Global ETD Search

581	Genotype and phenotype interactions of the insulin-like growth factor system in type 2 diabetes Narayanan, Ram January 2013 (has links) Background: Multiple lines of evidence implicate the insulin-like growth factor(IGF) group of proteins in human type 2 diabetes. The actions of IGF-I and IGF-IIare modulated through their interaction with IGF binding proteins. A holisticapproach to study the IGF system is preferable to analyses of individual proteininteractions as the inter-relationships between these proteins are complex. Inparticular, the associations of IGF-II and its associated binding proteins withcardiovascular risk have been inadequately studied. This study aimed to study indetail the genotype and phenotype interactions of the IGF system with longitudinalcardiovascular risk factor trends and phenotypic outcomes in type 2 diabetes.Methods: 1000 subjects of predominantly Caucasian origin from the SalfordDiabetes Cohort were studied. Measurements of IGF proteins (IGF-I, IGF-II,IGFBP-1, IGFBP-2 and IGFBP-3) were performed in 554 of these patients. 991Caucasian subjects were successfully genotyped for 76 single nucleotidepolymorphisms (SNPs) related to ten genes in the IGF system. In this project weanalysed associations of the studied SNPs with the measured IGF proteins as well aslongitudinal risk factor trends. In addition, the baseline concentrations of themeasured proteins were studied for associations with cardiovascular risk factortrends and vascular outcomes.Results: This project demonstrates for the first time that high serum IGF-IIconcentration at baseline predicts longitudinal increases in high-density lipoproteincholesterol. High baseline IGF-II was also observed to predict longitudinal weightloss. High baseline concentration of IGFBP-2 (which has a preferential associationof IGF-II over IGF-I) was associated with a number of favourable longitudinalcardiovascular risk trends like increased HDL cholesterol and decreased diastolicblood pressure. However high IGFBP-2 was also associated with deterioration inrenal function and increased all-cause and cardiovascular mortality. The IGF2 geneand the genes encoding IGFBP-2 and IGFBP-5 (proteins with IGF-II bindingaffinity) were also associated with longitudinal trends in renal function, bloodpressure and cholesterol concentration.Discussion: This study is the most detailed exploration to date of the genotype andphenotype interactions of the IGF system in a Caucasian population with type 2diabetes. Results from this study strongly hint that changes in IGF-II bioavailabilitymay influence inter-individual variations in cardiovascular risk. The precisebiological role of IGF-II merits clarification in future expression studies in renal,adipose and vascular tissues. Replication of significant results in an independentdiabetes cohort and measurement of other IGF binding proteins will be performed inthe next stage of this study. 616.4624
582	Participation des fibroblastes et des fibrocytes aux mécanismes de réparation pulmonaire au cours des agressions alvéolaires aiguës / Participation of fibroblasts and fibrocytes in lung repair mechanisms during acute lung injury Quesnel, Christophe 18 December 2009 (has links) Le syndrome de détresse respiratoire aiguë (ARDS) est la forme la plus sévère d'agression alvéolaire aiguë (ALI) Il est caractérisé par un dommage alvéolaire diffus suivi d'une phase de réparation nécessaire à la guérison. Bien que les fibroblastes pulmonaires soient des acteurs essentiels de cette réparation, leurs caractéristiques et leurs fonctions restent mal connues chez l'homme au cours des ALI/ARDS. L’hypothèse défendue par cette thèse est qu’une réparation alvéolaire harmonieuse nécessite un recrutement adapté des fibroblastes et de leur précurseur, les fibrocytes, vers le poumon, ainsi qu' une fine régulation de leurs fonctions par l'environnement inflammatoire de l'alvéole. Les principaux résultats de nos travaux ont permis : 1) d’établir que le liquide de lavage alvéolaire (LBA) recueilli lors des ALI/ARDS stimule la production de facteurs de réparation épithéliaux comme l'Hepatocyte Growth Factor (HGF) et le Keratinocyte Growth Factor (KGF) par les fibroblastes. Cette production est principalement induite par l'IL-1ß via une boucle autocrine COX2/PGE2. 2) de montrer que les fibroblastes alvéolaires cultivés à partir des LBA d'ALI/ARDS présentent un phénotype activé, caractérisé par une production augmentée de collagène 1 et une capacité de migration majorée. La détection de fibroblastes dans les cultures de cellules du LBA est associée à une diminution des marqueurs de l'inflammation et à une réduction de la durée de ventilation des patients concernés. 3) D’analyser l’effet des LBA d'ALI/ARDS sur la migration des fibroblastes et de monter l’existence d’un équilibre entre activation et inhibition de la migration via une modulation de le voie du PDGF. La forme soluble du récepteur a au PDGF (PDGF-sRa) est un des inhibiteurs présent dans le LBA. Une augmentation de la capacité chimiotactique des LBA de patients en ALI/ARDS est associée à une augmentation de la mortalité.4) De démontrer la présence de fibrocytes, précurseurs mésenchymateux circulants d'origine hématopoïétique, dans les LBA de patients en ALI/ARDS et de mettre en évidence que leur recrutement excessif, est associé à un mauvais pronostic. Ainsi, après ajustement sur les covariables cliniques et biologiques (modèle de COX), un pourcentage de fibrocyte supérieur à 6% de la population cellulaire totale du LBA est associé à une durée de ventilation prolongée et à une mortalité augmentée. L’ensemble de ces travaux démontrent pour la première fois que les fibroblastes et les fibrocytes sont directement associés au pronostic lors des ALI/ARDS, que leur rôle est indispensable à la guérison mais que leur recrutement excessif pourrait impacter défavorablement le pronostic des patients. Les données physiopathologiques obtenues pourraient contribuer à l’identification de nouvelles cibles thérapeutiques et à proposer de nouveaux marqueurs biologiques dans la prise en charge des ALI/ARDS / Acute Respiratory Distress Syndrome (ARDS) is the most severe form of Acute Lung Injury (ALI) and is characterized by diffuse alveolar damage followed by a phase of alveolar repair necessary to recovery. Although lung fibroblasts are key players in this repair process, their characteristics and functions remain poorly understood in humans during ALI/ARDS. The hypothesis of our studies was that effective alveolar repair requires a regulated recruitment of fibroblasts and fibrocytes (circulating mesenchymal precursors of hematopoietic origin) to the lung, as well as a tight regulation of their functions by the alveolar inflammatory environment. The main results of our works have shown that: 1) The alveolar lavage fluid (BAL) from ALI/ARDS patients stimulated the production of Hepatocyte Growth Factor (HGF) and Keratinocyte Growth Factor (KGF) by fibroblasts, both of which were involved in epithelial repair. This production was mainly induced by IL-1ß via an autocrine COX2/PGE2 dependant loop. 2) The alveolar fibroblasts cultured from BAL fluids of ALI/ARDS patients demonstrated an activated phenotype, characterized by an increase of both collagen 1 production and ability to migrate. A positive BAL fibroblast cell culture was associated with reduced markers of inflammation and reduced ventilation duration of ALI/ARDS patients. 3) BAL fluids from ALI/ARDS patients modulated fibroblast migration. This effect was related to a balance between activation and inhibition of migration involving the PDGF signaling pathway. The soluble form of the PDGF a receptor (PDGF-sRa) participated in the BAL inhibitory chemotactic activity. An increased chemotactic ability of BAL from ALI/ARDS patients was associated with higher mortality. 4) Excessive recruitment of fibrocytes is associated with poor prognosis. After adjustment of clinical and biological covariates (Cox model), a percentage of fibrocytes higher than 6% of total BAL cells is associated with a prolonged ventilation duration and an increased mortality. Taken together, our works demonstrate for the first time that fibroblasts and fibrocytes are directly associated with prognosis in ALI/ARDS. Fibroblasts are essential to lung healing, but their excessive recruitment may have a negative impact on prognosis. The data presented in this thesis may help identify new therapeutic targets and suggest new biomarkers to consider in the management of ALI/ARDS ARDS ALI Réparation Fibroblastes Facteurs de croissance HGF KGF Fibrocytes ARDS ALI Repair Fibroblasts Growth factors HGF KGF Fibrocytes
583	Activation of multiple hemopoietic growth factor genes in Abelson virus transformed myeloid cells Abraham, Samuel D. M. January 1988 (has links) The stringent requirement for hemopoietic growth factors (HGF) in the induction of hemopoiesis in vitro has raised questions as to their possible role(s) in leukemogenesis. Several recent clinical studies have shown aberrant cell growth factor gene activation in patient derived leukemic cells. Assessment of growth factor activity is often based on in vitro bioactivity assays of conditioned media or body fluids. The specificity of this type of endpoint is, however, open to question due to the overlap in biological activities of many HGFs. In assessing the role of growth factor gene expression in a murine myeloid leukemia model I have used a sensitive RNA detection procedure coupled with a vector-probe system that enables the synthesis of uniformly labelled radioactive DNA probes to detect unambiguously the expression of particular growth factor genes. The Abelson murine leukemia virus (A-MuLV) derived myeloid transformants used in this study had previously been shown to produce a multi-lineage colony stimulating activity (CSA). While these A-MuLV transformants were shown to produce GM-CSF, it seemed likely that the multi-lineage CSA was due to another factor. In addition to confirming the expression of GM-CSF mRNA, I was able to show that the cells of all four A-MuLV transformed lines tested also expressed interleukin-3 mRNA. This finding was strongly corroborated by bio-activity data obtained using the CM from the A-MuLV myeloid transformants. Additional preliminary analysis by bioactivity assays have also shown the possible presence of interleukin-6 (IL-6) and a recently described pre-B cell factor suggesting perhaps a common mechanism underlying the activation of these various growth factor genes. / Medicine, Faculty of / Medical Genetics, Department of / Graduate Growth factors Hematopoietic stem cells Cell transformation Growth Substances Hematopoietic Stem Cells Cell Transformation, Neoplastic Plant growth promoting substances
584	Regulação de P27 pelo fator de crescimento transformante <font face=\"Symbol\">b1 (TGF<font face=\"Symbol\">b1) na mucosa gástrica de ratos lactentes. / Transforming growth factor <font face=\"Symbol\">b1 regulates p27Kip1 post translational levels in the gastric mucosa of suckling rats. Ana Paula Zen Petisco Fiore 07 May 2013 (has links) O leite é essencial para o desenvolvimento pós-natal da mucosa gástrica e durante o período de aleitamento, o jejum estimula a proliferação celular. Mostramos que o TGF<font face=\"Symbol\">b, reverte este efeito e p27 está envolvida neste mecanismo. Os níveis de p27 oscilam durante o ciclo celular, devido à sua fosforilação na Thr187, que leva à degradação pelo sistema UPS. Diferentes estudos relatam que TGF<font face=\"Symbol\">b pode aumentar p27, através do controle de sua degradação. Este estudo visa analisar o efeito do jejum e TGF<font face=\"Symbol\">b1, na regulação de p27 no epitélio gástrico de ratos lactentes. Para tanto, filhotes de 14 dias foram submetidos a jejum durante 90 min e receberam uma dose única de TGF<font face=\"Symbol\">b ou PBS, por gavagem. As amostras foram coletadas após 2 e 14 horas de tratamento. Analisamos a concentração proteica de p27, fosfo-p27, Skp2 e Cdh1. Observamos que durante o jejum houve a diminuição de p27 e Cdh1, paralelamente ao aumento de fosfo-p27 e Skp2. Enquanto que o tratamento com TGF<font face=\"Symbol\">b1, reverteu os efeitos do jejum em 2h e 14h em todas as proteínas analisadas. Além disso, o jejum aumentou a ubiquitinação e degradação de p27 e o tratamento com TGF<font face=\"Symbol\">b1 reverte esses efeitos. Desta forma, o TGF<font face=\"Symbol\">b1 do leite materno estabiliza os níveis de p27 e assim, influenciar a progressão do ciclo celular no epitélio gástrico. / Milk is essential for postnatal development of the gastric mucosa and during the suckling period fasting stimulates cell proliferation. We have shown that TGF<font face=\"Symbol\">b reverses this effect and p27 is involved in this mechanism. The levels of p27 oscillate during the cell cycle due to its phosphorylation at Thr187, which leads to its degradation by the UPS. Different studies reported that TGF<font face=\"Symbol\">b can increase p27, by controlling its degradation. This study aims to analyze the effect of fasting and TGF<font face=\"Symbol\">b1 in regulating p27 in lactating rats gastric epithelium. For such, the 14 days rats were fasted for 90 min and received a single dose of TGF<font face=\"Symbol\">b or PBS by gavage. Samples were collected after 2 and 14 hours of treatment. We analyzed the p27 protein concentration, phospho-p27, Skp2 and Cdh1. We found that during fasting, p27 and Cdh1 a decreased, at the same time to the increment of phospho-p27 and Skp2. The treatment with TGF<font face=\"Symbol\">b1, reversed the effects of fasting on 2h and 14h in all proteins analyzed. Moreover, the fasting increased the ubiquitination and the degradation of p27, while TGF<font face=\"Symbol\">b1 treatment reversed these effects. Thus the milk born TGF<font face=\"Symbol\">b1 can stabilize p27 levels and thus influences cell cycle progression in lactent rat gastric epithelium. Aleitamento materno Ciclo celular Fatores de crescimento Jejum Mucosa gástrica Ratos Breastfeeding Cell cycle Fasting Gastric mucosa Growth factors Rats
585	O papel das proteínas ras em células adrenocorticais Y-1 e na transdução do sinal de ACTH / The role of ras proteins in Y-1 adrenocortical cells and the transduction of the ACTH signal Miriam Santos de Moraes 05 September 2002 (has links) Células Y-1 apresentam o gene K-ras amplificado, o que resulta em altos níveis de expressão da proteína codificada por este gene. Este fato faz com que células Y-1 apresentem níveis cronicamente altos de K-Ras-GTP. Além disso, estas células apresentam uma relativa desregulação da transição G0→Gl→S, a qual é caracterizada por uma porcentagem de células entrando na fase S do ciclo celular na condição carenciada; e também, por um afrouxamento na regulação de Myc, o qual apresenta níveis basais significantes de mRNA e proteína. Para verificar se existe uma relação entre K-Ras-GTP elevado e os níveis basais de Myc e a desregulação na transição G0→Gl→S, células Y-1 foram transfectadas com uma forma dominante negativa de H-ras, H-ras Asn-17 (RasN 17). Os transfectantes resultantes também foram utilizados para verificar o papel de Ras na transdução do sinal iniciado por FGF-2 e ACTH. Com estes clones foi possível verificar uma redução nos níveis de ativação de K-Ras na condição carenciada, e com isso ficou claro que FGF-2 e ACTH são capazes de induzir a ativação de K-Ras, porém com cinética diferentes: uma ativação tardia e lenta para FGF-2, e rápida e transiente para ACTH. Com a redução nos níveis de Ras-GTP, verificamos uma concomitante redução no basal da proteína c-Myc e também no basal de entrada em S, indicando que existe uma correlação entre estes fatores. Além disso, os clones Yl-RasN17 foram determinantes para mostrar que em células Y-1 a presença de Akt/PKB constitutivamente ativada é conseqüência dos níveis cronicamente elevados de K-Ras-GTP (Forti et al, 2002). / Abstract not available. C-myc Células adrenocorticais Fatores de crescimento Proteínas Ras Transdução de sinal Adrenocortical cells C-myc Growth factors Proteins Ras Signal transduction
586	Porous calcium phosphate based nanovectors for growth factor release / Phosphates de calcium poreux à base de nanovecteurs pour le relargage des facteurs de croissance Möller, Janina 20 December 2010 (has links) Les phosphates de calcium sont les céramiques les plus utilisées dans la régénération osseuse grâce à leur biocompatibilité et leur bonne résorption. Pourtant, leur performance peut être améliorée s'ils sont associés à des facteurs de croissance. Afin de contrôler le relargage des facteurs de croissance, l'objectif de la thèse a été de synthétiser des phosphates de calcium avec une mésoporosité contrôlée. Ce travail représente la première association des phosphates de calcium mésoporeux avec les facteurs de croissance TGF et VEGF.Pour obtenir des phosphates de calcium mésoporeux, des nouvelles techniques de réplique ont été mises en place : L'hydroxyapatite est synthétisée dans la porosité des templates siliciques ou carbonés par infiltration de précurseurs en solution aqueuse. L'élimination de la matrice s'effectue par dissolution chimique par de la soude dans le cas du template silicique et par oxydation sélective sous air dans le cas du template carboné. Six céramiques ont été choisies pour une analyse de leurs capacités d'adsorption et de relargage de protéines. Dans un premier temps, un protocole est mis en place en utilisant des protéines modèles, la BSA et le Cytochrome Cavant d'utiliser les facteurs de croissance TGF et VEGF. Ces travaux ont permis de déterminer les poudres les plus efficaces en terme d'adsorption et de relargage contrôlé de ces facteurs de croissance. / Calcium phosphates are the most frequently used ceramics for bone regeneration due to their biocompatibility and favorable resorption properties. Their performance can however be improved if they are associated to growth factors. In order to control the release of growth factors, we have inted to synthesize calcium phosphates with controlled mesoporosity. This thesis represents the first work that combines mesoporous calcium phosphates with the growth factors TGF and VEGF. To obtain hydroxyapatite with controlled mesoporosity, we propose new synthesis pathways: the hydroxyapatite is synthesized inside the porosity of silica or carbon templates by infiltration of aqueous precursor solutions. The template is eliminated by chemical etching with NaOH (silica template) or by selective oxidation (carbon template). Six ceramics have been chosen for the analysis of their protein adsorption and release properties. First, the experimental protocol is defined using the model proteins BSA and Cytochrom C. Then, the growth factors TGF and VEGF have been used. By this study, we were able to determine which samples were the most efficient in terms of protein adsorption and release. Hydroxyapatite Mésoporeux Template Adsorption des protéines Facteurs de croissance Régénération osseuse Hydroxyapatite Mesoporous Templating Protein adsorption Growth factors Bone regeneration
587	Expression of Granulocyte-Macrophage Colony-Stimulating Factor Gene in Insect Cells by a Baculovirus Vector Chiou, Chuang-Jiun 12 1900 (has links) The focus of this research is to describe the production and characterization of the human granulocyte-macrophage colony-stimulating factor (hGM-CSF) in insect cells, using Autographa californica buclear polyhedrosis virus (AcNPV) as an expression vector. All three forms of biological activity of hGM-CSF. Following N-glycanase treatment, the two glycosylated hGM-CSF proteins (15.5 and 16.5 KDa) which bound to Concanavalin A affinity column ran as a 14.5-15.5 KDa band on SDS-PAGE. Western blot analysis of expression in Sf9 cells treated with tunicamycin revealed only the presence of the 14.5 KDa species. The N-terminal amino acid sequence of the recombinant hGM-CSF was identical to that of natural hGM-CSF deduced from cDNA. These results demonstrate that baculovirus-produced hGM-CSF could be N-glycosylated in Sf9 cells, the signal peptide of recombinant hGM-CSF could be recognized and cleaved by infected insect cells and the resultant molecule secreted into the medium. hematopoiesis granulocyte-macrophage baculoviruses recombinant proteins Hematopoiesis -- Regulation. Hematopoietic growth factors. Colony-stimulating factors (Physiology) Baculoviruses. Recombinant proteins.
588	Neonatal Quinpirole Treatment Impairs Morris Water Task Performance in Early Postweanling Rats: Relationship to Increases in Corticosterone and Decreases in Neurotrophic Factors Brown, Russell W., Flanigan, Timothy J., Thompson, Kimberly N., Thacker, Stephanie K., Schaefer, Tori L., Williams, Michael T. 01 August 2004 (has links) Background Past studies from this laboratory have shown that quinpirole administration from postnatal day (P) 1–21 produces persistent supersensitization of the dopamine D2 receptor that persists throughout the animal's lifetime. Methods In Experiment 1, both male and female rats were treated with quinpirole or saline from P1–21 and tested on the place and match-to-place versions of the Morris water task (MWT) from P22–28. In Experiment 2, both male and female rats were administered either acute or chronic injections of quinpirole (1 mg/kg) or saline beginning on P1 until analysis for corticosterone (CORT) on P7, 14, or 21. Results Neonatal quinpirole treatment produced deficits on both versions of the MWT compared with saline control. One day after behavioral testing, brain tissue was harvested, and the hippocampus was analyzed for nerve growth factor (NGF) and brain-derived nerve growth factor (BDNF); NGF was found to be significantly decreased by neonatal quinpirole treatment. Acute or chronic quinpirole treatment on P14 produced a larger increase in CORT than controls and produced larger increases in CORT than control rats on P21. Conclusions These results demonstrate that neonatal quinpirole treatment produces cognitive deficits that could be related to decreases in hippocampal NGF and increases in CORT, resulting in abnormalities in hippocampal development. analysis of variance Quinpirole Corticosterone Dopamine agonists age factors nerve growth factors Biomedical Sciences Neurosciences Pharmacy and Pharmaceutical Sciences Substance Abuse and Addiction
589	Capillary Morphogenesis Gene Protein 2 (CMG2) Mediates Matrix Protein Uptake and is Required for Endothelial Cell Chemotaxis in Response to Multiple Vascular Growth Factors Tsang, Tsz Ming Jeremy 09 April 2020 (has links) Pathological angiogenesis, or new blood vessel formation, is involved in many pathologies, including cancer and serious eye diseases. While traditional anti-angiogenic therapies target vascular endothelial growth factor receptors to reduce or inhibit new vessel formation, this approach has several downsides, including unpleasant side effects and low efficacy over time. Therefore, identifying new targets to treat pathological angiogenesis is still needed. CMG2, one of the two identified anthrax toxin receptors, has been proposed as an alternative target to treat pathological angiogenesis. CMG2’s role as a cell surface receptor that mediates anthrax toxin internalization is very well documented. One physiological function for CMG2, not related to anthrax intoxication, is suggested by the observation that loss-of-function mutations in CMG2 cause hyaline fibromatosis syndrome (HFS), a genetic disease that results in accumulations of extra-cellular matrix (ECM) protein in different parts of the body. While the complete molecular mechanism for CMG2’s role in regulating angiogenesis has not been determined, this dissertation addresses multiple ways CMG2 regulates pathological angiogenesis. We have discovered that CMG2 plays a role in mediating ECM homeostasis via endocytosis of ECM proteins and protein fragments as a way to generate angiogenic signals from the cell. We have also demonstrated that a fragment from Col IV, S16, is endocytosed into the cells by interacting with CMG2, and S16 treatment to endothelial cells leads to a significant reduction in cell migration. Also, an endothelial cell migration assay with CMG2 knockout cells results in abolished directional migration, indicating that CMG2 is required for endothelial cell chemotaxis. Notably, we have identified that bFGF, VEGF, and PDGF are involved in CMG2 mediated chemotaxis but not insulin and sphingosine-1-phosphate (S1P). While recent literature reports show that CMG2 works closely with RhoA GTPase, which is commonly known to regulate cell migration, we have also observed that inhibition of RhoA also reduced cell chemotaxis towards VEGF but not S1P. These results could be leveraged to develop new classes of therapeutic molecules to treat pathological angiogenesis induced by multiple various growth factors via targeting CMG2. capillary morphogenesis gene 2 (CMG2) pathological angiogenesis extracellular matrix growth factors chemotaxis RhoA GTPase Physical Sciences and Mathematics
590	Impact of the Maturation Status of Osteoblasts on Their Hematopoietic Regulatory Activity Alsheikh, Manal January 2017 (has links) Osteoblasts (OST) provide strong intrinsic growth modulatory activities on hematopoietic stem and progenitor cells via different mechanisms that include secretion of growth factors, and cellular interaction. Previously we showed that medium conditioned by mesenchymal stromal cell (MSC)-derived osteoblasts (M-OST) improve the expansion of cord blood (CB) CD34+ cells. I hypothesize that the hematopoietic supporting activity of M-OST would vary as a function of their maturation. This was tested by producing osteoblast conditioned media (OCM) from M-OST at distinct stages of maturation, and testing their growth regulatory activities in CB CD34+ cell cultures. My results showed that some of the growth promoting activity of OCM on CB cells are not dependent on the maturation status, while others are and those are largely independent of Notch signalling. In conclusion, these results provide further evidence that osteoblasts release factors that can promote the growth of immature CB progenitors in a Notch-independent way. Hematopoietic stem and progenitor cells Cord blood transplantation Osteoblasts Condition media Ex vivo expansion CD34+ cells Growth Factors Notch signalling

Search results