Building arks for tRNA: Structure and function of the Arc1p family of non-catalytic tRNA-binding proteins

Following the intricate architecture of the eukaryotic cell, protein synthesis involves formation of many macromolecular assemblies, some of which are composed by tRNA-aminoacylation enzymes. Protein-protein and protein-tRNA interactions in these complexes can be facilitated by non-catalytic tRNA-binding proteins. This review focuses on the dissection of the molecular, structural and functional properties of a particular family of such proteins: yeast Arc1p and its homologues in prokaryotes and higher eukaryotes. They represent paradigms of the strategies employed for the organization of sophisticated and dynamic nanostructures supporting spatio-temporal cellular organization.     

Biological functions of p53 isoforms through evolution: lessons from animal and cellular models

The TP53 tumour-suppressor gene is expressed as several protein isoforms generated by different mechanisms, including use of alternative promoters, splicing sites and translational initiation sites, that are conserved through evolution and within the TP53 homologues, TP63 and TP73. Although first described in the eighties, the importance of p53 isoforms in regulating the suppressive functions of p53 has only become evident in the last 10 years, by analogy with observations that p63 and p73 isoforms appeared indispensable to fully understand the biological functions of TP63 and TP73. This review summarizes recent advances in the field of 'p53 isoforms', including new data on p63 and p73 isoforms. Details of the alternative mechanisms that produce p53 isoforms and cis- and trans-regulators identified are provided. The main focus is on their biological functions (apoptosis, cell cycle, aging and so on) in cellular and animal models, including mouse, zebrafish and Drosophila. Finally, the deregulation of p53 isoform expression in human cancers is reviewed. Based on these latest results, several developments are expected in the future: the identification of drugs modulating p53 isoform expression; the generation of animal models and the evaluation of the use of p53 isoform as biomarkers in human cancers.     

The Ndc80p complex from Saccharomyces cerevisiae contains conserved centromere components and has a function in chromosome segregation

We have purified a complex from Saccharomyces cerevisiae containing the spindle components Ndc80p, Nuf2p, Spc25p, and Spc24p. Temperature-sensitive mutants in NDC80, SPC25, and SPC24 show defects in chromosome segregation. In spc24-1 cells, green fluorescence protein (GFP)-labeled centromeres fail to split during spindle elongation, and in addition some centromeres may detach from the spindle. Chromatin immunoprecipitation assays show an association of all four components of the complex with the yeast centromere. Homologues of Ndc80p, Nuf2p, and Spc24p were found in Schizosaccharomyces pombe and GFP tagging showed they were located at the centromere. A human homologue of Nuf2p was identified in the expressed sequence tag database. Immunofluorescent staining with anti-human Nuf2p and with anti-HEC, the human homologue of Ndc80p, showed that both proteins are at the centromeres of mitotic HeLa cells. Thus the Ndc80p complex contains centromere-associated components conserved between yeasts and vertebrates.     

Regulation of the Activity in the p53 Family Depends on the Organization of the Transactivation Domain

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Twice switched at birth: cell cycle-independent roles of the "neuron-specific" cyclin-dependent kinase 5 (Cdk5) in non-neuronal cells

Cdk5 (cyclin-dependent kinase 5 or initially NCLK for neuronal CDC2-like kinase) was switched twice at its birth nearly twenty years ago: first it was thought to be cyclin-dependent, second it was assumed to be primarily of importance in neuronal cells—both turned out not to be the case. In this review we want to discuss issues of pharmacological inhibition, to highlight the versatile roles, and to summarize the growing evidence for the functional importance of Cdk5 in non-neuronal tissues, such as blood cells, tumor cells, epithelial cells, the vascular endothelium, testis, adipose and endocrine tissues. The organizing principles we follow are apoptosis/cell death, migration/motility, aspects of inflammation, and, finally, secretion/metabolism.     

Role of p53 family in birth defects: lessons from zebrafish

p53 Protein family is an important teratologic suppressor, but in certain conditions it can cause congenital abnormalities. p53 Family performs this dual role in development by integrating information from cell's interior with that from the environment to determine the choice between life and death. Understanding of p53 family developmental functions may lead to new therapeutic approaches for treatment and prevention of birth defects. Zebrafish is becoming the vertebrate system of choice for studying p53 family role in development.     

Concentration of GPI-Anchored Proteins upon ER Exit in Yeast

Previous biochemical work has revealed two parallel routes of exit from the endoplasmic reticulum (ER) in the yeast Saccharomyces cerevisiae , one seemingly specific for glycosyl-phosphatidylinositol (GPI)-anchored proteins. Using the coat protein II (COPII) mutant sec31-1 , we visualized ER exit sites (ERES) and identified three distinct ERES populations in vivo. One contains glycosylated pro-α-factor, the second contains the GPI-anchored proteins Cwp2p, Ccw14p and Tos6p and the third is enriched with the hexose transporter, Hxt1p. Concentration of GPI-anchored proteins prior to budding requires anchor remodeling, and Hxt1p incorporation into ERES requires the COPII components Sec12p and Sec16p. Additionally, we have found that GPI-anchored protein ER exit is controlled by the p24 family member Emp24p, whereas ER export of most transmembrane proteins requires the Cornichon homologue Erv14p.     

Extension of replicative lifespan in WI-38 human fibroblasts by dexamethasone treatment is accompanied by suppression of p21 Waf1/Cip1/Sdi1 levels

Numerous studies have shown that supplementation of the growth medium of human fibroblasts with dexamethasone at physiologic concentrations extends replicative lifespan up to 30%. While this extension of lifespan has been used to probe various aspects of the senescent phenotype, no mechanism for the increased lifespan of human fibroblasts grown in the presence of dexamethasone has ever been identified. In the present study we present evidence that the extended lifespan of human lung fibroblasts (WI-38 cells) that occurs when these cells are maintained in culture medium supplemented with dexamethasone is accompanied by a suppression of p21(Waf1/Cip1/Sdi1) levels, which normally increase as these cells enter senescence, while p16(INK4a) levels are unaffected. These results suggest that the delay of senescence in cultures grown in the presence of dexamethasone is due to a suppression of the senescence related increase in p21(Waf1/Cip1/Sdi1). These results are consistent with models of replicative senescence in which p53 and p21(Waf1/Cip1/Sdi1) play a role in the establishment of the senescent arrest.     

An intimate connection between ubiquitination and compartmentalized cAMP signaling

Comment on: Lignitto L, et al. Nat Cell Biol 2011; 13:412-22.     

白念珠菌菌丝转录活化因子协同作用的研究进展

从酵母转变为菌丝来适应不同的环境的能力是白念珠菌的特性之一,而菌丝体是其侵入宿主细胞引起机体全身性感染所必需的重要致病因素之一。白念珠菌这种重要的形态转换受到多种菌丝相关基因的调控。本文主要综述促有丝裂原活化蛋白激酶(MAPK)途径的转录活化因子Cph1p和cAMP蛋白激酶A(cAMP/PKA)调节途径中的转录活化因子Efg1p对菌丝形态转换的影响,以及两者与调节白念珠菌毒力的转录活化因子TEA/ATTS家族中的Tec1p对于分泌型天冬氨酸蛋白酶家族(Secreted aspartyl proteinases,SAPs)中SAP5的协同调节作用,以对可能存在于不同的菌丝转录活化因子之间对菌丝形态转换调控的协同作用进行初步探讨。     

Cytogenetic Follow-Up in a Case With a Primary Cutaneous Melanoma and Five Metastatic Lesions

Cytogenetic analyses conducted on several cases of melanoma have contributed to the identification of the chromosomal regions where the sequences responsible for malignant transformation and the evolution of this tumor are probably located. With regard to these problems, it is very important to have the possibility to analyze, through the use of cytogenetics, both the primary melanoma and the metastatic lesions from the same patient. We present a case in which the primary melanoma and five different metastases were studied by using cytogenetics. The primary tumor showed an inversion of chromosome 1 where the p36 region, often proposed in literature as the location of a melanoma susceptibility gene, was involved. Three cutaneous and one lymphonodal metastases presented the same nine clonal chromosomal aberrations. In particular, one is a further rearrangement of the marker present in the primary tumor; another is a deletion of the 9p21pter region in which the p16 gene is located. Our results can provide a contribution to the hypothesis of the location of a candidate gene for melanoma in the 1p36 region and can also underscore the role of the 9p21 region in the progression of melanoma.     

p53-p21通路抑制组蛋白甲基转移酶NSD2的表达

NSD2(nuclear receptor-binding SET domain 2)是一种在黑色素瘤等多种肿瘤细胞中高表达的组蛋白甲基转移酶,其在Wolf-Hirschhorn综合症(wolf-Hirschhorn syndrome,WHS)和多发性骨髓瘤(multiple myeloma,MM)疾病中表达异常的原因已经得到了较好的阐明。而NSD2在其它肿瘤中的表达为何失调还未阐明。本研究选用p53野生型的恶性黑色素瘤细胞系92-1作为细胞模型,采用DNA损伤试剂依托泊苷处理和RNA干扰技术,通过定量PCR和蛋白质免疫印迹的方法首次证实了p53-p21通路对NSD2具有抑制作用。