排序方式: 共有4条查询结果,搜索用时 15 毫秒
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Vogt J Glumm R Schlüter L Schmitz D Rost BR Streu N Rister B Suman Bharathi B Gagiannis D Hildebrandt H Weinhold B Mühlenhoff M Naumann T Savaskan NE Brauer AU Reutter W Heimrich B Nitsch R Horstkorte R 《Cellular and molecular life sciences : CMLS》2012,69(7):1179-1191
During development, axonal projections have a remarkable ability to innervate correct dendritic subcompartments of their target neurons and to form regular neuronal circuits. Altered axonal targeting with formation of synapses on inappropriate neurons may result in neurodevelopmental sequelae, leading to psychiatric disorders. Here we show that altering the expression level of the polysialic acid moiety, which is a developmentally regulated, posttranslational modification of the neural cell adhesion molecule NCAM, critically affects correct circuit formation. Using a chemically modified sialic acid precursor (N-propyl-D: -mannosamine), we inhibited the polysialyltransferase ST8SiaII, the principal enzyme involved in polysialylation during development, at selected developmental time-points. This treatment altered NCAM polysialylation while NCAM expression was not affected. Altered polysialylation resulted in an aberrant mossy fiber projection that formed glutamatergic terminals on pyramidal neurons of the CA1 region in organotypic slice cultures and in vivo. Electrophysiological recordings revealed that the ectopic terminals on CA1 pyramids were functional and displayed characteristics of mossy fiber synapses. Moreover, ultrastructural examination indicated a "mossy fiber synapse"-like morphology. We thus conclude that homeostatic regulation of the amount of synthesized polysialic acid at specific developmental stages is essential for correct synaptic targeting and circuit formation during hippocampal development. 相似文献
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Tomlins SA Laxman B Dhanasekaran SM Helgeson BE Cao X Morris DS Menon A Jing X Cao Q Han B Yu J Wang L Montie JE Rubin MA Pienta KJ Roulston D Shah RB Varambally S Mehra R Chinnaiyan AM 《Nature》2007,448(7153):595-599
Recently, we identified recurrent gene fusions involving the 5' untranslated region of the androgen-regulated gene TMPRSS2 and the ETS (E26 transformation-specific) family genes ERG, ETV1 or ETV4 in most prostate cancers. Whereas TMPRSS2-ERG fusions are predominant, fewer TMPRSS2-ETV1 cases have been identified than expected on the basis of the frequency of high (outlier) expression of ETV1 (refs 3-13). Here we explore the mechanism of ETV1 outlier expression in human prostate tumours and prostate cancer cell lines. We identified previously unknown 5' fusion partners in prostate tumours with ETV1 outlier expression, including untranslated regions from a prostate-specific androgen-induced gene (SLC45A3) and an endogenous retroviral element (HERV-K_22q11.23), a prostate-specific androgen-repressed gene (C15orf21), and a strongly expressed housekeeping gene (HNRPA2B1). To study aberrant activation of ETV1, we identified two prostate cancer cell lines, LNCaP and MDA-PCa 2B, that had ETV1 outlier expression. Through distinct mechanisms, the entire ETV1 locus (7p21) is rearranged to a 1.5-megabase prostate-specific region at 14q13.3-14q21.1 in both LNCaP cells (cryptic insertion) and MDA-PCa 2B cells (balanced translocation). Because the common factor of these rearrangements is aberrant ETV1 overexpression, we recapitulated this event in vitro and in vivo, demonstrating that ETV1 overexpression in benign prostate cells and in the mouse prostate confers neoplastic phenotypes. Identification of distinct classes of ETS gene rearrangements demonstrates that dormant oncogenes can be activated in prostate cancer by juxtaposition to tissue-specific or ubiquitously active genomic loci. Subversion of active genomic regulatory elements may serve as a more generalized mechanism for carcinoma development. Furthermore, the identification of androgen-repressed and insensitive 5' fusion partners may have implications for the anti-androgen treatment of advanced prostate cancer. 相似文献
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Suresh Ramakrishna Bharathi Suresh Kwang-Hyun Baek 《Cellular and molecular life sciences : CMLS》2011,68(1):15-26
It has become apparent that ubiquitination plays a critical role in cell survival and cell death. In addition, deubiquitinating
enzymes (DUBs) have been determined to be highly important regulators of these processes. Cells can be subjected to various
stresses and respond in a variety of different ways ranging from activation of survival pathways to the promotion of cell
death, which eventually eliminates damaged cells. The regulatory mechanisms of apoptosis depend on the balanced action between
ubiquitination and deubiquitination systems. There is a growing recognition that DUBs play essential roles in regulating several
binding partners to modulate the process of apoptosis. Thus, the interplay between the timing of DUB activity and the specificity
of ubiquitin attachment and removal from its substrates during apoptosis is important to ensure cellular homeostasis. This
review discusses the role of a few ubiquitin-specific DUBs that are involved in either promoting or suppressing the process
of apoptosis. 相似文献
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