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The 海角社区论坛 Publications database contains details of all publications resulting from our research groups and  Pre-prints by Institute authors can be viewed on the Institute's . We believe that free and open access to the outputs of publicly鈥恌unded research offers significant social and economic benefits, as well as aiding the development of new research. We are working to provide Open Access to as many publications as possible and these can be identified below by the padlock icon. Where this hasn't been possible, subscriptions may be required to view the full text.
 

Open Access
Jupp S, Malone J, Bolleman J, Brandizi M, Davies M, Garcia L, Gaulton A, Gehant S, Laibe C, Redaschi N, Wimalaratne SM, Martin M, Le Nov猫re N, Parkinson H, Birney E, Jenkinson AM Signalling

Resource description framework (RDF) is an emerging technology for describing, publishing and linking life science data. As a major provider of bioinformatics data and services, the European Bioinformatics Institute (EBI) is committed to making data readily accessible to the community in ways that meet existing demand. The EBI RDF platform has been developed to meet an increasing demand to coordinate RDF activities across the institute and provides a new entry point to querying and exploring integrated resources available at the EBI.

+view abstract Bioinformatics (Oxford, England), PMID: 24413672 2014

Open Access
M Spivakov* / TO Auer*, R Peravali, I Dunham, D Dolle, A Fujiyama, A Toyoda, T Aizu, Y Minakuchi, F Loosli, K Naruse, E Birney, J Wittbrodt

+view abstract G3, PMID: 24408034 2014

Varga-Weisz PD

+view abstract Nature structural & molecular biology, PMID: 24389547 2014

Open Access
Staats KA, Sch枚nefeldt S, Van Rillaer M, Van Hoecke A, Van Damme P, Robberecht W, Liston A, Van Den Bosch L Immunology

Beta-2 microglobulin (尾2m) is an essential component of the major histocompatibility complex (MHC) class I proteins and in the nervous system 尾2m is predominantly expressed in motor neurons. As 尾2m can promote nerve regeneration, we investigated its potential role in amyotrophic lateral sclerosis (ALS) by investigating its expression level as well as the effect of genetically removing 尾2m on the disease process in mutant superoxide dismutase 1 (SOD1 (G93A) ) mice, a model of ALS. We observed a strong upregulation of 尾2m in motor neurons during the disease process and ubiquitous removal of 尾2m dramatically shortens the disease duration indicating that 尾2m plays an essential and positive role during the disease process. We hypothesize that 尾2m contributes to plasticity that is essential for muscle reinnervation. Absence of this plasticity will lead to faster muscle denervation and counteracting this process could be a relevant therapeutic target.

+view abstract Frontiers in cellular neuroscience, PMID: 24368896 2013

Open Access
Hodakoski C, Hopkins BD, Barrows D, Mense SM, Keniry M, Anderson KE, Kern PA, Hawkins PT, Stephens LR, Parsons R Signalling

Insulin activation of phosphoinositide 3-kinase (PI3K) signaling regulates glucose homeostasis through the production of phosphatidylinositol 3,4,5-trisphosphate (PIP3). The dual-specificity phosphatase and tensin homolog deleted on chromosome 10 (PTEN) blocks PI3K signaling by dephosphorylating PIP3, and is inhibited through its interaction with phosphatidylinositol 3,4,5-trisphosphate-dependent Rac exchanger 2 (P-REX2). The mechanism of inhibition and its physiological significance are not known. Here, we report that P-REX2 interacts with PTEN via two interfaces. The pleckstrin homology (PH) domain of P-REX2 inhibits PTEN by interacting with the catalytic region of PTEN, and the inositol polyphosphate 4-phosphatase domain of P-REX2 provides high-affinity binding to the postsynaptic density-95/Discs large/zona occludens-1-binding domain of PTEN. P-REX2 inhibition of PTEN requires C-terminal phosphorylation of PTEN to release the P-REX2 PH domain from its neighboring diffuse B-cell lymphoma homology domain. Consistent with its function as a PTEN inhibitor, deletion of Prex2 in fibroblasts and mice results in increased Pten activity and decreased insulin signaling in liver and adipose tissue. Prex2 deletion also leads to reduced glucose uptake and insulin resistance. In human adipose tissue, P-REX2 protein expression is decreased and PTEN activity is increased in insulin-resistant human subjects. Taken together, these results indicate a functional role for P-REX2 PH-domain-mediated inhibition of PTEN in regulating insulin sensitivity and glucose homeostasis and suggest that loss of P-REX2 expression may cause insulin resistance.

+view abstract Proceedings of the National Academy of Sciences of the United States of America, PMID: 24367090 2014

Open Access
CL Cope, R Gilley, K Balmanno, MJ Sale, KD Howarth, M Hampson, PD Smith, SM Guichard, SJ Cook Signalling

The mechanistic target of rapamycin (mTOR) protein kinase coordinates responses to nutrients and growth factors and is an anti-cancer drug target. To anticipate how cells will respond and adapt to chronic mTOR complex (mTORC)1 and mTORC2 inhibition, we have generated SW620 colon cancer cells with acquired resistance to the ATP-competitive mTOR kinase inhibitor AZD8055 (SW620:8055R). AZD8055 inhibited mTORC1 and mTORC2 signalling and caused a switch from cap-dependent to internal ribosome entry site (IRES)-dependent translation in parental SW620 cells. In contrast, SW620:8055R cells exhibited a loss of S6K signalling, an increase in expression of the eukaryotic translation initiation factor eIF4E and increased cap-dependent mRNA translation. As a result, the expression of CCND1 and MCL1, proteins encoded by eIF4E-sensitive and cap-dependent transcripts, was refractory to AZD8055 in SW620:8055R cells. RNAi-mediated knockdown of eIF4E reversed acquired resistance to AZD8055 in SW620:8055R cells; furthermore, increased expression of eIF4E was sufficient to reduce sensitivity to AZD8055 in a heterologous cell system. Finally, although the combination of MEK1/2 inhibitors with mTOR inhibitors is an attractive rational drug combination, SW620:8055R cells were actually cross-resistant to the MEK1/2 inhibitor selumetinib (AZD6244). These results exemplify the convergence of ERK1/2 and mTOR signalling at eIF4E, and the key role of eIF4E downstream of mTOR in maintaining cell proliferation. They also have important implications for therapeutic strategies based around mTOR and the MEK1/2-ERK1/2 pathway.

+view abstract Journal of cell science, PMID: 24363449 2014

Open Access
Rudge SA, Wakelam MJ Signalling,Lipidomics

+view abstract Cell, PMID: 24360283 2013

Zhang Q, Wakelam MJ Signalling

Lipidomic methodologies have developed such that determination in lipid species content of cells and tissues is increasingly achievable. Adoption of these methods is highlighting the physiological importance of individual lipid molecular species rather than changes in an overall lipid class. In this article the use of such methodologies is considered and the potential for understanding the importance of lipid changes in malignancy assessed.

+view abstract Advances in biological regulation, PMID: 24332194 2014

Open Access
LJ Lambert, S Walker, J Feltham, HJ Lee, W Reik, J Houseley

During B cell activation, the DNA lesions that initiate somatic hypermutation and class switch recombination are introduced by activation-induced cytidine deaminase (AID). AID is a highly mutagenic protein that is maintained in the cytoplasm at steady state, however AID is shuttled across the nuclear membrane and the protein transiently present in the nucleus appears sufficient for targeted alteration of immunoglobulin loci. AID has been implicated in epigenetic reprogramming in primordial germ cells and cell fusions and in induced pluripotent stem cells (iPS cells), however AID expression in non-B cells is very low. We hypothesised that epigenetic reprogramming would require a pathway that instigates prolonged nuclear residence of AID. Here we show that AID is completely re-localised to the nucleus during drug withdrawal following etoposide treatment, in the period in which double strand breaks (DSBs) are repaired. Re-localisation occurs 2-6 hours after etoposide treatment, and AID remains in the nucleus for 10 or more hours, during which time cells remain live and motile. Re-localisation is cell-cycle dependent and is only observed in G2. Analysis of DSB dynamics shows that AID is re-localised in response to etoposide treatment, however re-localisation occurs substantially after DSB formation and the levels of re-localisation do not correlate with 脦鲁H2AX levels. We conclude that DSB formation initiates a slow-acting pathway which allows stable long-term nuclear localisation of AID, and that such a pathway may enable AID-induced DNA demethylation during epigenetic reprogramming.

+view abstract PloS one, PMID: 24324754 2013

Open Access
C Chaouiya, D Berenguier, SM Keating, A Naldi, MP van Iersel, N Rodriguez, A Dr盲ger, F B眉chel, T Cokelaer, B Kowal, B Wicks, E Gon莽alves, J Dorier, M Page, PT Monteiro, A von Kamp, I Xenarios, H de Jong, M Hucka, S Klamt, D Thieffry, N Le Nov猫re, J Saez-Rodriguez, T Helikar Signalling

Qualitative frameworks, especially those based on the logical discrete formalism, are increasingly used to model regulatory and signalling networks. A major advantage of these frameworks is that they do not require precise quantitative data, and that they are well-suited for studies of large networks. While numerous groups have developed specific computational tools that provide original methods to analyse qualitative models, a standard format to exchange qualitative models has been missing.

+view abstract BMC systems biology, PMID: 24321545 2013

Lopez-Clavijo AF, Duque-Daza CA, O'Connor PB Lipidomics

The post-translational modification known as glycation affects the physiological properties of peptides and proteins. Glycation is particularly important during hyperglycaemia where 伪-dicarbonyl compounds are generated. These compounds react with proteins to generate 伪-dicarbonyl-derived glycation products, which are correlated with diabetic complications such as nephropathy, retinopathy, and neuropathy, among others. One of these 伪-dicarbonyl compounds is ethanedial, also known as glyoxal. Thereby, glyoxal binding to protein/peptides is studied by electron capture dissociation (ECD) and collisionally activated dissociation (CAD).

+view abstract Rapid communications in mass spectrometry : RCM, PMID: 24285387 2014

Open Access
Milde S, Gilley J, Coleman MP Signalling

The NAD-synthesizing enzyme NMNAT2 is critical for axon survival in primary culture and its depletion may contribute to axon degeneration in a variety of neurodegenerative disorders. Here we discuss several recent reports from our laboratory that establish a critical role for NMNAT2 in axon growth in vivo in mice and shed light on the delivery and turnover of this survival factor in axons. In the absence of NMNAT2, axons fail to extend more than a short distance beyond the cell body during embryonic development, implying a requirement for NMNAT2 in axon maintenance even during development. Furthermore, we highlight findings regarding the bidirectional trafficking of NMNAT2 in axons on a vesicle population that undergoes fast axonal transport in primary culture neurites and in mouse sciatic nerve axons in vivo. Surprisingly, loss of vesicle association boosts the axon protective capacity of NMNAT2, an effect that is at least partially mediated by a longer protein half-life of cytosolic NMNAT2 variants. Analysis of wild-type and variant NMNAT2 in mouse sciatic nerves and Drosophila olfactory receptor neuron axons supports the existence of a similar mechanism in vivo, highlighting the potential for regulation of NMNAT2 stability and turnover as a mechanism to modulate axon degeneration in vivo.

+view abstract Bioarchitecture, PMID: 24284888 0

Open Access
Griffiths B,Lewis CA,Bensaad K,Ros S,Zhang Q,Ferber EC,Konisti S,Peck B,Miess H,East P,Wakelam M,Harris AL,Schulze A Signalling,Lipidomics

Regulation of lipid metabolism via activation of sterol regulatory element binding proteins (SREBPs) has emerged as an important function of the Akt/mTORC1 signaling axis. Although the contribution of dysregulated Akt/mTORC1 signaling to cancer has been investigated extensively and altered lipid metabolism is observed in many tumors, the exact role of SREBPs in the control of biosynthetic processes required for Akt-dependent cell growth and their contribution to tumorigenesis remains unclear.

+view abstract Cancer & metabolism, PMID: 24280005 2013

Open Access
Santos F, Peat J, Burgess H, Rada C, Reik W, Dean W Epigenetics

DNA methylation in mammals is an epigenetic mark necessary for normal embryogenesis. During development active loss of methylation occurs in the male pronucleus during the first cell cycle after fertilisation. This is accompanied by major chromatin remodelling and generates a marked asymmetry between the paternal and maternal genomes. The mechanism(s) by which this is achieved implicate, among others, base excision repair (BER) components and more recently a major role for TET3 hydroxylase. To investigate these methylation dynamics further we have analysed DNA methylation and hydroxymethylation in fertilised mouse oocytes by indirect immunofluorescence (IF) and evaluated the relative contribution of different candidate factors for active demethylation in knock-out zygotes by three-dimensional imaging and IF semi-quantification.

+view abstract Epigenetics & chromatin, PMID: 24279473 2013

Open Access
K Okkenhaug

In this issue of Chemistry & Biology, Winkler and colleagues describe the discovery and preclinical development of IPI-145, a new inhibitor of the phosphoinositide 3-kinase (PI3K) isoforms p110脦麓 and p110脦鲁 that have entered clinical trials.

+view abstract Chemistry & biology, PMID: 24267274 2013

Open Access
Siggs OM, Yates AL, Schlenner S, Liston A, Lesage S, Goodnow CC Immunology

Quantitative reductions in T-cell receptor (TCR) signalling are associated with severe immunodeficiency, yet in certain cases can lead to autoimmunity. Mutation of the tyrosine kinase ZAP-70 can cause either of these outcomes, yet the limits of its signal transducing capacity are not well defined. To investigate these limits we have made use of mrtless: a chemically induced mutation of Zap70 associated with T-cell deficiency. Unlike cells devoid of ZAP-70, mrtless thymocytes showed partial induction of CD5 and CD69, and were sensitive to TCR stimulation with a dose-response shifted approximately 10-fold. However, essentially no T cells were able to compensate for the mrtless mutation and mature beyond the CD4鈦 CD8鈦 stage. This outcome contrasts with a ZAP-70 Src Homology 2 domain mutant strain, where high-affinity self-reactive TCR are positively selected rather than deleted. We discuss these data with respect to current models of TCR signalling in thymocyte selection.

+view abstract Immunology, PMID: 24266404 2014

Open Access
Bayliss AL, Evans PD

The evolution of the biogenic amine signalling system in vertebrates is unclear. However, insights can be obtained from studying the structures and signalling properties of biogenic amine receptors from the protochordate, amphioxus, which is an invertebrate species that exists at the base of the chordate lineage. Here we describe the signalling properties of AmphiAmR11, an amphioxus (Branchiostoma floridae) G protein-coupled receptor which has structural similarities to vertebrate 伪2-adrenergic receptors but which functionally acts as a D2 dopamine-like receptor when expressed in Chinese hamster ovary -K1 cells. AmphiAmR11 inhibits forskolin-stimulated cyclic AMP levels with tyramine, phenylethylamine and dopamine being the most potent agonists. AmphiAmR11 also increases mitogen-activated protein kinase activity and calcium mobilisation, and in both pathways, dopamine was found to be more potent than tyramine. Thus, differences in the relative effectiveness of various agonists in the different second messenger assay systems suggest that the receptor displays agonist-specific coupling (biased agonism) whereby different agonists stabilize different conformations of the receptor which lead to the enhancement of one signalling pathway over another. The present study provides insights into the evolution of 伪2-adrenergic receptor signalling and support the hypothesis that 伪2-adrenergic receptors evolved from D2-dopamine receptors. The AmphiAmR11 receptor may represent a transition state between D2-dopamine receptors and 伪2-adrenergic receptors.

+view abstract PloS one, PMID: 24265838 2013

Open Access
Amado IF, Berges J, Luther RJ, Mailh茅 MP, Garcia S, Bandeira A, Weaver C, Liston A, Freitas AA Immunology

Many species of bacteria use quorum sensing to sense the amount of secreted metabolites and to adapt their growth according to their population density. We asked whether similar mechanisms would operate in lymphocyte homeostasis. We investigated the regulation of the size of interleukin-2 (IL-2)-producing CD4(+) T cell (IL-2p) pool using different IL-2 reporter mice. We found that in the absence of either IL-2 or regulatory CD4(+) T (T reg) cells, the number of IL-2p cells increases. Administration of IL-2 decreases the number of cells of the IL-2p cell subset and, pertinently, abrogates their ability to produce IL-2 upon in vivo cognate stimulation, while increasing T reg cell numbers. We propose that control of the IL-2p cell numbers occurs via a quorum sensing-like feedback loop where the produced IL-2 is sensed by both the activated CD4(+) T cell pool and by T reg cells, which reciprocally regulate cells of the IL-2p cell subset. In conclusion, IL-2 acts as a self-regulatory circuit integrating the homeostasis of activated and T reg cells as CD4(+) T cells restrain their growth by monitoring IL-2 levels, thereby preventing uncontrolled responses and autoimmunity.

+view abstract The Journal of experimental medicine, PMID: 24249704 2013

PA Latos, M Hemberger Epigenetics

Trophoblast stem cells (TSCs) are a self-renewing stem cell population derived from the early trophoblast lineage, analogous to embryonic stem cells (ESCs) that can be generated from the inner cell mass (ICM) of the mouse blastocyst. In that sense TSCs and ESCs reflect the earliest lineage differentiation event after fertilization. TSCs are characterized by an indefinite proliferation potential and by multipotency, i.e. the ability to differentiate into all the various trophoblast cell types of the placenta. These properties are driven by specific signalling pathways orchestrating characteristic transcriptional outputs. Here we review the recent advances in studying the signalling cascades and the transcriptional regulatory networks that define specification and maintenance of TSCs, and provide a future outlook of TSC research.

+view abstract Placenta, PMID: 24220516 2013

Linterman MA Immunology

Normal ageing is accompanied by a decline in the function of the immune system that causes an increased susceptibility to infections and an impaired response to vaccination in older individuals. This results in an increased disease burden in the aged population, even with good immunisation programmes in place. The decreased response to vaccination is partly due to the diminution of the germinal centre response with age, caused by impaired T-cell help to B cells. Within the germinal centre, T-cell help is provided by a specialised subset of CD4(+) T cells; T follicular helper (Tfh) cells. Tfh cells provide survival and selection signals to germinal centre B cells, allowing them to egress from the germinal centre and become long-live plasma cells or memory B cells, and provide life-long protection against subsequent infection. This review will discuss the cellular and molecular changes in both Tfh cells and germinal centre B cells that occur with advancing age, which result in a smaller germinal centre response and a less effective response to immunisation.

+view abstract Immunology and cell biology, PMID: 24217812 2014

Open Access
Pascall JC, Rotondo S, Mukadam AS, Oxley D, Webster J, Walker SA, Piron J, Carter C, Ktistakis NT, Butcher GW Immunology,Mass Spectrometry

The GIMAPs (GTPases of the immunity-associated proteins) are a family of small GTPases expressed prominently in the immune systems of mammals and other vertebrates. In mammals, studies of mutant or genetically-modified rodents have indicated important roles for the GIMAP GTPases in the development and survival of lymphocytes. No clear picture has yet emerged, however, of the molecular mechanisms by which they perform their function(s). Using biotin tag-affinity purification we identified a major, and highly specific, interaction between the human cytosolic family member GIMAP6 and GABARAPL2, one of the mammalian homologues of the yeast autophagy protein Atg8. Chemical cross-linking studies performed on Jurkat T cells, which express both GIMAP6 and GABARAPL2 endogenously, indicated that the two proteins in these cells readily associate with one another in the cytosol under normal conditions. The GIMAP6-GABARAPL2 interaction was disrupted by deletion of the last 10 amino acids of GIMAP6. The N-terminal region of GIMAP6, however, which includes a putative Atg8-family interacting motif, was not required. Over-expression of GIMAP6 resulted in increased levels of endogenous GABARAPL2 in cells. After culture of cells in starvation medium, GIMAP6 was found to localise in punctate structures with both GABARAPL2 and the autophagosomal marker MAP1LC3B, indicating that GIMAP6 re-locates to autophagosomes on starvation. Consistent with this finding, we have demonstrated that starvation of Jurkat T cells results in the degradation of GIMAP6. Whilst these findings raise the possibility that the GIMAPs play roles in the regulation of autophagy, we have been unable to demonstrate an effect of GIMAP6 over-expression on autophagic flux.

+view abstract PloS one, PMID: 24204963 2013

LE Jensen, G Bultynck, T Luyten, H Amijee, MD Bootman, HL Roderick

Dysregulation of Ca(2+) homeostasis is considered to contribute to the toxic action of the Alzheimer's disease (AD)-associated amyloid-脦虏-peptide (A脦虏). Ca(2+) fluxes across the plasma membrane and release from intracellular stores have both been reported to underlie the Ca(2+) fluxes induced by A脦虏42. Here, we investigated the contribution of Ca(2+) release from the endoplasmic reticulum (ER) to the effects of A脦虏42 upon Ca(2+) homeostasis and the mechanism by which A脦虏42 elicited these effects. Consistent with previous reports, application of soluble oligomeric forms of A脦虏42 induced an elevation in intracellular Ca(2+). The A脦虏42-stimulated Ca(2+) signals persisted in the absence of extracellular Ca(2+) indicating a significant contribution of Ca(2+) release from the ER Ca(2+) store to the generation of these signals. Moreover, inositol 1,4,5-trisphosphate (InsP3) signaling contributed to A脦虏42-stimulated Ca(2+) release. The Ca(2+) mobilizing effect of A脦虏42 was also observed when applied to permeabilized cells deficient in InsP3 receptors, revealing an additional direct effect of A脦虏42 upon the ER, and a mechanism for induction of toxicity by intracellular A脦虏42.

+view abstract Frontiers in molecular neuroscience, PMID: 24204331 2013

Evans PD, Bayliss A, Reale V

Steroid hormones classically mediate their actions by binding to intracellular receptor proteins that migrate to the nucleus and act as transcription factors to change gene expression. However, evidence is now accumulating for rapid, non-genomic effects of steroids. There is considerable controversy over the mechanisms underlying such effects. In a number of cases evidence has been presented for the direct activation of G-protein coupled receptors (GPCRs) by steroids, either at the plasma membrane, or at intracellular locations. Here, we will focus on the non-genomic actions of ecdysteroids on a Drosophila GPCR, DopEcR (CG18314), which can be activated by both ecdysone and the catecholamine, dopamine. We will also point out parallels between this system and the activation of the vertebrate GPCR, GPER1 (GPR30), which is thought to be activated by 17尾-estradiol. We propose that the cellular localization and signalling properties of both DopEcR and GPER1 may be cell specific and depend upon their interactions with both accessory molecules and signalling pathways.

+view abstract General and comparative endocrinology, PMID: 24188886 2014

Open Access
F B眉chel, N Rodriguez, N Swainston, C Wrzodek, T Czauderna, R Keller, F Mittag, M Schubert, M Glont, M Golebiewski, M van Iersel, S Keating, M Rall, M Wybrow, H Hermjakob, M Hucka, DB Kell, W M眉ller, P Mendes, A Zell, C Chaouiya, J Saez-Rodriguez, F Schreiber, C Laibe, A Dr盲ger, N Le Nov猫re Signalling

Systems biology projects and omics technologies have led to a growing number of biochemical pathway models and reconstructions. However, the majority of these models are still created de novo, based on literature mining and the manual processing of pathway data.

+view abstract BMC systems biology, PMID: 24180668 2013