Global ETD Search

371	Studies of genes expressed in the brain and regulated by transforming growth factor �� Solem, Michele Lee 22 July 1992 (has links) Graduation date: 1993 Glycoproteins Transforming growth factors-beta Cysteine proteinases -- Inhibitors Astrocytes Gene expression Genetic regulation
372	Long range nodal signaling in vertebrate left-right specification Ohi, Yuki. January 2007 (has links) Thesis (Ph. D. in Cell and Developmental Biology)--Vanderbilt University, May 2007. / Title from title screen. Includes bibliographical references.
373	The expression and regulation of hyaluronan synthases and their role in glycosaminoglycan synthesis Brinck, Jonas January 2000 (has links) The glycosaminoglycan hyaluronan is an essential component of the extracellular matrix in all higher organisms, affecting cellular processes such as migration, proliferation and differentiation. Hyaluronan is synthesized by a plasma membrane bound hyaluronan synthase (HAS) which exists in three genetic isoforms. This thesis focuses on the understanding of the hyaluronan biosynthesis by studies on the expression and regulation of the HAS proteins. In order to characterize the structural and functional properties of the HAS isoforms we developed a method to solubilize HAS protein(s) while retaining enzymatic activity. The partially purified HAS protein is, most likely, not asscociated covalently with other components. Cells transfected with cDNAs for HAS1, HAS2 and HAS3 were studied and all three HAS isozymes were able to synthesize high molecular weight hyaluronan chains in intact cells. The regulation of the hyaluronan chain length involves cell specific elements as well as external stimulatory factors. HAS3 transfected cells with high hyaluronan production exhibit reduced migration capacity and reduced amounts of a cell surface hyaluronan receptor molecule (CD44) compared to wild-type cells. The three HAS isoforms were studied and shown to be differentially expressed and regulated in response to external stimuli. Platelet derived growth factor (PDGF-BB) and transforming growth factor (TGF-β1) are important regulators of HAS at both the transcriptional and translational level. The HAS2 isoform is the isoform most susceptible to external regulation. The role of the UDP-glucose dehydrogenase in mammalian glycosaminoglycan biosynthesis was assessed. The enzyme is essential for hyaluronan, heparan sulfate and chondroitin sulfate biosynthesis, but does not exert a rate-limiting effect. Biochemistry hyaluronan glycosaminoglycans CD44 growth factors UDP-glucose dehydrogenase Biokemi Biochemistry Biokemi
374	ALS – a Clinical Thesis Nygren, Ingela January 2005 (has links) Amyotrophic lateral sclerosis (ALS) is characterized by a progressive loss of upper and lower motor neurons, resulting in muscle weakness and death from respiratory failure within 3-5 years after onset. The incidence is 1.5-2.7/100,000 inhabitants. 5-10% of all cases are hereditary. The aetiology of sporadic ALS is still unknown. The only neuroprotective drug approved for the treatment of ALS is riluzole, a glutamate-antagonist, which has shown to improve survival. We evaluated if riluzole sales statistics can be used as a method for estimating the prevalence of ALS/motor neuron disease in Sweden. We found that this method, which is less time consuming than conventional methods, could be used as a crude marker for the prevalence. In a longitudinal study of overall Quality of Life (QoL) in ALS we found that QoL changes only slightly over time despite disease progression. ALS does not necessarily result in a low QoL. Growth factors are important for the survival of neurons. In ALS we found increased or normal levels of GDNF mRNA and BDNF mRNA in muscle biopsies, VEGF in serum and spinal cord and FGF-2 in serum and cerebrospinal fluid. There is thus no deficit of these growth factors although there may be a relative lack because of high demands of the motor neurons. Polyamines are small aliphatic molecules that are important for the function of cells. The level of the polyamines spermidine and spermine were increased in red blood cells in both patients with ALS and patients with Parkinson’s disease, suggesting that polyamines may have a role for the neurodegenerative process. Polyamines in spinal cord were of the same level in the patients with ALS and in controls, indicating a maintained regulation of polyamines at the end-stage of the disease. Neurosciences ALS epidemiology drug sales statistics QoL growth factors polyamines Neurovetenskap Neurology Neurologi
375	Interaction of Heparan Sulfate with Pro- and Anti-Angiogenic Proteins Vanwildemeersch, Maarten January 2006 (has links) Heparan sulfate (HS) is an unbranched and negatively charged polysaccharide of the glycosaminoglycan family, based on the repeated (GlcNAcα1-4GlcAβ1-4) disaccharide structure. The HS backbone is modified by epimerization and sulfation in various positions. HS chains are composed of N-sulfated (NS) domains – predominant locations for further modification steps –, the poorly modified N-acetylated (NA) domains and the alternating NA/NS-domains. HS is present at the cell surface and in the extra-cellular matrix and interacts at these sites with various proteins involved in numerous biological processes, such as angiogenesis. Both pro- and anti-angiogenic proteins can interact with HS and this study was focused on how HS binds to the anti-angiogenic proteins endostatin (ES) and histidine-rich glycoprotein (HRGP) and to pro-angiogenic fibroblast growth factors (FGFs). Here we show that ES recognizes NS-domains in HS spaced by NA-disaccharides, and that binding to ES is abolish through cleavage at these NA-disaccharides. HRGP335, a peptide derived from the His/Pro-rich domain of HRGP is shown to bind to heparin and HS to the same extent as full-size HRGP, in a Zn2+-dependent manner. Moreover, the ability of HRGP to inhibit endothelial cell migration is located to the same region of the protein. We analyzed HS structure in respect to binding to HRGP335 and FGF-2, and show that the ability of HS to bind to those proteins depends on chain length and composition. Finally, the role of HS in FGF–HS–FGF receptor ternary complexes is evaluated using biosynthetic analogs of NS-domains. For stabilization of such complexes the overall sulfation degree of HS seems to play a more pronounced role than the exact distribution of sulfate groups. The results presented in this thesis contribute to a greater understanding of the role of HS in angiogenesis and may provide valuable information for the development of cures against angiogenesis-related disorders. Biochemistry heparan sulfate angiogenesis fibroblast growth factors endostatin histidine-rich glycoprotein Biokemi Biochemistry Biokemi
376	Effect of Hyaluronan-activation of CD44 on Cell Signaling and Tumorigenesis Li, Lingli January 2006 (has links) Hyaluronan (HA), a structural component in the extracellular matrix (ECM), has been recognized as a signaling molecule. It is important during various biological activities such as embryogenesis, angiogenesis, wound healing and tumor progression. Increased amount of hyaluronan during embryonic development is necessary for cell migration and differentiation, but the increased production of hyaluronan by tumor cells or tissue fibroblasts is correlated to poor prognosis for tumor progression and chronic inflammation, respectively. Therefore, understanding the mechanisms regulating HA-enriched matrices and the roles of HA in the biological functions is of fundamental biological importance. Four novel findings are described in this thesis: (1) HA fragments (HA12) and the known angiogenic factor FGF-2 promote endothelial cell differentiation by induction of common but also distinct sets of genes, particularly, upregulation of the chemokine CXCL1/GRO1 gene is necessary for HA12-induced angiogenesis and this effect is dependent on CD44 activation. (2) High concentrations of hyaluronan suppress PDGF-BB-induced fibroblasts migration and PDGFRβ tyrosine phosphorylation upon activation of hyaluronan receptor CD44, probably by recruiting a CD44-associated phosphatase to the PDGFRβ. (3) PDGF-BB stimulates HAS2 transcriptional activity and HA synthesis through upregulation of MAP kinase and PI3 kinase signaling pathways in human dermal fibroblasts. (4) Specific suppression of HAS2 gene in the invasive breast cancer cell line Hs578T by RNA interference (RNAi) leads to a less aggressive phenotype of breast tumor cells. This suppressive effect can be reversed by exogenously added hyaluronan. In conclusion, binding of hyaluronan to CD44 plays an important role in cell signaling, inflammation and tumor progression. Further studies are required to elucidate the molecular mechanisms through which hyaluronan levels are regulated under physiological or pathological conditions, and to explore compounds involved in hyaluronan accumulation and activity as targets for therapies of chronic inflammation and tumors. Biomedicine Hyaluronan CD44 growth factors chemokines tumorigenesis wound healing cell signaling Biomedicin
377	Inhibiting the IGF-1 receptor with the cyclolignan Picropodophyllin: an in vitro study of ovulation, implantation and receptivity in a mouse model Larsson, Patrik January 2008 (has links) Picropodophyllin (PPP) is an analogue of the anti tumour lignan podophyllotoxin with the unique ability to selectively inhibit the receptor of Insulin like growth factor 1(IGF-1). IGF-1 is believed to play an important part in development of the endometrium facing implantation. With PPP treated mice, studies can be made to measure gene expression from tissue of both treated and untreated mice to compare the role of IGF-1 regarding ovulation, implantation and receptivity. The aim of this study was to analyze gene expression of some steroid hormone receptors and cytokines in ovaries from mice treated with PPP. In this study, seven mice were treated with PPP at different times and tissue was collected. PCR-primers for cDNA sequences of estrogene receptor α, estrogene receptor β, progesterone receptor A, progesterone receptor B, growth hormone receptor, interleukin 1 α, interleukin 1 β, tumour necrosis factor α and androgen receptor were used. Real Time PCR was run with the samples and gene expression was measured. The results of this study showed that the inhibition of IGF-1 receptor interacted with IGF-1 which lead to altered levels of estrogene receptor alpha, progesterone receptor, growth hormone receptor and androgen receptor that can decrease ovulation. The results also showed the differences in gene products between treated and untreated samples, suggesting that IGF-1 plays an important role regarding ovulation. / Studier med hjälp av den selektiva insulinlika tillväxtfaktor 1 receptorn (IGF-1R) antagonisten; picropodof?phyllin (PPP), hur samspelet mellan livmoderslemhinnan och implantationsprocessen, samt hur ovulationen påverkas av insulinlika tillväxtfaktorn 1 (IGF-1) kan nu utföras. IGF-1 tros ha en viktig roll för den reproduktiva processen, där den påverkar ovulation, implantation och embryoutveckling. IGF-familjen består av tre ligander; insulin, IGF-1 och IGF-2. IGF transporteras bundet till bindarprotein (IGFBP). Medlemmarna i IGF receptorfamiljen kan binda IGF-1, IGF-2 och insulin fast med olika affinitet. PPP som är en cykloligan, är en analog från podofyllotoxin och fungerar som en syntetisk IGF-1 receptorantagonist, som selektivt inhiberar receptorns aktivitet. PPP tros även kunna nedreglera genexpression av receptorn. Tre tidigare projektarbeten har utförts på vävnader från möss injicerade med PPP. Tyngdpunkterna i dessa arbeten har legat på immunhistokemiska studier av IGF-1 i reproduktionsorgan från möss, uttryck av IGF-1, dess receptor och bindarprotein 1 i ovarier och uterus efter behandling med PPP. I denna studie användes vävnad samt cDNA från sju möss behandlade med PPP, i olika stadier av reproduktionen samt även icke behandlade möss. Studiens syfte var att med sanntids-PCR jämföra genuttryck från östrogenreceptor α och β, progesteronreceptor A och B, tillväxthormonreceptor, Interleukin 1 α och β, ’tumor necrosis’ faktor α samt androgenreceptor i vävnad från PPP-behandlade och obehandlade möss och genom de erhållna resultaten från ovarievävnaden utläsa effekten på ovulationen och från uterusvävnaden effekten på implantation och receptivitet. Studieresultaten visade att IGF-1s frånvaro gav förändrade nivåer av genprodukter, som medförde minskad ovulationen. Studien visade att IGF-1s roll vid ovulationen var väsentlig. Growth factors secretory proteins Real Time PCR Ovary Uterus Medical laboratory science Medicinsk laboratorievetenskap
378	Attachment of macromolecular heparin conjugate to gelatin scaffolds improves endothelial cell infiltration Leijon, Jonas, Carlsson, Fredrik, Brännström, Johan, Sanchez, Javier, Larsson, Rolf, Nilsson, Bo, Magnusson, Peetra, Rosenquist, Magnus January 2013 (has links) Long-term survival of implanted cells requires oxygen and nutrients, the need for which is met by vasculari- zation of the implant. The use of scaffolds with surface-attached heparin as anchoring points for angiogenic growth factors has been reported to improve this process. We examined the potential role of surface modification of gelatin scaffolds in promoting endothelial cell infiltration by using a unique macromolecular conjugate of heparin as a coating. Compared to other heparin coatings, this surface modification provides flexible heparin chains, representing a new concept in heparin conjugation. In vitro cell infiltration of scaffolds was assessed using a three-dimensional model in which the novel heparin surface, without growth factors, showed a 2.5-fold increase in the number of infiltrating endothelial cells when compared to control scaffolds. No additional improvement was achieved by adding growth factors (vascular endothelial growth factor and/or fibroblast growth factor-2) to the scaffold. In vivo experiments confirmed these results and also showed that the addition of angiogenic growth factors did not significantly increase the endothelial cell infiltration but increased the number of inflammatory cells in the implanted scaffolds. The endothelial cell-stimulating ability of the heparin surface alone, combined with its growth factor-binding capacity, renders it an interesting candidate surface treatment to create a prevascularized site prepared for implantation of cells and tissues, in particular those sensitive to inflammation but in need of supportive revascularization, such as pancreatic islets of Langerhans. / <p>De två sista författarna delar sistaförfattarskapet.</p> Endothelial cell infiltration inflammatory cells heparin coating gelatin scaffold growth factors
379	Porous calcium phosphate based nanovectors for growth factor release Möller, Janina 20 December 2010 (has links) (PDF) 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. [CHIM:OTHE] Chemical Sciences/Other Hydroxyapatite Mesoporous Templating Protein adsorption Growth factors Bone regeneration
380	Growth Factor Dependent Co-receptor Function of Neuropilins in Breast Carcinoma Mohammed, Nada Shah 23 August 2011 (has links) Neuropilin (Nrp) overexpression is correlated with increased invasion and metastasis in many epithelial carcinomas including breast cancer. The exact molecular mechanism of how Nrp promotes cancer cell tumourigenicity is unknown. Nrp is a coreceptor for VEGF, hepatocyte growth factor (HGF), and also shown to activate TGF-beta on tumour cells. We hypothesize that binding of Nrp potentiates growth factor (GF) signalling and results in GF-dependent aggressive phenotype in breast cancer. In the current study, Nrp was shown to potentiate HGF signalling in vitro in MCF-7 cells by increasing phosphorylation of the MET receptor. However MDA-MB-231 cell line failed to show any differences after Nrp knockdown, due to constitutively activated MET. Nrp is also shown to increase the number and size of cancer stem cell (CSC) enriched mammospheres through NF-kB pathway activation. These results suggest a novel function of Nrp in CSCs and identify it as a potential target for effective cancer therapy. breast cancer cancer stem cells Neuropilin Growth factors 0379 0307 0571

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