Global ETD Search

701	Interaction of TAPP adapters with the phosphoinositide PI(3,4)P2 regulates B cell activation and differentiation Landego, Ivan 10 January 2012 (has links) Phosphoinositide 3-kinase is a family of lipid kinases that function by phosphorylating the D3 position of phosphoinositide (PI) lipids generating PI(3)P, PI(3,4)P2 and PI(3,4,5)P3. These D3 phosphoinositides regulate various cellular processes through the recruitment of effector proteins containing lipid specific pleckstrin homology (PH) domains. PI phosphatases such as PTEN and SHIP function to restrain PI3K signaling by limiting the amount of D3 PI available for binding. Deletion of either PTEN or SHIP significantly alters B cell function and humoral immune responses. TAPP1 and TAPP2 are dual PH domain containing adaptors which selectively bind the phosphoinositide PI(3,4)P2 via their C-terminal PH domains. PI(3,4)P2 is a lipid messenger generated by PI3K and through the inositol phosphatase activity of SHIP. The function of PI(3,4)P2 remains incompletely understood. To identify the functional role of TAPP-PI(3,4)P2 interactions, we utilized a knock-in (KI) mouse bearing mutations within the PI-binding pocket of both TAPPs. Our study assessed the effect of PI3K dependent KI mutation on B lymphocyte development, activation and antibody production. Flow cytometry analyses of lymphoid tissues found that TAPP KI mice develop relatively normal frequencies of mature B cell populations with the exception of peritoneal B1 cells, which are increased by approximately 50%. Strikingly, TAPP KI mice developed substantially elevated serum antibody levels. TAPP KI mice were able to generate high affinity antigen-binding antibodies upon immunization with NP-OVA in alum adjuvant; however, total immunoglobulin production was markedly increased under this immunization condition. We further assessed the germinal centre (GC) response, which are known to require PI3K signaling and a hallmark of T cell dependent (TD) antibody responses. TAPP KI mice generated larger germinal centers (GC) upon immunization, which was associated with increased GC B cell survival. We further assessed whether uncoupling of TAPPs from PI(3,4)P2 alters B cell signaling and functional responses in vitro. B cells purified from TAPP KI mice were found to have altered functional responses in vitro, with significantly increased survival and cell division following antigen receptor cross-linking. Consistent with increased cell survival, TAPP KI B cells show increased Akt phosphorylation on Ser473 and Thr308 after antigen receptor cross-linking. However, reconstitution of B cell deficient mice with either WT or TAPP KI B cells was found to generate similar GC responses, suggesting that activation of other cells may contribute to the enhanced in vivo responses. Consistently, when we examined the CD4+ T follicular helper cells, a subset providing critical cues to GC responses, we found increased expression of ICOS activation marker. Our results indicate the interactions of TAPP adapters with PI(3,4)P2 serve to restrain lymphocyte activation and limit antibody production, providing the first in vivo evidence that this interaction is important for immune function. Phosphoinositide 3-kinase Adapter Proteins TAPP Signal Transduction B cell Germinal centre Antibody
702	The role of Ras and Kinase Suppressor of Ras 1 (KSR-1) in breast cancer in progression and metastasis / De Cristofano, Sabrina. January 2007 (has links) The Ras signaling cascade is a vital component in the processes that mediate cell survival, growth, differentiation and transformation through activation of MAP kinase (mitogen-activated protein kinase). The recent discovery of a new scaffold of the Ras signaling pathway, Kinase Suppressor of Ras (KSR), is found to be a positive effector of Ras signaling which further contributes to proliferation and transformation in the ERK/MAPK pathway. This thesis describes the roles of Ras and Kinase Suppressor of Ras 1 (KSR-1) in regulating the expression of tumor promoting genes such as urokinase plasminogen activator (uPA) in the development and progression of breast cancer in vitro and in vivo. Ras and KSR increase the proliferative capacity and migration of MDAMB-231 human breast cancer cells in vitro. In contrast, Ras and KSR decrease the invasiveness of MDA-MB-231 human breast cancer cells in vitro. Furthermore, uPA gene expression levels do not correlate with uPA protein expression levels suggesting a possible mutation induced by KSR and/or Ras. In vivo studies reveal that Ras and KSR increase tumor volume in mice, as well as more advanced osteolytic bone metastases. Collectively, these results indicate that Ras and KSR play significant roles in breast cancer development and metastasis. Breast Neoplasms -- pathology. Neoplasm Metastasis -- physiopathology. ras Proteins -- metabolism. Protein Kinases -- metabolism. Signal Transduction -- physiology.
703	CD40 signalling in platelet function Hachem, Ahmed 08 1900 (has links) Le CD40 est un membre de la famille des récepteurs du facteur de nécrose tumorale ("Tumour necrosis factor", TNF), initialement identifié sur des cellules de carcinome de la vessie. L'interaction du CD40 avec son ligand (CD40L) est d'une importance cruciale pour le développement des cellules B et de la commutation d'isotype au cours de la réponse immunitaire acquise. L'expression du complexe CD40/CD40L était initialement cru d'être limiter aux cellules du système immunitaire, mais aujourd'hui il est bien connu que ce complexe est également exprimé sur les cellules du système circulatoire et vasculaire, et est impliqué dans diverses réactions inflammatoires; de sorte que le CD40L est maintenant considéré comme une molécule thrombo-inflammatoire prédictive des événements cardiovasculaires. Les plaquettes expriment constitutivement le CD40, alors que le CD40L n'est exprimé que suite à leur l'activation. Il est ensuite clivé en sa forme soluble (sCD40L) qui représente la majorité du sCD40L en circulation. Il fut démontré que le sCD40L influence l'activation plaquettaire mais son effet exact sur la fonction plaquettaire, ainsi que les mécanismes cellulaires et moléculaires sous-jacents à son action demeurent inconnus. Ainsi, ce projet a été entrepris dans le but d’adresser les objectifs spécifiques suivants: 1) évaluer les effets in vitro du sCD40L sur l'activation et l'agrégation plaquettaire; 2) identifier les récepteurs plaquettaires impliqués dans l’action du sCD40L; 3) élucider les voies signalétiques intracellulaires induits par le sCD40L; 4) évaluer les effets du sCD40L sur la formation de thrombus in vivo. Nous avons trouvé que le sCD40L augmente fortement l'activation et l'agrégation des plaquettes en réponse à de faibles concentrations d'agonistes. Les plaquettes humaines traitées avec une forme mutante du sCD40L qui n'interagit pas avec le CD40, et les plaquettes de souris déficientes en CD40 ne furent pas en mesure d'induire de telles réponses, indiquant que le récepteur principal du sCD40L au niveau des plaquettes est le CD40. En plus, nous avons identifié la présence de plusieurs membres de la famille du facteur associé du récepteur du TNF ("TNF receptor-associated factor", TRAF) dans les plaquettes et nous avons montré que seulement le TRAF2 s'associe avec le CD40 suite à la stimulation par le sCD40L. Nos résultats indiquent aussi que le sCD40L agisse sur les plaquettes au repos par l'entremise de deux voies signalétiques distinctes. La première voie implique l'activation de la petite GTPase Rac1 et de sa cible en aval, soit la protéine kinase p38 activée par le mitogène ("p38 mitogen-activated protein kinase", p38 MAPK ), menant au changement de forme plaquettaire et à la polymérisation de l'actine; alors que la deuxième voie implique l'activation de la cascade signalétique du NF-kB. Par ailleurs, à la suite d'une lésion artérielle induite par le chlorure de fer, le sCD40L exacerbe la formation de thrombus et l'infiltration leucocytaire au sein du thrombus dans les souris du type sauvage, mais pas chez les souris déficientes en CD40. En conclusion, ce projet a permis d'identifier pour la première fois deux voies signalétiques distinctes en aval du CD40 plaquettaire et a permis d'établir leur implication dans l'activation et l'agrégation plaquettaire en réponse au sCD40L. De manière plus importante, ce projet nous a permis d'établir un lien direct entre les niveaux élevés du sCD40L circulant et la formation de thrombus in vivo, tout en soulignant l'importance du CD40 dans ce processus. Par conséquent, l'axe CD40/CD40L joue un rôle important dans l'activation des plaquettes, les prédisposant à une thrombose accrue en réponse à une lésion vasculaire. Ces résultats peuvent expliquer en partie la corrélation entre les taux circulants élevés du sCD40L et l'incidence des maladies cardiovasculaires. / CD40 is a member of the tumour necrosis factor (TNF) receptor family, originally identified on human bladder carcinoma cells. Interaction of CD40 with its ligand (CD40L) is of crucial importance for B cell development and immunoglobulin isotype switching during the adaptive immune response. Expression of the CD40/CD40L dyad was initially thought to be restricted to cells of the immune system, but today it is known to be also expressed on cells of the circulatory and vascular systems, and have important implications in various inflammatory reactions, such that CD40L is now regarded as a thrombo-inflammatory molecule and a reliable predictor of cardiovascular events. Platelets constitutively express CD40, whereas CD40L is expressed upon activation and subsequently cleaved into its soluble form (sCD40L), accounting for the majority of circulating sCD40L. Soluble CD40L has been shown to influence platelet activation but its precise effect on platelet function, and the underlying cellular and molecular mechanisms remain undefined; hence the purpose of this project. The specific aims of this study are: 1) to evaluate the in vitro effects of sCD40L on platelet activation and aggregation; 2) to determine the receptor(s) on platelets involved in the action of sCD40L; 3) to elucidate the intracellular signalling pathways induced by sCD40L; and 4) to evaluate the in vivo effects of sCD40L on thrombus formation. We have showed that sCD40L strongly enhances activation and aggregation of washed human platelets in response to sub-threshold concentrations of agonists. Human platelets treated with a mutated form of sCD40L that lacks CD40 binding, and platelets from CD40 deficient mice failed to elicit such responses, indicating that CD40 is the major platelet receptor for sCD40L. Moreover, we identified the presence of multiple members of the TNF receptor-associated factor (TRAF) in platelets and showed that only TRAF2 associates with CD40 after sCD40L stimulation. Interestingly, sCD40L primes resting platelets through two distinct signalling pathways. The first pathway involves activation of the small GTPase Rac1 and its downstream target p38 mitogen-activated protein kinase, leading to platelet shape change and actin polymerization; whereas the second pathway involves activation of the NF-κB signalling cascade. Furthermore, sCD40L exacerbates thrombus formation and leukocyte infiltration within the thrombus mass in wild-type mice but not in CD40 deficient mice following ferric chloride-induced arterial injury. In conclusion, we have identified for the first time two distinct signalling pathways downstream of platelet CD40, and established their implication in platelet activation and aggregation in response to sCD40L. Noticeably, we established a direct link between elevated levels of sCD40L and in vivo thrombus formation, while emphasizing the requirement of CD40 in this process. Therefore, the CD40/CD40L dyad plays an important role in platelet priming that predisposes platelets to enhanced thrombus formation in response to vascular injury. These results may partly explain the correlation between elevated circulating levels of sCD40L and the incidence of cardiovascular diseases. Plaquettes Thrombose Voies Signalétiques CD40L CD40 Platelets Thrombosis Signal Transduction
704	Adhesion Dependent Signals : Cell Survival, Receptor Crosstalk and Mechanostimulation Riaz, Anjum January 2013 (has links) The integrin family of cell surface receptors is evolutionary conserved and found in all multicellular animals. In humans 8-alpha and 18-beta integrins are non-covalently associated into 24 dimers. Integrins mediate cell-extracellular matrix and cell-cell interactions and participate in cell signalling. This ideally places integrins to regulate vital processes such as cell adhesion, migration, differentiation and cytoskeleton dynamics. Integrins also play a fundamental role in regulating cell survival and anoikis. In this thesis molecular mechanisms employed by integrins to induce signal transduction, independently or through crosstalk with other receptors, were characterised. Rictor-mTOR (mTORC2) was required for Akt Ser473 phosphorylation in response to β1 integrin-mediated adhesion as well as EGF-, PDGF- or LPA-stimulation of MCF7 cells. ILK and PAK were dispensable for Akt Ser473 phosphorylation upon β1 integrin-engagement or EGF-stimulation. PAK was needed when this phosphorylation was induced by PDGF or LPA. β1 integrin-promoted cell survival during serum starvation conditions was mTORC2 dependent, indicating the importance of Akt Ser473 phosphorylation. mTORC2 was also required for Akt Ser473 phosphorylation induced upon heparanase treatment of cells. Heparanase preferred PI3K catalytic subunit p110α for the upstream lipid phosphorylation required for Akt activation. Interaction between this subunit and Ras was needed for optimal Akt phosphorylation upon heparanase exposure. Cell adhesion strongly promoted heparanase signalling, which was more efficient in β1 integrin-expressing fibroblasts compared to cells lacking this subunit. The cooperative signalling between integrins and heparanase involved FAK and PYK2 since simultaneous silencing of these kinases suppressed heparanase-triggered Akt activation. Furthermore, the resistance of cells to apoptosis induced by H2O2 or serum starvation was promoted by heparanase. Integrin stimulation by adhesion or cyclic stretching showed divergent downstream signalling responses. Cell attachment on integrin-specific ligands lead to robust phosphorylation of several intracellular integrin-effectors, e.g. p130CAS, FAK, Akt and ERK 1/2. However, mechanical cell stretching only triggered prominent phosphorylation of ERK 1/2. Signalling induced at early stages of integrin-mediated cell adhesion occurred independently of intracellular contraction. Reactive oxygen species (ROS) generated during adhesion and cell stretching influenced integrin signalling. Inhibition of mitochondrial ROS production blocked adhesion-induced Akt phosphorylation. In contrast, stretch-induced ERK 1/2 phosphorylation was elevated when extracellular ROS was scavenged. These results indicate that the two types of integrin stimuli generate signals by different mechanisms. Integrins Signal transduction Protein kinase B Akt PI3K Heparanase ROS Mechanosignalling
705	Jasmonates as a new class of signaling molecules in Bradyrhizobium-soybean symbiosis Mabood, Fazli January 2005 (has links) Jasmonic acid (JA) and its methyl ester, methyl jasmonate (MeJA), collectively termed as jasmonates, are naturally occurring in plants and are important signal molecules involved in induced disease resistance and stress responses of plants. Besides their role in-planta, they are also rhizosecreted by root cells. Germinating soybean seeds exude large quantities of jasmonic acid; however there is no knowledge regarding how jasmonates influence cells of the soybean symbiont, Bradyrhizobium japonicum, in the rhizosphere. We studied the role of jasmonates in the soybean-Bradyrhizobium symbiosis. Bradyrhizobium japonicum cultures were induced with jasmonates and the resulting Nod factors were isolated and purified. Our results showed that JA and MeJA strongly induced the production of Nod factors by the tested B. japonicum strains. When added together, genistein and jasmonates resulted in greater LCO production than either one alone. Jasmonic acid is produced from linoleic and linolenic acids via the octadecanoid pathway; we studied the effect of these two fatty acids on B. japonicum nod gene induction. Interestingly both linoleic and linolenic acids induced the nod genes and caused LCO production by B. japonicum cultures. Since jasmonates induced the nod genes and also caused LCO production in B. japonicum, I conducted experiments in the greenhouse and field to determine whether incubation of B. japonicum with JA or MeJA prior to inoculation increases soybean nodulation variables and grain yield. Both genistein and McJA increased nodule number and nodule dry weight per plant. Due to enhanced nitrogen fixation, attributed to increased nodule number and weight, soybean dry matter accumulation and grain yield were increased. These results document the discovery of jasmonates and their precursors as new signal molecules in the Bradyrhizobium - soybean nitrogen fixing symbiosis. Jasmonic acid Soybean -- Roots. Root-tubercles. Rhizobium japonicum. Mycorrhizas. Plant cellular signal transduction.
706	Analysis of the novel Lyn-associated cytoskeletal modular protein, LACM McCarthy, David James January 2009 (has links) A yeast-two hybrid screen with Lyn identified a novel 130 kDa multidomain protein with a 36% identity to Actin Filament Associated Protein (AFAP) 110 and similar domains, including PH domains, potential sites of tyrosine and serine/threonine phosphorylation, a leucine-zipper domain, a potential actin binding site and multimerization site. AFAP110 has been shown to have a role in modulating actin filament integrity and induce lamellipodia formation, and is known to interact with Src family kinases. The aim of this thesis was to characterize this novel protein named Lyn-Associated Cytoskeletal Modulator (LACM) and determine any molecular interactions in order to attempt to elucidate a role for the protein in cell signaling through Lyn. LACM is encoded by a gene consisting of 18 exons and is located on human chromosome 5q33.1 and mouse chromosome 18 E1. LACM protein is expressed through a number of cell types including the R11 erythroid cell line, and mouse tissues including brain, lung, heart and embryos. LACM was shown to multimerize, and subcellular localization of the protein was observed to concentrate around the cell membrane at sites of filamentous actin in filopodia, lamellipodia and stress fibres. The carboxy-terminus of LACM was observed to localize the protein to sites at the cell membrane and through the cytoplasm. Removal of this terminal region resulted in all LACM protein localizing to the nucleus in punctuate spots. LACM protein was observed in heart muscle and potentially has a role at sites of nerve junctions on cardiac myocytes. LACM was shown to interact with the SH3 domain of Lyn at a polyproline motif on LACM. LACM was observed to co-localize and co-immunoprecipitate with Lyn and was tyrosine phosphorylated by the kinase domain of Lyn. Interestingly, the consititutively active Lyn and LACM caused transfected cells to Cellular signal transduction Cytoskeleton Cytoskeletal proteins Erythropoiesis Protein-tyrosine kinase Cell signalling Cytoskeleton LACM Lyn
707	The Effect of Pyrethroid Compounds on the Expression of Estrogen Receptors in Mouse Sertoli Cells and Implications for Male Infertility Taylor, Jacqueline Susan January 2006 (has links) Male fertility is largely controlled by the hypothalamic-pituitary axis, a careful balance between stimulating and suppressing gene expression and the secretion of hormones. The critical factors for male fertility have in the past been thought to be limited to testosterone and the gonadotropins. Estrogen has only recently been demonstrated to be both a crucial requirement for fertility and a cause of infertility. Reports in the early 1990s demonstrated a decrease in mean sperm counts over the last 50 years. A hypothesis for this observation is the increase of xenoestrogens in the environment that are able to mimic and potential disrupt the natural estrogens involvement in fertility. Although the mechanisms of estrogens involvement are not yet defined, the Sertoli cells are a potential sites of action as they possess receptors for the hormone and are able to locally produce it. Sertoli cells both act to protect and provide for the male germ cells and the developing spermatozoa. Pyrethroids are common synthetic insecticides of which some have previously shown estrogenic activity. Therefore this investigation examined the effects of pyrethoids, whose estrogenicity was confirmed via the yeast assay, on the estrogen receptor expression in mouse Sertoli cells as a model for general effects of estrogenic chemicals on male fertility. The results first confirmed the estrogenicity of some pyrethroids and these pyrethroids when exposed to mouse Sertoli cells effected estrogen receptor mRNA expression however in a different way to the natural ligand 17β-estradiol. sperm xenoestrogens receptors male reproductive tissues signal transduction pyrethroids RNA TM4 mouse sertoli cell culture
708	Apoptotic cell death in neural stem cells exposed to toxic stimuli / Tamm, Christoffer, January 2007 (has links) Diss. (sammanfattning) Stockholm : Karolinska institutet, 2007. / Härtill 6 uppsatser.
709	The study on signal mechanism of protein kinase C zeta-involved NF-kB activation in LPS-stimulated TLR4 signaling pathways Huang, Xuesong. January 2007 (has links) Dissertation (Ph.D.)--University of Toledo, 2007. / "In partial fulfillment of the requirements for the degree of Doctor of Philosophy in Biomedical Sciences." Title from title page of PDF document. Bibliography: p. 72-96.
710	Repressing the hedgehog signalling pathway : functional analysis of the tumour suppressors patched1 and suppressor of fused / Svärd, Jessica, January 2007 (has links) Diss. (sammanfattning) Stockholm : Karolinska institutet, 2007. / Härtill 4 uppsatser.

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