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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.
 

Z Helyes, E Pint茅r, K S谩ndor, K Elekes, A B谩nv枚lgyi, D Keszthelyi, E Szoke, DM T贸th, Z S谩ndor, L Kereskai, G Pozsgai, JP Allen, PC Emson, A Markovics, J Szolcs谩nyi

We have shown that somatostatin released from activated capsaicin-sensitive nociceptive nerve endings during inflammatory processes elicits systemic anti-inflammatory and analgesic effects. With the help of somatostatin receptor subtype 4 gene-deleted mice (sst(4)(-/-)), we provide here several lines of evidence that this receptor has a protective role in a variety of inflammatory disease models; several symptoms are more severe in the sst(4) knockout animals than in their wild-type counterparts. Acute carrageenan-induced paw edema and mechanical hyperalgesia, inflammatory pain in the early phase of adjuvant-evoked chronic arthritis, and oxazolone-induced delayed-type hypersensitivity reaction in the skin are much greater in mice lacking the sst(4) receptor. Airway inflammation and consequent bronchial hyperreactivity elicited by intranasal lipopolysaccharide administration are also markedly enhanced in sst(4) knockouts, including increased perivascular/peribronchial edema, neutrophil/macrophage infiltration, mucus-producing goblet cell hyperplasia, myeloperoxidase activity, and IL-1beta, TNF-alpha, and IFN-gamma expression in the inflamed lung. It is concluded that during these inflammatory conditions the released somatostatin has pronounced counterregulatory effects through sst(4) receptor activation. Thus, this receptor is a promising novel target for developing anti-inflammatory, analgesic, and anti-asthmatic drugs.

+view abstract Proceedings of the National Academy of Sciences of the United States of America, PMID: 19622729 2009

Open Access
O Florey, DO Haskard Signalling

Sphingosine 1-phosphate (S1P) is a bioactive phospholipid that is released by platelets and endothelial cells and has been implicated in diverse biological functions. We hypothesized that S1P may influence immune complex-mediated polymorphonuclear neutrophil activation. Using flow cytometry and fluorescence spectrometry, we found that exogenous addition of S1P led to an enhanced polymorphonuclear neutrophil Fcgamma receptor-mediated rise in intracellular Ca(2+) and reactive oxygen species generation in a pertussis toxin-independent manner, while having only a small effect by itself. Thus, S1P amplifies a positive feedback loop where Fcgamma receptor-mediated rises in Ca(2+) and reactive oxygen species are interdependent, with reactive oxygen species acting to increase tyrosine phosphorylation and activity of upstream signaling intermediates. S1P augmentation of Fcgamma receptor signaling translates to downstream functional consequences, including shape change and recruitment to endothelial surfaces coated with suboptimal levels of immune complexes. Taken together, S1P from activated platelets or endothelial cells may serve to amplify leukocyte recruitment and tissue injury at sites of immune complex deposition in vasculitis.

+view abstract Journal of immunology (Baltimore, Md. : 1950), PMID: 19620297 2009

M Hemberger, W Dean, W Reik Epigenetics

Cells of the early mammalian embryo, including pluripotent embryonic stem (ES) cells and primordial germ cells (PGCs), are epigenetically dynamic and heterogeneous. During early development, this heterogeneity of epigenetic states is associated with stochastic expression of lineage-determining transcription factors that establish an intimate crosstalk with epigenetic modifiers. Lineage-specific epigenetic modification of crucial transcription factor loci (for example, methylation of the Elf5 promoter) leads to the restriction of transcriptional circuits and the fixation of lineage fate. The intersection of major epigenetic reprogramming and programming events in the early embryo creates plasticity followed by commitment to the principal cell lineages of the early conceptus.

+view abstract Nature reviews. Molecular cell biology, PMID: 19603040 2009

Open Access
Stefan MI, Edelstein SJ, Le Nov猫re N Signalling

Modellers using the MWC allosteric framework have often found it difficult to validate their models. Indeed many experiments are not conducted with the notion of alternative conformations in mind and therefore do not (or cannot) measure relevant microscopic constant and parameters. Instead, experimentalists widely use the Adair-Klotz approach in order to describe their experimental data.

+view abstract BMC systems biology, PMID: 19602261 2009

Open Access
D Liu, T Zhang, AJ Marshall, K Okkenhaug, B Vanhaesebroeck, JE Uzonna Immunology

Resistance to Leishmania major and most intracellular pathogens is usually associated with a strong T cell-mediated immunity, particularly a CD4(+) Th1 response. Mice with an inactivating knock-in mutation in the p110delta isoform of PI3K (referred to as p110delta(D910A)) show severely impaired T cell responses. Because a strong T cell response is thought to mediate resistance to intracellular pathogens, we examined the outcome of L. major infection in p110delta(D910A) mice. Paradoxically, p110delta(D910A) mice on "resistant" and "susceptible" genetic backgrounds showed more robust resistance manifested as significantly reduced lesion size and accelerated parasite clearance. This enhanced resistance was associated with dramatically diminished immune responses, including impaired cell proliferation and effector cytokine (IFN-gamma and TNF) production. Interestingly, the ability of macrophages and dendritic cells from p110delta(D910A) mice to produce NO and destroy Leishmania parasites was similar to those of wild-type mice. We show that the enhanced resistance of p110delta(D910A) mice was due to impaired expansion and effector functions of regulatory T cells (Tregs). Adoptive transfer studies demonstrated that p110delta(D910A) mice lost their increased resistance when given enriched Tregs from wild-type mice. We suggest on the basis of these and further observations that the lack of this enzyme prominently affects Treg expansion and homing to infection sites, and that in the absence of Tregs, weak Th1 responses are capable of containing parasites and prevent pathology. We also suggest that temporary pharmacological inhibition of this enzyme may be a very effective form of treatment against cutaneous leishmaniasis.

+view abstract Journal of immunology (Baltimore, Md. : 1950), PMID: 19596993 2009

MD Bootman, C Fearnley, I Smyrnias, F MacDonald, HL Roderick

Over the past 15 years or so, numerous studies have sought to characterise how nuclear calcium (Ca2+) signals are generated and reversed, and to understand how events that occur in the nucleoplasm influence cellular Ca2+ activity, and vice versa. In this Commentary, we describe mechanisms of nuclear Ca2+ signalling and discuss what is known about the origin and physiological significance of nuclear Ca2+ transients. In particular, we focus on the idea that the nucleus has an autonomous Ca2+ signalling system that can generate its own Ca2+ transients that modulate processes such as gene transcription. We also discuss the role of nuclear pores and the nuclear envelope in controlling ion flux into the nucleoplasm.

+view abstract Journal of cell science, PMID: 19571113 2009

LS Matheson, MJ Osborn, JA Smith, D Corcos, M Hamon, R Chaouaf, J Coadwell, G Morgan, D Oxley, M Br眉ggemann Bioinformatics

Recently, we identified that diverse heavy chain (H-chain)-only IgG is spontaneously produced in light chain (L-chain)-deficient mice (L(-/-) with silenced kappa and lambda loci) despite a block in B cell development. In murine H-chain IgG, the first Cgamma exon, C(H)1, is removed after DNA rearrangement and secreted polypeptides are comparable with camelid-type H-chain IgG. Here we show that L(-/-) mice generate a novel class of H-chain Ig with covalently linked alpha chains, not identified in any other healthy mammal. Surprisingly, diverse H-chain-only IgA can be released from B cells at levels similar to conventional IgA and is found in serum and sometimes in milk and saliva. Surface IgA without L-chain is expressed in B220(+) spleen cells, which exhibited a novel B cell receptor, suggesting that associated conventional differentiation events occur. To facilitate the cellular transport and release of H-chain-only IgA, chaperoning via BiP association seems to be prevented as only alpha chains lacking C(H)1 are released from the cell. This appears to be accomplished by imprecise class-switch recombination (CSR) from Smu into the alpha constant region, which removes all or part of the Calpha1 exon at the genomic level.

+view abstract International immunology, PMID: 19561045 2009

Open Access
A Sakamoto, LS Weinstein, A Plagge, M Eckhaus, G Kelsey Epigenetics

The heterotrimeric G protein alpha-subunit G(s)alpha links receptors to stimulation of cAMP/protein kinase A signaling, which inhibits skin fibroblast proliferation and collagen synthesis. We now describe the development of fibrous tumors in mice with heterozygous disruption of the Gnas gene, which encodes G(s)alpha and other gene products.

+view abstract Endocrine research, PMID: 19557586 2009

D Harzheim, M Movassagh, RS Foo, O Ritter, A Tashfeen, SJ Conway, MD Bootman, HL Roderick

Cardiac hypertrophy is a growth response of the heart to increased hemodynamic demand or damage. Accompanying this heart enlargement is a remodeling of Ca(2+) signaling. Due to its fundamental role in controlling cardiomyocyte contraction during every heartbeat, modifications in Ca(2+) fluxes significantly impact on cardiac output and facilitate the development of arrhythmias. Using cardiomyocytes from spontaneously hypertensive rats (SHRs), we demonstrate that an increase in Ca(2+) release through inositol 1,4,5-trisphosphate receptors (InsP(3)Rs) contributes to the larger excitation contraction coupling (ECC)-mediated Ca(2+) transients characteristic of hypertrophic myocytes and underlies the more potent enhancement of ECC-mediated Ca(2+) transients and contraction elicited by InsP(3) or endothelin-1 (ET-1). Responsible for this is an increase in InsP(3)R expression in the junctional sarcoplasmic reticulum. Due to their close proximity to ryanodine receptors (RyRs) in this region, enhanced Ca(2+) release through InsP(3)Rs served to sensitize RyRs, thereby increasing diastolic Ca(2+) levels, the incidence of extra-systolic Ca(2+) transients, and the induction of ECC-mediated Ca(2+) elevations. Unlike the increase in InsP(3)R expression and Ca(2+) transient amplitude in the cytosol, InsP(3)R expression and ECC-mediated Ca(2+) transients in the nucleus were not altered during hypertrophy. Elevated InsP(3)R2 expression was also detected in hearts from human patients with heart failure after ischemic dilated cardiomyopathy, as well as in aortic-banded hypertrophic mouse hearts. Our data establish that increased InsP(3)R expression is a general mechanism that underlies remodeling of Ca(2+) signaling during heart disease, and in particular, in triggering ventricular arrhythmia during hypertrophy.

+view abstract Proceedings of the National Academy of Sciences of the United States of America, PMID: 19549843 2009

Open Access
Lu LF, Liston A Immunology

The advent of microRNA has potentially uncovered a new level of complexity to be considered for every biological process. Through the modulation of transcription and translation, microRNA alter the basal state of cells and the outcome of stimulatory events. The exact effect of the microRNA network and individual microRNA on cellular processes is only just starting to be dissected. In the immune system, microRNA appear to have a key role in the early differentiation and effector differentiation of B cells. In T cells, microRNA have been shown to be key regulators of the lineage induction pathways, and to have a strong role in the induction, function and maintenance of the regulatory T-cell lineage. MicroRNA are also important for regulating the differentiation of dendritic cells and macrophages via toll-like receptors, with responsibilities in suppressing effector function before activation and enhancing function after stimulation. In addition to regulating key processes in the immune system, microRNA may also represent an archaic immune system themselves. Small interfering RNA of viral origin has been shown to function as an intracellular mediator in the suppression of viral infection in eukaryotes as diverse as plants, insects, nematodes and fungi, and there is growing evidence that endogenous mammalian microRNA can have similar impacts. In this article we speculate that the anti-viral function of microRNA drove the expression of different subsets of microRNA in different cellular lineages, which may have, in turn, led to the myriad of roles microRNA play in lineage differentiation and stability.

+view abstract Immunology, PMID: 19538248 2009

JJ Turnock-Jones, CA Jennings, MJ Robbins, JE Cluderay, J Cilia, JL Reid, A Taylor, DN Jones, PC Emson, E Southam

A hypofunction of the N-methyl-D-aspartate (NMDA) receptor has been implicated in the pathophysiology of schizophrenia. Compelling evidence of altered NMDA receptor subunit expression in the schizophrenic brain has not, however, so far emerged. Rats reared in isolation exhibit several characteristics, including disturbed sensory gating, which resemble those seen in schizophrenia. To explore the possibility that NMDA receptor dysfunction may contribute to the behavioral and neurochemical consequences of rearing rats in isolation, we compared NMDA receptor subunit expression in brains of rats which were housed in isolation and which displayed a deficit in prepulse inhibition of the acoustic startle response with that of socially housed controls. An initial microarray analysis revealed a 1.26-fold increase in NR2A transcript in the prefrontal cortex, but not in the nucleus accumbens, of rats reared in isolation compared with those housed socially. In contrast, NR1, NR2B, NR2C, NR2D, NR3A, and NR3B subunit expression was unchanged in either brain area. In a second cohort of animals, in situ hybridization revealed increased NR2A mRNA expression in the medial prefrontal cortex, an observation that was substantiated by increased [(3)H]CGP39653 binding suggesting that NR2A receptor subunit protein expression was also elevated in the medial prefrontal cortex of the same animals. No changes in expression of NR1 or NR2B subunits were observed at both mRNA and protein level. Altered NR2A subunit expression in the medial prefrontal cortex of rats reared in isolation suggests that NMDA receptor dysfunction may contribute to the underlying pathophysiology of this preclinical model of aspects of schizophrenia.

+view abstract Synapse (New York, N.Y.), PMID: 19533626 2009

R Apweiler, C Aslanidis, T Deufel, A Gerstner, J Hansen, D Hochstrasser, R Kellner, M Kubicek, F Lottspeich, E Maser, HW Mewes, HE Meyer, S M眉llner, W Mutter, M Neumaier, P Nollau, HG Nothwang, F Ponten, A Radbruch, K Reinert, G Rothe, H Stockinger, A Tarnok, MJ Taussig, A Thiel, J Thiery, M Ueffing, G Valet, J Vandekerckhove, W Verhuven, C Wagener, O Wagner, G Schmitz

The field of clinical proteomics offers opportunities to identify new disease biomarkers in body fluids, cells and tissues. These biomarkers can be used in clinical applications for diagnosis, stratification of patients for specific treatment, or therapy monitoring. New protein array formats and improved spectrometry technologies have brought these analyses to a level with potential for use in clinical diagnostics. The nature of the human body fluid proteome with its large dynamic range of protein concentrations presents problems with quantitation. The extreme complexity of the proteome in body fluids presents enormous challenges and requires the establishment of standard operating procedures for handling of specimens, increasing sensitivity for detection and bioinformatical tools for distribution of proteomic data into the public domain. From studies of in vitro diagnostics, especially in clinical chemistry, it is evident that most errors occur in the preanalytical phase and during implementation of the diagnostic strategy. This is also true for clinical proteomics, and especially for fluid proteomics because of the multiple pretreatment processes. These processes include depletion of high-abundance proteins from plasma or enrichment processes for urine where biological variation or differences in proteolytic activities in the sample along with preanalytical variables such as inter- and intra-assay variability will likely influence the results of proteomics studies. However, before proteomic analysis can be introduced at a broader level into the clinical setting, standardization of the preanalytical phase including patient preparation, sample collection, sample preparation, sample storage, measurement and data analysis needs to be improved. In this review, we discuss the recent technological advances and applications that fulfil the criteria for clinical proteomics, with the focus on fluid proteomics. These advances relate to preanalytical factors, analytical standardization and quality-control measures required for effective implementation into routine laboratory testing in order to generate clinically useful information. With new disease biomarker candidates, it will be crucial to design and perform clinical studies that can identify novel diagnostic strategies based on these techniques, and to validate their impact on clinical decision-making.

+view abstract Clinical chemistry and laboratory medicine : CCLM / FESCC, PMID: 19527139 2009

C Eskiw, P Fraser

+view abstract Nature cell biology, PMID: 19488058 2009

Open Access
S Hadjur, LM Williams, NK Ryan, BS Cobb, T Sexton, P Fraser, AG Fisher, M Merkenschlager

Cohesin-mediated sister chromatid cohesion is essential for chromosome segregation and post-replicative DNA repair. In addition, evidence from model organisms and from human genetics suggests that cohesin is involved in the control of gene expression. This non-canonical role has recently been rationalized by the findings that mammalian cohesin complexes are recruited to a subset of DNase I hypersensitive sites and to conserved noncoding sequences by the DNA-binding protein CTCF. CTCF functions at insulators (which control interactions between enhancers and promoters) and at boundary elements (which demarcate regions of distinct chromatin structure), and cohesin contributes to its enhancer-blocking activity. The underlying mechanisms remain unknown, and the full spectrum of cohesin functions remains to be determined. Here we show that cohesin forms the topological and mechanistic basis for cell-type-specific long-range chromosomal interactions in cis at the developmentally regulated cytokine locus IFNG. Hence, the ability of cohesin to constrain chromosome topology is used not only for the purpose of sister chromatid cohesion, but also to dynamically define the spatial conformation of specific loci. This new aspect of cohesin function is probably important for normal development and disease.

+view abstract Nature, PMID: 19458616 2009

Open Access
K Gollmer, F Asperti-Boursin, Y Tanaka, K Okkenhaug, B Vanhaesebroeck, JR Peterson, Y Fukui, E Donnadieu, JV Stein Immunology

CD4(+) T cells use the chemokine receptor CCR7 to home to and migrate within lymphoid tissue, where T-cell activation takes place. Using primary T-cell receptor (TCR)-transgenic (tg) CD4(+) T cells, we explored the effect of CCR7 ligands, in particular CCL21, on T-cell activation. We found that the presence of CCL21 during early time points strongly increased in vitro T-cell proliferation after TCR stimulation, correlating with increased expression of early activation markers. CCL21 costimulation resulted in increased Ras- and Rac-GTP formation and enhanced phosphorylation of Akt, MEK, and ERK but not p38 or JNK. Kinase-dead PI3Kdelta(D910A/D910A) or PI3Kgamma-deficient TCR-tg CD4(+) T cells showed similar responsiveness to CCL21 costimulation as control CD4(+) T cells. Conversely, deficiency in the Rac guanine exchange factor DOCK2 significantly impaired CCL21-mediated costimulation in TCR-tg CD4(+) T cells, concomitant with impaired Rac- but not Ras-GTP formation. Using lymph node slices for live monitoring of T-cell behavior and activation, we found that G protein-coupled receptor signaling was required for early CD69 expression but not for Ca(2+) signaling. Our data suggest that the presence of CCL21 during early TCR signaling lowers the activation threshold through Ras- and Rac-dependent pathways leading to increased ERK phosphorylation.

+view abstract Blood, PMID: 19451552 2009

Wolkenhauer O, Fell D, De Meyts P, Bl眉thgen N, Herzel H, Le Nov猫re N, H枚fer T, Sch眉rrle K, van Leeuwen I Signalling

The following report selects and summarises some of the conclusions and recommendations generated throughout a series of workshops and discussions that have lead to the publication of the Science Policy Briefing (SPB) Nr. 35, published by the European Science Foundation. (Large parts of the present text are directly based on the ESF SPB. Detailed recommendations with regard to specific application areas are not given here but can be found in the SPB. Issues related to mathematical modelling, including training and the need for an infrastructure supporting modelling are discussed in greater detail in the present text.)The numerous reports and publications about the advances within the rapidly growing field of systems biology have led to a plethora of alternative definitions for key concepts. Here, with 'mathematical modelling' the authors refer to the modelling and simulation of subcellular, cellular and macro-scale phenomena, using primarily methods from dynamical systems theory. The aim of such models is encoding and testing hypotheses about mechanisms underlying the functioning of cells. Typical examples are models for molecular networks, where the behaviour of cells is expressed in terms of quantitative changes in the levels of transcripts and gene products. Bioinformatics provides essential complementary tools, including procedures for pattern recognition, machine learning, statistical modelling (testing for differences, searching for associations and correlations) and secondary data extracted from databases.Dynamical systems theory is the natural language to investigate complex biological systems demonstrating nonlinear spatio-temporal behaviour. However, the generation of experimental data suitable to parameterise, calibrate and validate such models is often time consuming and expensive or not even possible with the technology available today. In our report, we use the term 'computational model' when mathematical models are complemented with information generated from bioinformatics resources. Hence, 'the model' is, in reality, an integrated collection of data and models from various (possibly heterogeneous) sources. The present report focuses on a selection of topics, which were identified as appropriate case studies for medical systems biology, and adopts a particular perspective which the authors consider important. We strongly believe that mathematical modelling represents a natural language with which to integrate data at various levels and, in doing so, to provide insight into complex diseases: 1. Modelling necessitates the statement of explicit hypotheses, a process which often enhances comprehension of the biological system and can uncover critical points where understanding is lacking. 2. Simulations can reveal hidden patterns and/or counter-intuitive mechanisms in complex systems. 3. Theoretical thinking and mathematical modelling constitute powerful tools to integrate and make sense of the biological and clinical information being generated and, more importantly, to generate new hypotheses that can then be tested in the laboratory.Medical Systems Biology projects carried out recently across Europe have revealed a need for action: 4. While the need for mathematical modelling and interdisciplinary collaborations is becoming widely recognised in the biological sciences, with substantial implications for the training and research funding mechanisms within this area, the medical sciences have yet to follow this lead. 5. To achieve major breakthroughs in Medical Systems Biology, existing academic funding schemes for large-scale projects need to be reconsidered. 6. The hesitant stance of the pharmaceutical industry towards major investment in systems biology research has to be addressed. 7. Leading medical journals should be encouraged to promote mathematical modelling.

+view abstract IET systems biology, PMID: 19449974 2009

SA Rudge, MJ Wakelam Signalling

Phospholipase D activity has been extensively implicated in the regulation of the actin cytoskeleton. Through this regulation the enzyme controls a number of physiological functions such as cell migration and adhesion and, it also is implicated in the regulation of membrane trafficking. The two phospholipase Ds are closely implicated with the control of the ARF and Rho families of small GTPases. In this article it is proposed that PLD2 plays the role of 'master regulator' and in an ill-defined manner regulates Rho function, PLD1 activity is downstream of this activation, however the generated phosphatidic acid controls changes in cytoskeletal organisation through its regulation of phosphatidylinositol-4-phosphate-5-kinase activity.

+view abstract Biochimica et biophysica acta, PMID: 19422932 2009

G Kelsey Epigenetics

The hallmarks of epigenetics--the memory of defining earlier developmental events and the distinction of active and inactive genes--are exemplified by imprinted genes. In this article, I shall consider the imprinted Gnas locus in some detail. Gnas encodes the stimulatory G-protein subunit, Gsalpha, an essential intermediate between receptor coupling and cyclic adenosine monophosphate generation. It provides an excellent illustration of the pleiotropic effects of imprinted genes, particularly on skeletal growth and metabolism, and is a powerful example of the conflicting effects of imprinted genes with opposing patterns of imprinting. I shall describe the effects of Gsalpha deficiency in humans and the knowledge gained from genetic manipulation in the mouse. Finally, given the pervasive effects of imprinted genes, I shall discuss the likelihood that epigenetic deregulation, for example of imprinted genes, could contribute to the developmental programming of chronic adult diseases.

+view abstract Hormone research, PMID: 19407493 2009

Liston A, Kim JM Immunology

+view abstract Immunology and cell biology, PMID: 19399027 0

O Stoevesandt, MJ Taussig, M He

Protein microarrays are versatile tools for parallel, miniaturized screening of binding events involving large numbers of immobilized proteins in a time- and cost-effective manner. They are increasingly applied for high-throughput protein analyses in many research areas, such as protein interactions, expression profiling and target discovery. While conventionally made by the spotting of purified proteins, recent advances in technology have made it possible to produce protein microarrays through in situ cell-free synthesis directly from corresponding DNA arrays. This article reviews recent developments in the generation of protein microarrays and their applications in proteomics and diagnostics.

+view abstract Expert review of proteomics, PMID: 19385942 2009

Open Access
S Roper, M Hemberger Epigenetics

The molecular processes that govern the first cell lineage decisions after fertilization also dictate the developmental potency of stem cells derived from the early mouse embryo. Our understanding of these mechanisms is therefore instrumental for stem cell biology and regenerative medicine. A number of transcription factors are known that determine a cell's fate towards either the embryonic or extraembryonic trophoblast lineages. Recent insights have shown that the definitive fixation of cell lineage fate is achieved by an epigenetic restriction through DNA methylation of the transcription factor Elf5. Lineage crossover can be induced, however, by manipulation of lineage determinants and gatekeepers, or their epigenetic regulation. Here we summarize the accumulating number of experimental conditions where such 'transdifferentiation' is observed that shed light onto the genetic and epigenetic pathways involved in lineage separation and the developmental potential of stem cells.

+view abstract Cell cycle (Georgetown, Tex.), PMID: 19377304 2009

Open Access
Endler L, Rodriguez N, Juty N, Chelliah V, Laibe C, Li C, Le Nov猫re N Signalling

A key component of any synthetic biology effort is the use of quantitative models. These models and their corresponding simulations allow optimization of a system design, as well as guiding their subsequent analysis. Once a domain mostly reserved for experts, dynamical modelling of gene regulatory and reaction networks has been an area of growth over the last decade. There has been a concomitant increase in the number of software tools and standards, thereby facilitating model exchange and reuse. We give here an overview of the model creation and analysis processes as well as some software tools in common use. Using markup language to encode the model and associated annotation, we describe the mining of components, their integration in relational models, formularization and parametrization. Evaluation of simulation results and validation of the model close the systems biology 'loop'.

+view abstract Journal of the Royal Society, Interface / the Royal Society, PMID: 19364720 2009

P Raghu, RC Hardie

The Drosophila TRPC channels TRP and TRPL are the founding members of the TRP superfamily of ion channels, which are important components of calcium influx pathways in virtually all cells. The activation of these channels in the context of fly phototransduction is one of the few in vivo models for TRPC channel activation and has served as a paradigm for understanding TRPC function. TRP and TRPL are activated by G-protein coupled PIP(2) hydrolysis through a mechanism in which IP(3) receptor mediated calcium release seems dispensable. Recent analysis has provided compelling evidence that one or more PIP(2) generated lipid messengers, as well as PIP(2) itself, are essential for regulating TRP and TRPL activity. Evidence on the role of these lipid elements in regulating TRP and TRPL activity is discussed in this review.

+view abstract Cell calcium, PMID: 19362736 2009

L Gasparini, RA Crowther, KR Martin, N Berg, M Coleman, M Goedert, MG Spillantini Signalling

Tau inclusions play a key role in the pathogenesis of tauopathies. Altered tau levels have been detected in retina and optic nerve of patients with glaucoma, suggesting the possibility of shared pathogenic mechanisms with tauopathies. Here we report that hyperphosphorylated transgenic tau accumulates in the nerve fibre layer and, from 2 months of age, aggregates into filamentous inclusions in retinal ganglion cells of human P301S tau transgenic mice. Axonopathy and accumulation of hyperphosphorylated tau in the nerve fibre layer preceded inclusion formation. Hyperphosphorylated tau and tau inclusions were also detected in cultured retinal explants from 5-month-old transgenic mice. Axonal outgrowth was similar in transgenic and wild-type retinal explants under basal conditions. However, when exposed to growth-promoting stimuli, axon elongation was enhanced in explants from wild-type but not transgenic mice, indicating that the presence of abnormal tau can impair stimulated axonal outgrowth. These findings suggest that the retina is a good model system for investigating tau-driven neurodegeneration and for assessing potential pharmacological modifiers for tauopathies.

+view abstract Neurobiology of aging, PMID: 19356824 2011