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Integrin affinity modulation and survival signallingElliott, Paul Anthony January 2008 (has links)
Integrins are heterodimeric transmembrane proteins that provide a bi-directional link between the cell’s internal biological mechanisms and the extracellular environment. During inside-out signalling, intracellular messages converge on the integrin cytoplasmic domain to induce a conformational change. This is transmitted to the extracellular domain where it results in an alteration in affinity for integrin ligands such as fibronectin and laminin. In this way the cell has developed the ability to modulate the critical functions of adhesion and cell movement. In outside-in signalling, the integrin performs a more complex function than simple adhesion; upon binding to ligand, the integrin extracellular domain undergoes a conformational change which is transmitted to the cytoplasmic domain. This alters the integrin’s cytoplasmic domain affinity for intracellular signalling proteins and results in the activation of intracellular second messenger pathways. In this way, the extracellular milieu is able to influence intracellular signalling including those involved in apoptosis. This thesis demonstrates data which provide original insights into bi-directional integrin signalling: Inside-out signalling: Constitutively active Notch1 increases β3-integrin affinity and abrogates Hras-mediated integrin suppression without increasing expression of β3- integrin. Dominant-Negative Rras blocks Notch-mediated integrin activation and Notch1-mediated reversal of Hras and Raf-mediated integrin suppression and this is independent of erk phosphorylation. Notch1 induces Rras activation. Functional adhesion assays confirm that Notch1IC increases K562 adhesion in a β1-integrin dependent manner and this is abrogated by Dominant-Negative Rras. This data supports a mechanism in which Notch1 increases integrin affinity via activation of Rras. Outside-in signalling: Evidence is presented demonstrating that extracellular matrix proteins, laminin and fibronectin, activate β1-integrins to protect SCLC cells against the apoptotic effects of etoposide and ionizing radiation via PI3Kinase activation. This occurs in two ways: 1) PI3Kinase-dependent β1-integrin signalling resulting in phosphorylation of Bad and reduced caspase-9 cleavage and 2) a β1-integrinmediated over-riding of etoposide and radiotherapy-induced cell cycle S phase delay and G2/M arrest. β1-integrin-mediated outside-in survival signalling was investigated further in the in vivo setting; MatrigelTM, a basement membrane product rich in extracellular matrix proteins, promoted SCLC xenograft survival and growth in a β1-integrin and tyrosine kinase-dependent manner. This data provides novel insights into the critical functions that integrins play in adhesion and survival signalling.
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Mechanisms of Integrin Signal TransductionStefansson, Anne January 2007 (has links)
<p>Integrins are a protein family of cell surface receptors, expressed in all cell types in the human body, except the red blood cells. Besides their importance in mediating physical connections with the surrounding environment, the integrin family members are also vital signalling mediators. They have no intrinsic kinase activity; instead the signals are transduced through conformational changes. </p><p>In this thesis, work is presented which is focused on molecular mechanisms of integrin signal transduction. The signal transduction was first studied from a structural point of view, determining the transmembrane domain borders of a few selected integrin family members and ruling out a signalling model involving a “piston-like” movement. </p><p>Then, downstream signalling events involved in the beta1 integrin-induced activation of Akt via the PI3kinase family were characterized. Our results identify a novel pathway for PI3K/Akt activation by beta1 integrins, which is independent of focal adhesion kinase (FAK), Src and EGF receptor. Furthermore, both beta1 integrins and EGF receptors induced phosphorylation of Akt at the regulatory sites Thr308 and Ser473, but only EGF receptor stimulation induced tyrosine phosphorylation of Akt.</p><p>Finally, signals from beta1 integrins underlying the morphologic changes during cell spreading were studied. A rapid integrin-induced cell spreading dependent on actin polymerisation was observed by using total internal reflection fluorescence (TIRF) microscopy. This integrin-induced actin polymerisation was shown to be dependent on PI3K p110alpha catalytic subunit and to involve the conserved Lys756 in the beta1-integrin membrane proximal part.</p>
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Mechanisms of Integrin Signal TransductionStefansson, Anne January 2007 (has links)
Integrins are a protein family of cell surface receptors, expressed in all cell types in the human body, except the red blood cells. Besides their importance in mediating physical connections with the surrounding environment, the integrin family members are also vital signalling mediators. They have no intrinsic kinase activity; instead the signals are transduced through conformational changes. In this thesis, work is presented which is focused on molecular mechanisms of integrin signal transduction. The signal transduction was first studied from a structural point of view, determining the transmembrane domain borders of a few selected integrin family members and ruling out a signalling model involving a “piston-like” movement. Then, downstream signalling events involved in the beta1 integrin-induced activation of Akt via the PI3kinase family were characterized. Our results identify a novel pathway for PI3K/Akt activation by beta1 integrins, which is independent of focal adhesion kinase (FAK), Src and EGF receptor. Furthermore, both beta1 integrins and EGF receptors induced phosphorylation of Akt at the regulatory sites Thr308 and Ser473, but only EGF receptor stimulation induced tyrosine phosphorylation of Akt. Finally, signals from beta1 integrins underlying the morphologic changes during cell spreading were studied. A rapid integrin-induced cell spreading dependent on actin polymerisation was observed by using total internal reflection fluorescence (TIRF) microscopy. This integrin-induced actin polymerisation was shown to be dependent on PI3K p110alpha catalytic subunit and to involve the conserved Lys756 in the beta1-integrin membrane proximal part.
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Investigating the porcine feto-maternal interface throughout gestation : associations with foetuses of different size and sexStenhouse, Claire January 2018 (has links)
Background: Inadequate foetal growth cannot be remedied postnatally, leading to severe consequences for neonatal and adult development. Furthermore, sexual dimorphism in placental development has been suggested in humans although this remains poorly investigated in the pig. Hypotheses: Intrauterine Growth Restriction (IUGR) occurs due to aberrant conceptus attachment, which leads to alterations in angiogenesis and vascularity of the feto-maternal interface. Altered gene expression and vascularity will be observed at the feto-maternal interface in male foetuses compared to female foetuses. Increased apoptosis and decreased proliferation will be observed in the feto-maternal interface associated with the lightest foetuses compared to the closest to mean litter weight (CTMLW) foetuses. Aims: This thesis aimed to investigate the association between foetal size and sex and: integrin signalling; apoptotic and proliferation pathways; umbilical arterial (UA) blood flow; and angiogenesis and vascularity at the feto-maternal interface. This was performed by the collection of placental and endometrial samples associated with conceptuses or foetuses of different size (lightest and CTMLW) and sex at gestational day (GD) 18, 30, 45, 60 and 90. Conclusion This thesis has presented novel findings of associations between foetal size and sex, and placental and endometrial integrin signalling, apoptosis and proliferation, and angiogenesis and vascularity. Currently, this is the first suggestion in the literature that foetal size, and more intriguingly foetal sex, may have a strong influence on the activity of the endometrium. The mechanisms behind these findings warrant further investigation. Switches in the direction of differences at the feto-maternal interface between foetuses of different size were observed throughout gestation, notably between GD45 and 60, highlighting the dynamic nature of the feto-maternal interface and suggesting this as a potential window that could be manipulated by the industry to attempt to rescue the postnatal phenotype of IUGR piglets.
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Structural and Functional Aspects of β1 Integrin SignallingNilsson, Stina January 2006 (has links)
<p>Integrins are transmembrane glycoproteins primarily mediating interactions of cells with the extracellular matrix. Each receptor is a complex of one α- and one β-subunit with affinity for a diverse set of ligands. A prerequisite for ligand binding, and subsequent events, is the activation of integrins by cytoplasmic signals that confer a large conformational change to the extracellular domain.</p><p>In this thesis, the role of a cytoplasmic threonine-cluster, conserved in several β subunits, in β1-integrin activation was investigated. Phosphorylation of these residues is postulated to regulate β2 and β3 integrin affinity for ligands, but it has not been shown so far to occur for β1. Residue T788, but not T789, was established as a site of critical importance for inside-out activation of β1 integrins by mutagenesis to alanine. In contrast to β1-T788A, a phospho-mimicking mutation, β1-T788D, expressed the conformation sensitive 9EG7-epitope and mediated normal cell adhesion. In addition, the T788D mutation did not interfere with binding of the talin head domain, an interaction important for integrin activation. Thus, phosphorylation of T788 in integrin β1 was concluded to be compatible with inside-out receptor activation, in line with β2 and β3 integrin regulation. </p><p>Focal adhesion kinase (FAK) is activated after integrin ligation and is, together with Src, one of the central players in integrin-mediated events. Phosphatidylinositol 3-kinase (PI3K) is thought to be activated by binding to FAK. However, a novel, major β1-integrin signalling pathway to activate PI3K was identified, which is FAK- and Src-independent.</p><p>Growth factor induced stimulation of extracellular signal-regulated kinase (Erk) is largely dependent on signals from integrin mediated adhesion to pass checkpoints downstream of Ras. The mechanisms by which β1-integrins mediate Erk-activation were characterized by pin-pointing what phosphorylation sites on the mitogen-activated protein (MAP) kinases and their effector proteins were FAK-dependent. The results indicated that β1 integrins can promote Erk activation by FAK-dependent mechanisms at the levels of both cRaf and Mek, and in addition, a FAK-independent checkpoint at the level of Mek activation.</p>
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Structural and Functional Aspects of β1 Integrin SignallingNilsson, Stina January 2006 (has links)
Integrins are transmembrane glycoproteins primarily mediating interactions of cells with the extracellular matrix. Each receptor is a complex of one α- and one β-subunit with affinity for a diverse set of ligands. A prerequisite for ligand binding, and subsequent events, is the activation of integrins by cytoplasmic signals that confer a large conformational change to the extracellular domain. In this thesis, the role of a cytoplasmic threonine-cluster, conserved in several β subunits, in β1-integrin activation was investigated. Phosphorylation of these residues is postulated to regulate β2 and β3 integrin affinity for ligands, but it has not been shown so far to occur for β1. Residue T788, but not T789, was established as a site of critical importance for inside-out activation of β1 integrins by mutagenesis to alanine. In contrast to β1-T788A, a phospho-mimicking mutation, β1-T788D, expressed the conformation sensitive 9EG7-epitope and mediated normal cell adhesion. In addition, the T788D mutation did not interfere with binding of the talin head domain, an interaction important for integrin activation. Thus, phosphorylation of T788 in integrin β1 was concluded to be compatible with inside-out receptor activation, in line with β2 and β3 integrin regulation. Focal adhesion kinase (FAK) is activated after integrin ligation and is, together with Src, one of the central players in integrin-mediated events. Phosphatidylinositol 3-kinase (PI3K) is thought to be activated by binding to FAK. However, a novel, major β1-integrin signalling pathway to activate PI3K was identified, which is FAK- and Src-independent. Growth factor induced stimulation of extracellular signal-regulated kinase (Erk) is largely dependent on signals from integrin mediated adhesion to pass checkpoints downstream of Ras. The mechanisms by which β1-integrins mediate Erk-activation were characterized by pin-pointing what phosphorylation sites on the mitogen-activated protein (MAP) kinases and their effector proteins were FAK-dependent. The results indicated that β1 integrins can promote Erk activation by FAK-dependent mechanisms at the levels of both cRaf and Mek, and in addition, a FAK-independent checkpoint at the level of Mek activation.
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