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1	Apoptosis is promoted by unconventional FcγR-PI3KCdc42-Pak-Mek-Erk signalling in the human neutrophil Chu, Ying Ying Julia January 2017 (has links) Neutrophils form a first line of defence against infections. These short-lived, terminally differentiated cells perform many important functions, including chemotaxis, degranulation, reactive oxygen species (ROS) release and cytokine production. Whilst neutrophils are essential for host immunity, their inappropriate recruitment, activation and/or removal can contribute to excessive inflammation and host damage, as exemplified in autoimmune diseases such as rheumatoid arthritis. It is therefore essential that neutrophil function is tightly regulated. Neutrophils are activated by a range of stimuli, including immune complexes. Neutrophil functions are tightly regulated by intracellular signalling events that are induced by the ligation of cell surface receptors, for example, the binding of immune complexes to Fc receptors. Phosphoinositide 3-kinase (PI3K) and extracellular signal-regulated kinase (Erk) are key signalling intermediates that act downstream of many cell surface receptors. They are involved in the regulation of numerous biological processes in the neutrophil. Using pharmacological interventions, I analysed PI3K signalling in immune complex-stimulated human neutrophils and uncovered a previously uncharacterised, noncanonical signalling pathway, PI3K-Cdc42-Pak-Mek-Erk. This represents an unusual situation where Pak acts as the MAP3K downstream of Cdc42 in a PI3K-dependent fashion. By performing a range of functional experiments, I showed that this unconventional signalling pathway promotes apoptosis in human neutrophils by regulating the ratio between anti- and pro-apoptotic members of the Bcl-2 family proteins. No other immune complex-induced, PI3K-dependent neutrophil function tested depended on PI3K-Cdc42-Pak-Mek-Erk signalling. Mouse knock-outs of all components of this signalling pathway have been described. Immune complex-induced apoptosis was also PI3K-dependent in mouse neutrophils, but experiments performed with inhibitors showed that, in contrast to human neutrophils, this was not dependent on PI3K-Cdc42-Pak-Mek-Erk signalling. The myeloid leukaemia cell line, PLB-985 is amenable to knock-down and can be differentiated to become neutrophil-like. These cells are not notably activated by immune complexes, perhaps because they do not express the major Fcγ receptor, CD16. Since retroviral expression of CD16 in PLB985 cells did not improve their response to activation by immune complexes, I was not able to confirm my observations with human neutrophils genetically. Collectively, I showed that a novel, pro-apoptotic signalling pathway operates downstream of Fcγ receptors in the human neutrophil. The fact that this signalling pathway appears to regulate apoptosis specifically suggests uncoupling pro- and anti-inflammatory effects induced by immune complexes might be possible. This may be helpful in the design of improved therapies of autoimmune diseases such as rheumatoid arthritis, in which immune complex-driven neutrophilic inflammation contributes to disease pathogenesis and where neutrophil apoptosis is disturbed.
2	Régulation de l'expression génique et de la sécrétion des cytokines chez le neutrophile humain : implication de la voie des MAPK MEK/ERK et son découplage Simard, François January 2012 (has links) Le neutrophile humain est une composante essentielle du système immunitaire inné. Il joue un rôle-clé comme phagocyte professionnel pour la défense contre les agents externes. De plus, il a la capacité de libérer un large éventail de produits antimicrobiens et de produire également diverses protéines immunorégulatrices, dont une vaste gamme de cytokines (IL-8, MIP-1[alpha]/[beta], IP-10, I-TAC, TNF-[alpha], etc.). La génération de ces dernières permet le recrutement massif de neutrophiles et d'autres populations leucocytaires au site inflammatoire, contribuant ainsi au bon déroulement de la réponse inflammatoire. La génération de cytokines par le neutrophile humain est induite par différents agonistes, dont des molécules bactériennes (LPS, peptides N-formylés) ou les médiateurs inflammatoires (cytokines, chimiokines, facteurs de croissance). Ces molécules vont activer des récepteurs à la surface du neutrophile et déclancher ainsi plusieurs voies de signalisation et des facteurs transcriptionnels. Dans la présente étude, nous avons déterminé l'impact de la voie de signalisation MEK/ERK dans l'induction de l'expression des cytokines chez le neutrophile humain isolé du sang périphérique. Nous avons noté un découplage du module MEK/ERK suite à une stimulation avec certains agonistes pro-inflammatoires (LPS, TNF-[alpha]), mais par pour d'autres (fMLP, GM-CSF). L'utilisation de différentes classes d'agonistes et d'inhibiteurs pharmacologiques des voies de signalisation nous a permis de mettre en évidence les rôles différents de MEK et de ERK en ce qui concerne la sécrétion et la transcription de cytokines. Les kinases ERK et MEK sont toutes deux impliquées dans la sécrétion de cytokines, mais ERK est la seule des deux qui est associée à la transcription. Par contre, nous n'avons toujours pas identifié la kinase responsable de l'activation de ERK lorsque le module MEK/ERK est découplé. Enfin, à défaut d'identifier la kinase qui phosphoryle ERK, nous montrons que la MAP3K, TAK1, agit en amont de ERK et de MEK chez les neutrophiles. Nos résultats suggèrent que les thérapies basées sur l'inhibition de MEK devront être complémentées d'une inhibition de ERK, en particulier dans des maladies inflammatoires chroniques à forte prédominance neutrophilique. Traduction Transcription Cytokines/chimiokines MEK/ERK Signalisation MAPK Neutrophiles humains
3	Investigação do papel da ubiquitina-ligase HUWE1 na modulação da via de sinalização RAS em modelos leucêmicos / Investigation of ubiquitin-ligase HUWE1 in the modulation of RAS pathway in leukemia models Mariana Tannús Ruckert 25 October 2017 (has links) A via RAS/RAF/MEK/ERK é frequentemente hiperativada em diversos tumores. Em leucemias sua ativação pode ocorrer, dentre outros mecanismos, a partir de mutações pontuais nos genes da família RAS, que são relevantes nas leucemias linfóide e mielóide agudas (LLA e LMA), ou a partir da atividade da tirosina-quinase BCR-ABL, que é responsável por promover a tumorigênese na leucemia mielóide crônica (LMC) e em alguns casos de LLA. A hiperativação dessa via estimula a proliferação celular e, consequentemente, a produção de espécies reativas de oxigênio (ROS), que é um dos principais mecanismos envolvidos com a indução de senescência celular em tumores. Assim sendo, as células tumorais que apresentam o gene RAS mutado são criticamente dependentes de mecanismos de feedback para regular a ativação da via. Jang et al. demonstraram que a ubiquitina-ligase HUWE1 atua em um mecanismo de feedback negativo que controla a ativação de ERK1/2 e apesar de amplamente estudada no contexto da tumorigênese, a atuação dessa molécula em eventos relacionados à leucemogênese ainda não foi descrita. No presente estudo, linhagens celulares leucêmicas e células tronco e progenitoras hematopoiéticas humanas (HSPCs) com mutação KRASG12V foram transduzidas com partículas lentivirais miR-E para o silenciamento gênico de HUWE1. Ensaios de proliferação celular, apoptose, análise do ciclo celular, produção de ROS e análise da expressão gênica e proteica foram realizados nas linhagens celulares; análise do crescimento cumulativo, área de formação de cobblestones, capacidade clonogênica e análise do perfil de diferenciação celular foram realizados nas HSPCs. Nas linhagens celulares observouse que o silenciamento de HUWE1 reduziu a capacidade proliferativa das linhagens Nalm-6, K562 e THP-1, porém não causou nenhum prejuízo à capacidade proliferativa da linhagem HL-60. Além disso, causou a redução da produção de ROS (p<0,05), associada à redução das taxas de apoptose (p<0,01), principalmente na linhagem K562, na qual também promoveu a ativação de ERK1/2 . Em HSPCs, observou-se a redução da capacidade proliferativa das culturas que expressavam o oncogene KRASG12V associado ao silenciamento de HUWE1. Nas mesmas condições foi observada uma drástica redução na capacidade clonogênica das HSPCs (p<0,001), em especial as do tipo BFU-E. O silenciamento de HUWE1 também alterou o perfil de diferenciação celular para a linhagem monocítica. Os resultados sugerem que HUWE1 pode participar do processo de leucemogênese e diferenciação de HSPCs humanas participando na modulação da via RAS/RAF/MEK/ERK. / The RAS/RAF/MEK/ERK pathway is frequently hyperactivated in several tumors. In leukemia, this activation can arise, among other mechanisms, from point mutations in the RAS genes, which are important in acute lymphoid leukemia (ALL) and acute myeloid leukemia (AML), or from chromosomal translocations such as the BCR-ABL gene, which is a driver mutation in chronic myeloid leukemia (CML) and some cases of ALL. The hyperactivation of this pathway stimulates cell proliferation and, consequently, the production of reactive oxygen species (ROS), which is one of the main mechanisms involved with induction of cellular senescence in tumors. Thus, tumor cells that harbor the mutated RAS gene are critically dependent on feedback mechanisms to regulate pathway activation. Jang et al. demonstrated that the ubiquitinligase HUWE1 acts on a negative feedback mechanism that controls the activation of ERK1/2. Although widely studied in the context of tumorigenesis, the role of this molecule in events related to leukemogenesis has not yet been described. In this study, leukemia cell lines and human hematopoietic stem and progenitors cells (HSPCs) with KRASG12V mutation were transduced with miR-E lentiviral particles for HUWE1 knockdown. Cell proliferation, apoptosis, cell cycle analysis, ROS production and analysis of gene and protein expression were performed in cell lines; cumulative growth analysis, cobblestones area formations, clonogenic capacity and differentiation profile analysis were performed in HSPCs. In cell lines, it was observed that HUWE1 knockdown reduced the proliferative capacity of Nalm-6, K562 and THP-1, but not of HL-60. Besides that, it caused a reduction in ROS production (p<0,05), associated with reduction of apoptosis rates (p<0,01), especially in K562 in which it also promoted activation of ERK1/2. In HSPCs, a reduction of the proliferative capacity was observed in cultures expressing KRASG12V in combination with HUWE1 knockdown. In the same conditions, a drastic reduction of clonogenic capacity (p<0,001), especially of BFU-E colonies, was observed. HUWE1 knockdown also changed differentiation profile to the monocytic lineage. Results suggest that HUWE1 might play a role in leukemogenesis process and differentiation of human HSPCs, acting in the modulation of RAS/RAF/MEK/ERK. Feedback negativo HUWE1 Leucemia RAS/RAF/MEK/ERK Ubiquitinaligase HUWE1 Leukemia Negative feedback RAS/RAF/MEK/ERK Ubiquitin-ligase
4	Investigação do papel da ubiquitina-ligase HUWE1 na modulação da via de sinalização RAS em modelos leucêmicos / Investigation of ubiquitin-ligase HUWE1 in the modulation of RAS pathway in leukemia models Ruckert, Mariana Tannús 25 October 2017 (has links) A via RAS/RAF/MEK/ERK é frequentemente hiperativada em diversos tumores. Em leucemias sua ativação pode ocorrer, dentre outros mecanismos, a partir de mutações pontuais nos genes da família RAS, que são relevantes nas leucemias linfóide e mielóide agudas (LLA e LMA), ou a partir da atividade da tirosina-quinase BCR-ABL, que é responsável por promover a tumorigênese na leucemia mielóide crônica (LMC) e em alguns casos de LLA. A hiperativação dessa via estimula a proliferação celular e, consequentemente, a produção de espécies reativas de oxigênio (ROS), que é um dos principais mecanismos envolvidos com a indução de senescência celular em tumores. Assim sendo, as células tumorais que apresentam o gene RAS mutado são criticamente dependentes de mecanismos de feedback para regular a ativação da via. Jang et al. demonstraram que a ubiquitina-ligase HUWE1 atua em um mecanismo de feedback negativo que controla a ativação de ERK1/2 e apesar de amplamente estudada no contexto da tumorigênese, a atuação dessa molécula em eventos relacionados à leucemogênese ainda não foi descrita. No presente estudo, linhagens celulares leucêmicas e células tronco e progenitoras hematopoiéticas humanas (HSPCs) com mutação KRASG12V foram transduzidas com partículas lentivirais miR-E para o silenciamento gênico de HUWE1. Ensaios de proliferação celular, apoptose, análise do ciclo celular, produção de ROS e análise da expressão gênica e proteica foram realizados nas linhagens celulares; análise do crescimento cumulativo, área de formação de cobblestones, capacidade clonogênica e análise do perfil de diferenciação celular foram realizados nas HSPCs. Nas linhagens celulares observouse que o silenciamento de HUWE1 reduziu a capacidade proliferativa das linhagens Nalm-6, K562 e THP-1, porém não causou nenhum prejuízo à capacidade proliferativa da linhagem HL-60. Além disso, causou a redução da produção de ROS (p<0,05), associada à redução das taxas de apoptose (p<0,01), principalmente na linhagem K562, na qual também promoveu a ativação de ERK1/2 . Em HSPCs, observou-se a redução da capacidade proliferativa das culturas que expressavam o oncogene KRASG12V associado ao silenciamento de HUWE1. Nas mesmas condições foi observada uma drástica redução na capacidade clonogênica das HSPCs (p<0,001), em especial as do tipo BFU-E. O silenciamento de HUWE1 também alterou o perfil de diferenciação celular para a linhagem monocítica. Os resultados sugerem que HUWE1 pode participar do processo de leucemogênese e diferenciação de HSPCs humanas participando na modulação da via RAS/RAF/MEK/ERK. / The RAS/RAF/MEK/ERK pathway is frequently hyperactivated in several tumors. In leukemia, this activation can arise, among other mechanisms, from point mutations in the RAS genes, which are important in acute lymphoid leukemia (ALL) and acute myeloid leukemia (AML), or from chromosomal translocations such as the BCR-ABL gene, which is a driver mutation in chronic myeloid leukemia (CML) and some cases of ALL. The hyperactivation of this pathway stimulates cell proliferation and, consequently, the production of reactive oxygen species (ROS), which is one of the main mechanisms involved with induction of cellular senescence in tumors. Thus, tumor cells that harbor the mutated RAS gene are critically dependent on feedback mechanisms to regulate pathway activation. Jang et al. demonstrated that the ubiquitinligase HUWE1 acts on a negative feedback mechanism that controls the activation of ERK1/2. Although widely studied in the context of tumorigenesis, the role of this molecule in events related to leukemogenesis has not yet been described. In this study, leukemia cell lines and human hematopoietic stem and progenitors cells (HSPCs) with KRASG12V mutation were transduced with miR-E lentiviral particles for HUWE1 knockdown. Cell proliferation, apoptosis, cell cycle analysis, ROS production and analysis of gene and protein expression were performed in cell lines; cumulative growth analysis, cobblestones area formations, clonogenic capacity and differentiation profile analysis were performed in HSPCs. In cell lines, it was observed that HUWE1 knockdown reduced the proliferative capacity of Nalm-6, K562 and THP-1, but not of HL-60. Besides that, it caused a reduction in ROS production (p<0,05), associated with reduction of apoptosis rates (p<0,01), especially in K562 in which it also promoted activation of ERK1/2. In HSPCs, a reduction of the proliferative capacity was observed in cultures expressing KRASG12V in combination with HUWE1 knockdown. In the same conditions, a drastic reduction of clonogenic capacity (p<0,001), especially of BFU-E colonies, was observed. HUWE1 knockdown also changed differentiation profile to the monocytic lineage. Results suggest that HUWE1 might play a role in leukemogenesis process and differentiation of human HSPCs, acting in the modulation of RAS/RAF/MEK/ERK. Feedback negativo HUWE1 HUWE1 Leucemia Leukemia Negative feedback RAS/RAF/MEK/ERK RAS/RAF/MEK/ERK Ubiquitin-ligase Ubiquitinaligase
5	The Toll-Like Receptor 9 Agonist, CpG-Oligodeoxynucleotide 1826, Ameliorates Cardiac Dysfunction After Trauma-Hemorrhage Zhang, Xia, Gao, Ming, Ha, Tuanzhu, Kalbfleisch, John H., Williams, David L., Li, Chuanfu, Kao, Race L. 01 August 2012 (has links) Cardiovascular collapse is the major factor contributing to the mortality of trauma-hemorrhage (T-H) patients. Toll-like receptors (TLRs) play a critical role in T-H-induced cardiac dysfunction. This study evaluated the role of TLR9 agonist, CpG-oligodeoxynucleotide (ODN) 1826, in cardiac functional recovery after T-H. Trauma-hemorrhage was induced in a murine model by soft tissue injury and blood withdrawals from the jugular vein to a mean arterial pressure of 35 ± 5 mmHg. Mice were treated with CpG-ODN 1826 (10 μg/30 g body weight) by intraperitoneal injection 1 h before T-H (n = 5-8/group). Hemodynamic parameters were measured before, during hemorrhage, and at 60 min after T-H. Trauma-hemorrhage significantly decreased the mean arterial pressure and left ventricular pressure compared with sham controls. In contrast, CpG-ODN administration significantly attenuated the decrease in arterial pressure and left ventricular pressure due to T-H. Trauma-hemorrhage markedly decreased myocardial levels of phosphorylated Akt by 57.9%. However, CpG-ODN treatment significantly blunted the decrement in phospho-Akt by activating the phosphoinositide 3-kinase (PI3K)/Akt signaling pathway. The PI3K inhibitor LY294002 partially abolished CpG-induced cardioprotection, indicating that additional signaling pathways are involved in the protective effect of CpG-ODN after T-H. We observed that CpG-ODN treatment also significantly attenuated the decrease in myocardial phospho-ERK levels after T-H. Inhibition of ERK by U0126 also partially abolished the cardioprotective effect of CpG-ODN after T-H. Our data suggest that CpG-ODN significantly attenuates T-H-induced cardiac dysfunction. The mechanisms involve activation of both PI3K/Akt and ERK signaling pathways. The TLR9 agonist, CpG-ODN 1826, may provide a novel treatment strategy for preventing or managing cardiac dysfunction and enhancing recovery in T-H patients. cardiac function inflammation innate immune MEK/ERK NF-κB PI3K/Akt shock Surgery
6	Essential Role of ERK Activation in Neurite Outgrowth Induced by α-Lipoic Acid Wang, Xiaohui, Wang, Zhuyao, Yao, Yuzhen, Li, Jingjin, Zhang, Xiaojin, Li, Chuanfu, Cheng, Yunlin, Ding, Guoxian, Liu, Li, Ding, Zhengnian 01 May 2011 (has links) Background: Neurite outgrowth is an important aspect of neuronal plasticity and regeneration after neuronal injury. Alpha-lipoic acid (LA) has been used as a therapeutic approach for a variety of neural disorders. We recently reported that LA prevents local anesthetics-induced neurite loss. In this study, we hypothesized that LA administration promotes neurite outgrowth. Methods: To test our hypothesis, we treated mouse neuroblastoma N2a cells and primary neurons with LA. Neurite outgrowth was evaluated by examination of morphological changes and by immunocytochemistry for α-tubulin-3. ROS production was examined, as were the phosphorylation levels of ERK and Akt. In separate experiments, we determined the effects of the inhibition of ERK or PI3K/Akt as well as ROS production on LA-induced neurite outgrowth. Results: LA promoted significantly neurite outgrowth in a time- and concentration-dependent manner. LA stimulation significantly increased the phosphorylation levels of both Akt and ERK and transiently induced ROS production. PI3K/Akt inhibition did not affect LA-induced neurite outgrowth. However, the inhibition of ERK activation completely abolished LA-induced neurite outgrowth. Importantly, the prevention of ROS production by antioxidants attenuated LA-stimulated ERK activation and completely abolished LA-promoted neurite outgrowth. Conclusion: Our data suggest that LA stimulates neurite outgrowth through the activation of ERK signaling, an effect mediated through a ROS-dependent mechanism. This article is part of a Special Issue entitled: 11th European Symposium on Calcium. alpha-lipoic acid MEK/ERK signaling pathway neurite outgrowth reactive oxygen species Surgery
7	Isoform-spezifische Funktionen mitogen-aktivierter Proteinkinasen in Transkriptionskontrolle und Proliferation Wieland, Anja 06 July 2011 (has links) In vielen humanen Neoplasien findet sich eine erhöhte Aktivität des Raf-Mek-Erk-Signaltransduktionsweges. Zunächst wurde davon ausgegangen, dass diese erhöhte Aktivität hauptsächlich durch die Ras-Onkogene hervorgerufen wird. Doch mittlerweile konnten auch Mutationen der Raf Gene in humanen Neoplasien nachgewiesen werden. Gegen Raf und Mek konnten eine Anzahl von Enzyminhibitoren entwickelt werden. Der Nachteil vieler dieser Inhibitoren ist, dass sie nicht zwischen den einzelnen Kinaseisoformen unterscheiden können. In dieser Arbeit ist es nun das erste Mal gelungen, jede Komponente des Raf-Mek-Erk-Signaltransduktionsweges einzeln mittels RNA Interferenz effizient zu inhibieren. Dabei konnte die Rolle der verschiedenen Isoformen in der Proliferation, Morphologie und Genex-pression von transformierten Zellen definiert werden. In den NIH3T3-pEJ Zellen konnte A-Raf erstmals eine antiapoptotische Rolle zugewiesen werden. Diese Hemmung der Apoptose läuft möglicherweise über einen Mek2-abhängigen Weg und ist an die Mitochondrien gekoppelt. Für die beiden Mek Kinasen konnten unter-schiedliche Funktionen in der Signalweiterleitung gezeigt werden. Mek2 spielt die Hauptrolle in der Aktivierung der beiden Substratkinasen Erk1 und Erk2. Der Verlust der Mek1 Isoform wird dagegen möglicherweise durch eine erhöhte Expression von Mek2 kompensiert und wirkt sich nicht so stark auf die Phosphorylierung von Erk1/2 aus. Durch die Verwendung von Erk1 und Erk2 spezifischen siRNAs konnte eine Trennung zwischen der Proliferationsre-gulation und der Kontrolle der morphologischen Transformation herausgearbeitet werden. Durch die Verwendung von Mikroarrays ist es gelungen, beiden Phänotypen ein Genexpres-sionsprofil zuzuordnen. Neben Unterschieden zwischen den verschiedenen Kinaseisoformen konnten neue, potentielle Feedbacks beschrieben werden. / In many human neoplasia an increased activity of the RAF/MEK/ERK- signaling pathway is found. First it was assumed that this raised activity is caused primarily by the RAS onco-genes. However, meanwhile mutations in the RAF genes could be also proved in human neo-plasia. A number of enzyme inhibitors have been developed against the RAF and MEK pro-teins. The disadvantage of many of these inhibitors is that they cannot distinguish between the different kinase isoforms. In this work it has succeeded the first time to inhibit every compo-nent of the RAF/MEK/ERK- signaling pathway individually by means of interference RNA. Beside this, the role of the different isoforms in the proliferation, morphology and genetic profile of transformed cells could be defined. For the first time A-Raf could be assigned an anti-apoptotic role in NIH3T3-pEJ cells. This inhibition of the apoptosis possibly runs through a Mek2-dependent way and is coupled to the mitochondria. For both Mek kinases different functions could be shown in the downstream signaling. Mek2 plays the leading role in the activation of both downstream kinases Erk1 and Erk2. The loss of the Mek1 isoform expression is possibly compensated through an increased expression of Mek2 and does not affect the phosphorylation of Erk1 / 2 so strongly. A discri-mination between the regulation of proliferation and the control of the morphological trans-formation could be worked out by the use of Erk1 and Erk2 specific siRNAs. By the use of micorarray an expression profile of both phenotypes has assigned. Beside differences between the different kinases new, potential feedback pathways could be described. RNA-Interferenz Raf-Mek-Erk-Signaltransduktionsweg Ras-vermittelte Transformation Mikroarrays RNA interference Raf-Mek-Erk signaling pathway Ras-mediated transformation microarrays 570 Biowissenschaften, Biologie 32 Biologie WD 5060 XH 1800 ddc:570
8	The Role of ARID1A in Oncogenic Transcriptional (de)Regulation in Colorectal Cancer Sen, Madhobi 29 January 2019 (has links) No description available. 570 Biologie (PPN619462639)
9	Hedgehog signaling in cutaneous squamous cell carcinoma Pyczek, Joanna 30 May 2017 (has links) No description available. 610 cutaneous squamous cell carcinoma Hedghehog signaling GLI EGF/EGFR MEK/ERK Medizin (PPN619874732) Biologie (PPN619875151)
10	Mechanisms of Moraxella catarrhalis Induced Immune Signaling in the Pulmonary Epithelium Campbell, Sara J. 19 May 2010 (has links) No description available. Immunology Molecular Biology Toll-like Receptor (TLR) phosphatidylinositol 3-kinase (P13k) p38 MAPK Raf/MEK/ERK pathway airway inflammation Signal Transduction

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