined crystal structure of TyrBm in the presence of SDS. The effect of SDS on R209 may enable less polar substrates such as phenol and catechol, to penetrate more efficiently into the enzyme catalytic pocket. 相似文献
135.
Noam Faust 《Morphology》2013,23(4):409-440
The feminine suffixes -at, -et, -it, -ut, -ot of Modern Hebrew are regularly treated as morphologically simplex. In this paper, I argue for the decomposition of -it and -ut into -i-t and -u-t on the basis of semantic, phonological and morphological evidence. The paper has two parts. In the first part, the data and the main claims are presented. The feminine suffix is defined as -t. The distribution and function of -i- and -u- in the feminine suffixes are defined, and both -i- and -u- are shown to carry similar functions elsewhere in the language, without the feminine -t. A novel analysis of the plural analysis is also presented. The second part is an application to the data of Lowenstamm’s (Derivational affixes as roots (phasal spellout meets English stress shift). Ms., LLF, 2010, to appear) specific view of Distributed Morphology (Halle and Marantz in The view from building 20, pp. 111–176. MIT Press, Cambridge, 1993). Through this formal analysis, -i- is shown to be a structurally expletive morpheme. The morpheme -u- is analyzed as its [-concrete] alternant. The latter is shown to appear in both concatenative and non-concatenative suffixes, thus illustrating an understudied possible consequence of the non-concatenative nature of Semitic morphology. The framework adopted—the version of Distributed Morphology in Lowenstamm (Roots, Oxford University Publishing, to appear)—receives support in the success of the analysis. 相似文献
136.
137.
Nardy Lampl Noam Alkan Olga Davydov Robert Fluhr 《The Plant journal : for cell and molecular biology》2013,74(3):498-510
Programmed cell death (PCD) in plants plays a key role in defense response and is promoted by the release of compartmentalized proteases to the cytoplasm. Yet the exact identity and control of these proteases is poorly understood. Serpins are an important group of proteins that uniquely curb the activity of proteases by irreversible inhibition; however, their role in plants remains obscure. Here we show that during cell death the Arabidopsis serpin protease inhibitor, AtSerpin1, exhibits a pro‐survival function by inhibiting its target pro‐death protease, RD21. AtSerpin1 accumulates in the cytoplasm and RD21 accumulates in the vacuole and in endoplasmic reticulum bodies. Elicitors of cell death, including the salicylic acid agonist benzothiadiazole and the fungal toxin oxalic acid, stimulated changes in vacuole permeability as measured by the changes in the distribution of marker dye. Concomitantly, a covalent AtSerpin1–RD21 complex was detected indicative of a change in protease compartmentalization. Furthermore, mutant plants lacking RD21 or plants with AtSerpin1 over‐expression exhibited significantly less elicitor‐stimulated PCD than plants lacking AtSerpin1. The necrotrophic fungi Botrytis cinerea and Sclerotina sclerotiorum secrete oxalic acid as a toxin that stimulates cell death. Consistent with a pro‐death function for RD21 protease, the growth of these necrotrophs was compromised in plants lacking RD21 but accelerated in plants lacking AtSerpin1. The results indicate that AtSerpin1 controls the pro‐death function of compartmentalized protease RD21 by determining a set‐point for its activity and limiting the damage induced during cell death. 相似文献
138.
139.
Animal groups often make decisions sequentially, from the front to the back of the group. In such cases, individuals can use the choices made by earlier ranks, a form of social information, to inform their own choice. The optimal strategy for such decisions has been explored in models which differ on, for example, whether or not agents take into account the sequence of observed choices. The models demonstrate that choices made later in a sequence are more informative, but it is not clear if animals use this information or rely instead on simpler heuristics, such as quorum rules. We show that a simple rule ‘copy the last observed choice'', gives similar predictions to those of optimal models for most likely sequences. We trained groups of zebrafish to choose one arm of a Y-maze and used them to demonstrate various sequences to naive fish. We show that the naive fish appear to use a simple rule, most often copying the choice of the last demonstrator, which results in near-optimal choices at a fraction of the computational cost. 相似文献
140.
Mizrachy-Schwartz S Cohen N Klein S Kravchenko-Balasha N Levitzki A 《The Journal of biological chemistry》2011,286(17):15268-15277
We report that the activation level of AMP-dependent protein kinase AMPK is elevated in cancer cell lines as a hallmark of their transformed state. In OVCAR3 and A431 cells, c-Src signals through protein kinase Cα, phospholipase Cγ, and LKB1 to AMPK. AMPK controls internal ribosome entry site (IRES) dependent translation in these cells. We suggest that AMPK activation via PKC might be a general mechanism to regulate IRES-dependent translation in cancer cells. 相似文献