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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
K Ali, DR Soond, R Pi帽eiro, T Hagemann, W Pearce, EL Lim, H Bouabe, CL Scudamore, T Hancox, H Maecker, L Friedman, M Turner, K Okkenhaug, B Vanhaesebroeck Immunology

Inhibitors against the p110脦麓 isoform of phosphoinositide-3-OH kinase (PI(3)K) have shown remarkable therapeutic efficacy in some human leukaemias. As p110脦麓 is primarily expressed in leukocytes, drugs against p110脦麓 have not been considered for the treatment of solid tumours. Here we report that p110脦麓 inactivation in mice protects against a broad range of cancers, including non-haematological solid tumours. We demonstrate that p110脦麓 inactivation in regulatory T芒鈧癱ells unleashes CD8(+) cytotoxic T芒鈧癱ells and induces tumour regression. Thus, p110脦麓 inhibitors can break tumour-induced immune tolerance and should be considered for wider use in oncology.

+view abstract Nature, PMID: 24919154 2014

Open Access
Liefhebber JM,Hague CV,Zhang Q,Wakelam MJ,McLauchlan J Signalling,Lipidomics

In hepatitis C virus infection, replication of the viral genome and virion assembly are linked to cellular metabolic processes. In particular, lipid droplets, which store principally triacylglycerides (TAGs) and cholesterol esters (CEs), have been implicated in production of infectious virus. Here, we examine the effect on productive infection of triacsin C and YIC-C8-434, which inhibit synthesis of TAGs and CEs by targeting long-chain acyl-CoA synthetase and acyl-CoA:cholesterol acyltransferase, respectively. Our results present high resolution data on the acylglycerol and cholesterol ester species that were affected by the compounds. Moreover, triacsin C, which blocks both triglyceride and cholesterol ester synthesis, cleared most of the lipid droplets in cells. By contrast, YIC-C8-434, which only abrogates production of cholesterol esters, induced an increase in size of droplets. Although both compounds slightly reduced viral RNA synthesis, they significantly impaired assembly of infectious virions in infected cells. In the case of triacsin C, reduced stability of the viral core protein, which forms the virion nucleocapsid and is targeted to the surface of lipid droplets, correlated with lower virion assembly. In addition, the virus particles that were released from cells had reduced specific infectivity. YIC-C8-434 did not alter the association of core with lipid droplets but appeared to decrease production of infectious virus particles, suggesting a block in virion assembly. Thus, the compounds have antiviral properties, indicating that targeting synthesis of lipids stored in lipid droplets might be an option for therapeutic intervention in treating chronic hepatitis C virus infection.

+view abstract The Journal of biological chemistry, PMID: 24917668 2014

Open Access
Gutierrez DA, Fu W, Schonefeldt S, Feyerabend TB, Ortiz-Lopez A, Lampi Y, Liston A, Mathis D, Rodewald HR Immunology

Mast cells have been invoked as important players in immune responses associated with autoimmune diseases. Based on in vitro studies, or in vivo through the use of Kit mutant mice, mast cells have been suggested to play immunological roles in direct antigen presentation to both CD4(+) and CD8(+) T cells, in the regulation of T-cell and dendritic cell migration to lymph nodes, and in Th1 versus Th2 polarization, all of which could significantly impact the immune response against self-antigens in autoimmune disease, including type 1 diabetes (T1D). Until now, the role of mast cells in the onset and incidence of T1D has only been indirectly tested through the use of low-specificity mast cell inhibitors and activators, and published studies reported contrasting results. Our three laboratories have generated independently two strains of mast cell-deficient nonobese diabetic (NOD) mice, NOD.Cpa3(Cre/+) (Heidelberg) and NOD.Kit(W-sh/W-sh) (Leuven and Boston), to address the effects of mast cell deficiency on the development of T1D in the NOD strain. Our collective data demonstrate that both incidence and progression of T1D in NOD mice are independent of mast cells. Moreover, analysis of pancreatic lymph node cells indicated that lack of mast cells has no discernible effect on the autoimmune response, which involves both innate and adaptive immune components. Our results demonstrate that mast cells are not involved in T1D in the NOD strain, making their role in this process nonessential and excluding them as potential therapeutic targets.

+view abstract Diabetes, PMID: 24917576 2014

Harewood L, Fraser P

The effects that coding region single-nucleotide polymorphisms or mutations have on gene expression have been well documented, predominantly owing to their association with disease. The effects of structural chromosomal rearrangements are also receiving increasing attention with the development of new techniques that allow accurate, high-resolution data, whether genomic interaction or transcriptome data, to be generated right down to the single-cell level. Over the past 18 months, these advances in experimental techniques have been used to further confirm and delineate the substantial effects that chromosome rearrangements can have on the regulation of gene expression and provide evidence of direct links between the two.

+view abstract Human molecular genetics, PMID: 24907073 2014

Open Access
Marangoni M, Adalbert R, Janeckova L, Patrick J, Kohli J, Coleman MP, Conforti L Signalling

Axon degeneration precedes cell body death in many age-related neurodegenerative disorders, often determining symptom onset and progression. A sensitive method for revealing axon pathology could indicate whether this is the case also in Huntington's disease (HD), a fatal, devastating neurodegenerative disorder causing progressive deterioration of both physical and mental abilities, and which brain region is affected first. We studied the spatio-temporal relationship between axon pathology, neuronal loss, and mutant Huntingtin aggregate formation in HD mouse models by crossing R6/2 transgenic and HdhQ140 knock-in mice with YFP-H mice expressing the yellow fluorescent protein in a subset of neurons. We found large axonal swellings developing age-dependently first in stria terminalis and then in corticostriatal axons of HdhQ140 mice, whereas alterations of other neuronal compartments could not be detected. Although mutant Huntingtin accumulated with age in several brain areas, inclusions in the soma did not correlate with swelling of the corresponding axons. Axon abnormalities were not a prominent feature of the rapid progressive pathology of R6/2 mice. Our findings in mice genetically similar to HD patients suggest that axon pathology is an early event in HD and indicate the importance of further studies of stria terminalis axons in man.

+view abstract Neurobiology of aging, PMID: 24906892 2014

Open Access
Lee HJ, Hore TA, Reik W Epigenetics

The inheritance of epigenetic marks, in particular DNA methylation, provides a molecular memory that ensures faithful commitment to transcriptional programs during mammalian development. Epigenetic reprogramming results in global hypomethylation of the genome together with a profound loss of memory, which underlies naive pluripotency. Such global reprogramming occurs in primordial germ cells, early embryos, and embryonic stem cells where reciprocal molecular links connect the methylation machinery to pluripotency. Priming for differentiation is initiated upon exit from pluripotency, and we propose that epigenetic mechanisms create diversity of transcriptional states, which help with symmetry breaking during cell fate decisions and lineage commitment.

+view abstract Cell stem cell, PMID: 24905162 2014

Kendrick KM, Atkins K, Hinton MR, Heavens P, Keverne B

We have previously shown that sheep, like monkeys, have neural circuits within the temporal lobe that respond preferentially to faces. They can also discriminate between sheep, humans and other animals on the basis of facial cues using an enclosed Y-maze. In the present study we investigated the speed with which Clun Forest sheep learn to discriminate between familiar and unfamiliar faces, as opposed to symbols, in order to gain a food reward using the same Y-maze apparatus. Animals (n = 10) received 1 day of training where projected images of the pairs of faces or symbols were paired for 20 trials with a picture of either an empty or full bucket of food (which indicated which choice of face or symbol would result in the animal receiving a food reward) and on the next 4 days they were given a further 20 trials a day with the faces or symbols alone. Results showed that sheep learned significantly faster (by day 1 or 2 post training) to recognise sheep faces of a familiar breed compared to geometrical symbols (3-4 days post training). Learning using faces of animals of another unfamiliar breed was also significantly better than for symbols but was significantly worse than that seen using faces of a familiar breed. Inverting the faces significantly reduced learning speed for faces of a familiar breed but not for that of an unfamiliar one. Inverting familiar objects, food buckets, also did not impair discriminatory performance. In a further set of trials where discrimination learning was made more difficult by excluding cued trials and reducing the number of daily trials to eight, social familiarity was found to further improve the animal's ability to learn to discriminate between the faces of a familiar breed. Finally, while discriminatory performance for adult sheep faces was very good, that for young lamb faces was poor, with only one animal learning to choose the face associated with food. It was confirmed in maternal ewes that they were also slow to learn to recognise the faces of their lambs (2-3 weeks). Overall these results show that sheep can learn to distinguish between individual adult sheep faces but that breed and social familiarity influence the level of performance. Further, discrimination learning of familiar and unfamiliar facial stimuli is better than between simple geometrical symbols, indicating that faces may be preferentially processed by the brain compared to other objects suggesting that faces are indeed special in this species as has been claimed for human and non-human primates.

+view abstract Behavioural processes, PMID: 24897627

Open Access
M Spivakov

Transcription factor binding sites (TFBSs) on the DNA are generally accepted as the key nodes of gene control. However, the multitudes of TFBSs identified in genome-wide studies, some of them seemingly unconstrained in evolution, have prompted the view that in many cases TF binding may serve no biological function. Yet, insights from transcriptional biochemistry, population genetics and functional genomics suggest that rather than segregating into 芒鈧渇unctional芒鈧劉 or 芒鈧渘on-functional芒鈧劉, TFBS inputs to their target genes may be generally cumulative, with varying degrees of potency and redundancy. As TFBS redundancy can be diminished by mutations and environmental stress, some of the apparently 芒鈧渟purious芒鈧劉 sites may turn out to be important for maintaining adequate transcriptional regulation under these conditions. This has significant implications for interpreting the phenotypic effects of TFBS mutations, particularly in the context of genome-wide association studies for complex traits.

+view abstract BioEssays, PMID: 24888900 2014

Open Access
Rohwedder A,Zhang Q,Rudge SA,Wakelam MJ Signalling,Lipidomics

It is unclear how changes in lipid droplet size and number are regulated - for example, it is not known whether this involves a signalling pathway or is directed by cellular lipid uptake. Here, we show that oleic acid stimulates lipid droplet formation by activating the long-chain fatty acid receptor FFAR4, which signals through a pertussis-toxin-sensitive G-protein signalling pathway involving phosphoinositide 3-kinase (PI3-kinase), AKT (also known as protein kinase B) and phospholipase D (PLD) activities. This initial lipid droplet formation is not dependent upon exogenous lipid, whereas the subsequent more sustained increase in the number of lipid droplets is dependent upon lipid uptake. These two mechanisms of lipid droplet formation point to distinct potential intervention points.

+view abstract Journal of cell science, PMID: 24876224 2014

Open Access
Cooper S, Dienstbier M, Hassan R, Schermelleh L, Sharif J, Blackledge NP, De Marco V, Elderkin S, Koseki H, Klose R, Heger A, Brockdorff N

The mechanisms by which the major Polycomb group (PcG) complexes PRC1 and PRC2 are recruited to聽target sites in vertebrate cells are not well understood. Building on recent studies that determined a聽reciprocal relationship between DNA methylation聽and Polycomb activity, we demonstrate that, in methylation-deficient embryonic stem cells (ESCs), CpG density combined with antagonistic effects of H3K9me3 and H3K36me3 redirects PcG complexes to pericentric heterochromatin and gene-rich domains. Surprisingly, we find that PRC1-linked H2A monoubiquitylation is sufficient to recruit PRC2 to chromatin in聽vivo, suggesting a mechanism through which recognition of unmethylated CpG determines the localization of both PRC1 and PRC2 at canonical and atypical target sites. We discuss our data in light of emerging evidence suggesting that PcG recruitment is a default state at licensed chromatin sites, mediated by interplay between CpG hypomethylation and counteracting H3 tail modifications.

+view abstract Cell reports, PMID: 24857660 2014

Open Access
Mayer MC, Kaden D, Schauenburg L, Hancock MA, Voigt P, Roeser D, Barucker C, Than ME, Schaefer M, Multhaup G Epigenetics

The amyloid precursor protein (APP) and the APP-like proteins 1 and 2 (APLP1 and APLP2) are a family of multidomain transmembrane proteins possessing homo- and heterotypic contact sites in their ectodomains. We previously reported that divalent metal ions dictate the conformation of the extracellular APP E2 domain (Dahms, S. O., K枚nnig, I., Roeser, D., G眉hrs, K.-H., Mayer, M. C., Kaden, D., Multhaup, G., and Than, M. E. (2012) J. Mol. Biol. 416, 438-452), but unresolved is the nature and functional importance of metal ion binding to APLP1 and APLP2. We found here that zinc ions bound to APP and APLP1 E2 domains and mediated their oligomerization, whereas the APLP2 E2 domain interacted more weakly with zinc possessing a less surface-exposed zinc-binding site, and stayed monomeric. Copper ions bound to E2 domains of all three proteins. Fluorescence resonance energy transfer (FRET) analyses examined the effect of metal ion binding to APP and APLPs in the cellular context in real time. Zinc ions specifically induced APP and APLP1 oligomerization and forced APLP1 into multimeric clusters at the plasma membrane consistent with zinc concentrations in the blood and brain. The observed effects were mediated by a novel zinc-binding site within the APLP1 E2 domain as APLP1 deletion mutants revealed. Based upon its cellular localization and its dominant response to zinc ions, APLP1 is mainly affected by extracellular zinc among the APP family proteins. We conclude that zinc binding and APP/APLP oligomerization are intimately linked, and we propose that this represents a novel mechanism for regulating APP/APLP protein function at the molecular level.

+view abstract The Journal of biological chemistry, PMID: 24855651

Open Access
Dautova Y, Kozlova D, Skepper JN, Epple M, Bootman MD, Proudfoot D Signalling

Calcification is a detrimental process in vascular ageing and in diseases such as atherosclerosis and arthritis. In particular, small calcium phosphate (CaP) crystal deposits are associated with inflammation and atherosclerotic plaque de-stabilisation. We previously reported that CaP particles caused human vascular smooth muscle cell (VSMC) death and that serum reduced the toxic effects of the particles. Here, we found that the serum proteins fetuin-A and albumin (鈮 1 碌M) reduced intracellular Ca2+ elevations and cell death in VSMCs in response to CaP particles. In addition, CaP particles functionalised with fetuin-A, but not albumin, were less toxic than naked CaP particles. Electron microscopic studies revealed that CaP particles were internalised in different ways; via macropinocytosis, membrane invagination or plasma membrane damage, which occurred within 10 minutes of exposure to particles. However, cell death did not occur until approximately 30 minutes, suggesting that plasma membrane repair and survival mechanisms were activated. In the presence of fetuin-A, CaP particle-induced damage was inhibited and CaP/plasma membrane interactions and particle uptake were delayed. Fetuin-A also reduced dissolution of CaP particles under acidic conditions, which may contribute to its cytoprotective effects after CaP particle exposure to VSMCs. These studies are particularly relevant to the calcification observed in blood vessels in patients with kidney disease, where circulating levels of fetuin-A and albumin are low, and in pathological situations where CaP crystal formation outweighs calcification-inhibitory mechanisms.

+view abstract PloS one, PMID: 24849210 2014

Gray DH, Liston A Immunology

+view abstract Nature immunology, PMID: 24840991 2014

M Turner, A Galloway, E Vigorito

The rapid changes in gene expression that accompany developmental transitions, stress responses and proliferation are controlled by signal-mediated coordination of transcriptional and post-transcriptional mechanisms. In recent years, understanding of the mechanics of these processes and the contexts in which they are employed during hematopoiesis and immune challenge has increased. An important aspect of this progress is recognition of the importance of RNA-binding proteins and noncoding RNAs. These have roles in the development and function of the immune system and in pathogen life cycles, and they represent an important aspect of intracellular immunity.

+view abstract Nature immunology, PMID: 24840979 2014

Open Access
Conforti L, Gilley J, Coleman MP Signalling

Axon degeneration is a prominent early feature of most neurodegenerative disorders and can also be induced directly by nerve injury in a process known as Wallerian degeneration. The discovery of genetic mutations that delay Wallerian degeneration has provided insight into mechanisms underlying axon degeneration in disease. Rapid Wallerian degeneration requires the pro-degenerative molecules SARM1 and PHR1. Nicotinamide mononucleotide adenylyltransferase 2 (NMNAT2) is essential for axon growth and survival. Its loss from injured axons may activate Wallerian degeneration, whereas NMNAT overexpression rescues axons from degeneration. Here, we discuss the roles of these and other proposed regulators of Wallerian degeneration, new opportunities for understanding disease mechanisms and intriguing links between Wallerian degeneration, innate immunity, synaptic growth and cell death.

+view abstract Nature reviews. Neuroscience, PMID: 24840802 2014

Open Access
Ji Y, Abrams N, Zhu W, Salinas E, Yu Z, Palmer DC, Jailwala P, Franco Z, Roychoudhuri R, Stahlberg E, Gattinoni L, Restifo NP Immunology

The pmel-1 T cell receptor transgenic mouse has been extensively employed as an ideal model system to study the mechanisms of tumor immunology, CD8+ T cell differentiation, autoimmunity and adoptive immunotherapy. The 'zygosity' of the transgene affects the transgene expression levels and may compromise optimal breeding scheme design. However, the integration sites for the pmel-1 mouse have remained uncharacterized. This is also true for many other commonly used transgenic mice created before the modern era of rapid and inexpensive next-generation sequencing. Here, we show that whole genome sequencing can be used to determine the exact pmel-1 genomic integration site, even with relatively 'shallow' (8X) coverage. The results were used to develop a validated polymerase chain reaction-based genotyping assay. For the first time, we provide a quick and convenient polymerase chain reaction method to determine the dosage of pmel-1 transgene for this freely and publically available mouse resource. We also demonstrate that next-generation sequencing provides a feasible approach for mapping foreign DNA integration sites, even when information of the original vector sequences is only partially known.

+view abstract PloS one, PMID: 24827921 2014

Open Access
H Koohy, TA Down, M Spivakov, T Hubbard

Genome-wide profiling of open chromatin regions using DNase I and high-throughput sequencing (DNase-seq) is an increasingly popular approach for finding and studying regulatory elements. A variety of algorithms have been developed to identify regions of open chromatin from raw sequence-tag data, which has motivated us to assess and compare their performance. In this study, four published, publicly available peak calling algorithms used for DNase-seq data analysis (F-seq, Hotspot, MACS and ZINBA) are assessed at a range of signal thresholds on two published DNase-seq datasets for three cell types. The results were benchmarked against an independent dataset of regulatory regions derived from ENCODE in vivo transcription factor binding data for each particular cell type. The level of overlap between peak regions reported by each algorithm and this ENCODE-derived reference set was used to assess sensitivity and specificity of the algorithms. Our study suggests that F-seq has a slightly higher sensitivity than the next best algorithms. Hotspot and the ChIP-seq oriented method, MACS, both perform competitively when used with their default parameters. However the generic peak finder ZINBA appears to be less sensitive than the other three. We also assess accuracy of each algorithm over a range of signal thresholds. In particular, we show that the accuracy of F-Seq can be considerably improved by using a threshold setting that is different from the default value.

+view abstract PLOS ONE, PMID: 24810143 2014

Open Access
CL Marriott, EC Mackley, C Ferreira, M Veldhoen, H Yagita, DR Withers

To investigate the importance of OX40 signals for physiological CD4(+) T-cell responses, an endogenous antigen-specific population of CD4(+) T cells that recognise the 2W1S peptide was assessed and temporal control of OX40 signals achieved using blocking or agonistic Abs in vivo. Following infection with Listeria monocytogenes expressing 2W1S peptide, OX40 was briefly expressed by the responding 2W1S-specific CD4(+) T cells, but only on a subset that co-expressed effector cell markers. This population was specifically expanded by Ab-ligation of OX40 during priming, which also caused skewing of the memory response towards effector memory cells. Strikingly, this greatly enhanced effector response was accompanied by the loss of T follicular helper cells and germinal centres. Mice deficient in OX40 and CD30 showed normal generation of T follicular helper cells but impaired numbers of 2W1S-specific effector cells. OX40 was not expressed by 2W1S-specific memory cells, although it was rapidly up-regulated upon challenge where upon Ab-ligation of OX40 specifically affected the effector subset. In summary, these data indicate that for CD4(+) T cells, OX40 signals are important for generation of effector T cells rather than T follicular helper cells in this response to acute bacterial infection. This article is protected by copyright. All rights reserved.

+view abstract European journal of immunology, PMID: 24771127 2014

Open Access
Wakelam MJ Signalling,Lipidomics

The advent of mass spectrometric methods has facilitated the determination of multiple molecular species of cellular lipid classes including the polyphosphoinositides, though to date methods to analyse and quantify each of the individual three PtdInsP and three PtdInsP2 species are lacking. The use of imaging methods has allowed intracellular localization of the phosphoinositide classes but this methodology does not determine the acyl structures. The range of molecular species suggests a greater complexity in polyphosphoinositide signaling than yet defined but elucidating this will require further method development to be achieved. This article is part of a Special Issue entitled Tools to study lipid functions.

+view abstract Biochimica et biophysica acta, PMID: 24769341 2014

Open Access
Samant RS, Clarke PA, Workman P Signalling

The molecular chaperone heat shock protein 90 (HSP90) is required for the activity and stability of its client proteins. Pharmacologic inhibition of HSP90 leads to the ubiquitin-mediated degradation of clients, particularly activated or mutant oncogenic protein kinases. Client ubiquitination occurs via the action of one or more E3 ubiquitin ligases. We sought to identify the role of Cullin-RING family E3 ubiquitin ligases in the cellular response to HSP90 inhibition. Through a focused siRNA screen of 28 Cullin-RING ligase family members, we found that CUL5 and RBX2 were required for degradation of several HSP90 clients upon treatment of human cancer cells with the clinical HSP90 inhibitor 17-AAG. Surprisingly, silencing Cullin-5 (CUL5) also delayed the earlier loss of HSP90 client protein activity at the same time as delaying cochaperone dissociation from inhibited HSP90-client complexes. Expression of a dominant-negative CUL5 showed that NEDD8 conjugation of CUL5 is required for client degradation but not for loss of client activity or recruitment of clients and HSP90 to CUL5. Silencing CUL5 reduced cellular sensitivity to three distinct HSP90 inhibitors, across four cancer types driven by different protein kinases. Our results reveal the importance of CUL5 in multiple aspects of the cellular response to HSP90 inhibition.

+view abstract Proceedings of the National Academy of Sciences of the United States of America, PMID: 24760825 2014

Open Access
Roessler R, Smallwood SA, Veenvliet JV, Pechlivanoglou P, Peng SP, Chakrabarty K, Groot-Koerkamp MJ, Pasterkamp RJ, Wesseling E, Kelsey G, Boddeke E, Smidt MP, Copray S Epigenetics

Induced pluripotent stem cells (iPSCs) hold great promise for in聽vitro generation of disease-relevant cell types, such as mesodiencephalic dopaminergic (mdDA) neurons involved in Parkinson's disease. Although iPSC-derived midbrain DA neurons have been generated, detailed genetic and epigenetic characterizations of such neurons are lacking. The goal of this study was to examine the authenticity of iPSC-derived DA neurons obtained by established protocols. We FACS purified mdDA (Pitx3 (Gfp/+) ) neurons derived from mouse iPSCs and primary mdDA (Pitx3 (Gfp/+) ) neurons to analyze and compare their genetic and epigenetic features. Although iPSC-derived DA neurons largely adopted characteristics of their in聽vivo counterparts, relevant deviations in global gene expression and DNA methylation were found. Hypermethylated genes, mainly involved in neurodevelopment and basic neuronal functions, consequently showed reduced expression levels. Such abnormalities should be addressed because they might affect unambiguous long-term functionality and hamper the potential of iPSC-derived DA neurons for in聽vitro disease modeling or cell-based therapy.

+view abstract Stem cell reports, PMID: 24749075 2014

Biethahn K, Orinska Z, Vigorito E, Goyeneche-Patino DA, Mirghomizadeh F, F枚ger N, Bulfone-Paus S

Mast cells (MCs) play a central role in allergic and inflammatory disorders by rapid degranulation and release of inflammatory mediators upon antigen-driven engagement of the Fc蔚RI. Receptor-mediated MC responses are controlled by the activation of different isoforms of phosphoinositide-3-kinase (PI3K) and the downstream signaling processes. Recent evidence suggests that miRNAs are important molecular players regulating the PI3K/Akt pathway.

+view abstract Allergy, PMID: 24734904 2014

Open Access
Gy艖ri D, Csete D, Benk艖 S, Kulkarni S, Mandl P, Dob贸-Nagy C, Vanhaesebroeck B, Stephens L, Hawkins PT, M贸csai A Signalling

While phosphoinositide 3-kinases (PI3Ks) are involved in various intracellular signal transduction processes, the specific functions of the different PI3K isoforms are poorly understood. We have previously shown that the PI3K尾 isoform is required for arthritis development in the K/BxN serum-transfer model. Since osteoclasts play a critical role in pathologic bone loss during inflammatory arthritis and other diseases, we undertook this study to test the role of PI3K尾 in osteoclast development and function using a combined genetic and pharmacologic approach.

+view abstract Arthritis & rheumatology (Hoboken, N.J.), PMID: 24719382 2014

Open Access
Potter DS, Kelly P, Denneny O, Juvin V, Stephens LR, Dive C, Morrow CJ Signalling

Evasion of apoptosis is a hallmark of cancer, and reversing this process by inhibition of survival signaling pathways is a potential therapeutic strategy. Phosphoinositide 3-kinase (PI3K) signaling can promote cell survival and is upregulated in solid tumor types, including colorectal cancer (CRC), although these effects are context dependent. The role of PI3K in tumorigenesis combined with their amenability to specific inhibition makes them attractive drug targets. However, we observed that inhibition of PI3K in HCT116, DLD-1, and SW620 CRC cells did not induce apoptotic cell death. Moreover, these cells were relatively resistant to the Bcl-2 homology domain 3 (BH3) mimetic ABT-737, which directly targets the Bcl-2 family of apoptosis regulators. To test the hypothesis that PI3K inhibition lowers the apoptotic threshold without causing apoptosis per se, PI3K inhibitors were combined with ABT-737. PI3K inhibition enhanced ABT-737-induced apoptosis by 2.3- to 4.5-fold and reduced expression levels of MCL-1, the resistance biomarker for ABT-737. PI3K inhibition enhanced ABT-737-induced apoptosis a further 1.4- to 2.4-fold in CRC cells with small interfering RNA-depleted MCL-1, indicative of additional sensitizing mechanisms. The observation that ABT-737-induced apoptosis was unaffected by inhibition of PI3K downstream effectors AKT and mTOR, implicated a novel PI3K-dependant pathway. To elucidate this, an RNA interference (RNAi) screen of potential downstream effectors of PI3K signaling was conducted, which demonstrated that knockdown of the TEC kinase BMX sensitized to ABT-737. This suggests that BMX is an antiapoptotic downstream effector of PI3K, independent of AKT.

+view abstract Neoplasia (New York, N.Y.), PMID: 24709422 2014