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Vanessa Tillement Marie‐Hélène Remy Brigitte Raynaud‐Messina Laurent Mazzolini Laurence Haren Andreas Merdes 《Biology of the cell / under the auspices of the European Cell Biology Organization》2009,101(1):1-11
Mitotic spindle formation in animal cells involves microtubule nucleation from two centrosomes that are positioned at opposite sides of the nucleus. Microtubules are captured by the kinetochores and stabilized. In addition, microtubules can be nucleated independently of the centrosome and stabilized by a gradient of Ran—GTP, surrounding the mitotic chromatin. Complex regulation ensures the formation of a bipolar apparatus, involving motor proteins and controlled polymerization and depolymerization of microtubule ends. The bipolar apparatus is, in turn, responsible for faithful chromosome segregation. During recent years, a variety of experiments has indicated that defects in specific motor proteins, centrosome proteins, kinases and other proteins can induce the assembly of aberrant spindles with a monopolar morphology or with poorly separated poles. Induction of monopolar spindles may be a useful strategy for cancer therapy, since ensuing aberrant mitotic exit will usually lead to cell death. In this review, we will discuss the various underlying molecular mechanisms that may be responsible for monopolar spindle formation. 相似文献
136.
Sa-nguanmoo P Thongmee C Ratanakorn P Pattanarangsan R Boonyarittichaikij R Chodapisitkul S Theamboonlers A Tangkijvanich P Poovorawan Y 《Journal of medical primatology》2008,37(6):277-289
Background Hepatitis B virus (HBV) is a public health problem worldwide and apart from infecting humans, HBV has been found in non‐human primates. Methods We subjected 93 non‐human primates comprising 12 species to ELISA screening for the serological markers HBsAg, antiHBs and antiHBc. Subsequently, we detected HBV DNA, sequenced the whole HBV genome and performed phylogenetic analysis. Results HBV infection was detected in gibbon (4/15) and orangutan (7/53). HBV DNA isolates from two gibbons and seven orangutans were chosen for complete genome amplification. We aligned the Pre‐S/S, Pre‐C/C and entire genomes with HBV sequences and performed phylogenetic analysis. The gibbon and orangutan viruses clustered within their respective groups. Conclusions Both geographic location and host species influence which HBV variants are found in gibbons and orangutans. Hence, HBV transmission between humans and non‐human primates might be a distinct possibility and additional studies will be required to further investigate this potential risk. 相似文献
137.
Prostate carcinomas are among the most frequently diagnosed and death causing cancers affecting males in the developed world. It has become clear that the molecular mechanisms that drive the differentiation of normal prostate cells towards neoplasia involve multiple signal transduction cascades that often overlap and interact. A critical mediator of cellular proliferation and differentiation in various cells (and cancers) is the cAMP-dependent protein kinase, also known as protein kinase A (PKA), and its activating secondary messenger, cAMP. PKA and cAMP have been shown to play critical roles in prostate carcinogenesis and are the subject of this review. In particular we will focus on the cross-talk between PKA/cAMP signaling and that of the androgen receptor. 相似文献
138.
Pedro Henrique Monteiro Torres Gabriel Limaverde Soares Costa Sousa Pedro Geraldo Pascutti 《Proteins》2011,79(9):2684-2692
Endostatin is a potent antiangiogenic protein derived from the noncollagenous domain 1 (NC1) of collagen XVIII. The mechanism by which endostatin exerts its antiangiogenic effect is still incompletely understood. It has been shown that the 27 amino acid N‐terminal fragment of murine endostatin has antitumor, antimigration, and antipermeability activities comparable to the full soluble protein. To understand how this peptide can exert such elaborate function, we performed structural analysis using molecular dynamics to evaluate the behavior of this fragment in aqueous environment. Here, we show that the N‐terminal peptide of murine endostatin is able to assume a well‐defined structure, folding into a zinc‐dependent β‐hairpin conformation. Analyzing the folding mechanism, we were able to understand why the N‐terminal peptide of human endostatin with the same length failed to acquire a stable conformation. Conversely, we were able to predict the successful folding of the R4Q mutant and of a shorter form of the human peptide with 25 residues. Finally, we show that the β‐hairpin conformation assumed by the zinc‐bound peptide of murine endostatin has a high structural similarity with fragments of another family of angiogenesis inhibitors: the integrin‐binding portion of the NC1 domain of collagen IV. Indeed, our docking simulations show that arresten, canstatin, and the endostatin peptide bind to the same spot of αVβ3 integrin, suggesting similar interactions via a common binding site on this receptor. Proteins 2011;. © 2011 Wiley‐Liss, Inc. 相似文献
139.
Ryan Wilcox Bryan E Welm Jeffrey T Chang Evan Johnson Avrum Spira Stefanie S Jeffrey Andrea H Bild 《Molecular systems biology》2011,7(1)
Identifying the best drug for each cancer patient requires an efficient individualized strategy. We present MATCH (M erging genomic and pharmacologic A nalyses for T herapy CH oice), an approach using public genomic resources and drug testing of fresh tumor samples to link drugs to patients. Valproic acid (VPA) is highlighted as a proof‐of‐principle. In order to predict specific tumor types with high probability of drug sensitivity, we create drug response signatures using publically available gene expression data and assess sensitivity in a data set of >40 cancer types. Next, we evaluate drug sensitivity in matched tumor and normal tissue and exclude cancer types that are no more sensitive than normal tissue. From these analyses, breast tumors are predicted to be sensitive to VPA. A meta‐analysis across breast cancer data sets shows that aggressive subtypes are most likely to be sensitive to VPA, but all subtypes have sensitive tumors. MATCH predictions correlate significantly with growth inhibition in cancer cell lines and three‐dimensional cultures of fresh tumor samples. MATCH accurately predicts reduction in tumor growth rate following VPA treatment in patient tumor xenografts. MATCH uses genomic analysis with in vitro testing of patient tumors to select optimal drug regimens before clinical trial initiation. 相似文献
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