Global ETD Search

41	Functional Studies on the PDGFR α gene promoter and effects of autocrine PDGF-A stimulation in vivo Zhang, Xiao-Qun January 2001 (has links) Platelet-derived growth factor receptor α (PDGFRα) plays an important role during embryogenesis. After implantation, the patterns of expression of Pdgfrα and its ligand Pdgf-A undergo an "autocrine-paracrine transition", in that Pdgf-A becomes expressed in the ectoderm and epithelia, while Pdgfrα is expressed in the adjacent mesenchymal tissue. In human tumors, such as malignant glioma, both PDGF and PDGFRα are overexpressed within the same tissue, indicating that an autocrine PDGF loop is generated in the tumors. This thesis is focused on the in vivo functionality of the PDGFRα gene (PDGFRA) promoter, arid on the effect of autocrine PDGF-A stimulation in transgenic n-iice during embryogenesis. To test the in vivo promoter function of a human PDGFRA 2.2 kb 5' flanking fragment, we generated transgenic mouse lines and found that the 2.2 kb fragment was able to promote lacZ reporter gene expression in most of the endogenous Pdgfra expressing tissues. Absence of expression and "ectopic" expression of the transgenic lacZ were also observed. To investigate the autocrine PDGF effect, we produced autocrine PDGF-As (A short-chain) transient transgenic embryos. These transgenic embryos carried a 6 kb mouse Pdgfra 5' flanking sequence linked to a human PDGF-As cDNA. The pattern of expression of the PDGF-As transgene mRNA was similar to that of lacZ. Some of the transgenic embryos exhibited severe abnormal phenotypes, such as midline fusion defects in the cephalic and craniofacial region and small body size, and these embryos die at mid-gestation stage. These findings indicate that a paracrine pattern of expression and the dosage of PDGF are important for sustaining normal embryo development, especially with regard to the middline fusion in craniofacial regions. The possible signaling pathways that may be involved in regulating Pdgfra activity were also studied by comparison of patterns of mRNA expression of Gli, Ptc, and Paxl with that of Pdgfra. The results pointed to the possibility that the Shh signaling pathway may be involved in the regulation of Pdgfra expression for example during early bone and foregut development. The specific regulatory mechanisms may vary for different tissues. Genetics Autorcrine PDGF promoter PDGFRA transgenic mice Genetik Clinical genetics Klinisk genetik
42	Inhibition of PDGF receptor signaling in tumor stroma : Effects on interstitial hypertension, drug uptake and therapeutic response Pietras, Kristian January 2002 (has links) The role of platelet-derived growth factor (PDGF) in malignancies involves both autocrine and paracrine stimulation of cells within the tumor. The interstitial fluid pressure (IFP) is one of the forces that govern the transvascular flow of fluids. In both experimental and clinical cancers, the IFP is elevated and is thought to act as a barrier for delivery of drugs. Increasing evidence points to PDGF as a positive regulator of the interstitial fluid pressure in loose connective tissue. In this thesis, the effect of PDGF receptor inhibition on the tumor IFP, transvascular transport and efficacy of anti-cancer drugs is investigated. All studies were performed using tumor models that display extensive tumor stroma and PDGF receptor expression restricted to stroma cells. Blocking of PDGF receptor signaling significantly reduced the tumor IFP in various tumor models. In parallel, pre-treatment with PDGF antagonists increased the tumor content of cytotoxic agents without affecting the uptake in other organs. Moreover, combination treatment with PDGF receptor inhibitors and chemotherapeutic agents dramatically enhanced the anti-tumor effects of the cytotoxic drugs, whereas treatment with only PDGF receptor inhibitors did not affect the growth of the tumors. Beneficial effects on the tumor reponse to radioimmunotherapy were also produced after concomitant administration of PDGF antagonists. Importantly, anti-angiogenic effects, changes in cell composition and increased tumor cell sensitivity to cytotoxic agents were ruled out as the cause for the synergistic effects. Studies with different temporal scheduling of PDGF receptor inhibitors demonstrated a perfect correlation between a reduced IFP, an increased transvascular transport and an enhanced therapeutic effect of cytotoxic drugs, strongly suggesting that the phenomena are causally linked. The studies presented herein illustrate for the first time the potential of cells in the stroma compartment as a target for efforts to treat cancer. In conclusion, a novel, possibly general, strategy to enhance the effects of conventional anti-cancer drugs has been identified. Oncology PDGF tumor stroma tyrosine kinase inhibitor combination therapy Onkologi Oncology Onkologi
43	Intra- and Extracellular Modulation of Integrin-directed Connective Tissue Cell Contraction van Wieringen, Tijs January 2009 (has links) All blood vessels in the microvasculature are embedded in loose connective tissue, which regulates the transport of fluid to and from tissues. The intersti-tial fluid pressure (IFP) is one of the forces that control this transport. A lowering of IFP in vivo results in an increased transport of fluid from the circulation into the underhydrated connective tissues, resulting in edema formation. During homeostasis, contractile connective tissue cells exert a tension on the connective tissue fibrous network by binding with β1 in-tegrins, thereby actively controlling IFP. During inflammation, the IFP is lowered but platelet-derived growth factor (PDGF)-BB induces an IFP nor-malization dependent on integrin αVβ3. We demonstrate that extracellular proteins from Streptococcus equi subspecies equi modulated cell-mediated and integrin αVβ3-directed collagen gel contraction in vitro. One of these proteins, the collagen- and fibronectin binding FNE, stimulated contraction by a process dependent on fibronectin synthesis. This study identified a pos-sible novel virulence mechanism for bacteria based on the ability of bacteria to modulate the edema response. Another protein, the collagen-binding pro-tein CNE, inhibited contraction and this led to the identification of sites in collagen monomers that potentially are involved in connecting αVβ3 to the collagen network. PDGF-BB and prostaglandin E1 (PGE1) stimulate and inhibit collagen gel contraction in vitro and normalize and lower IFP, respec-tively. We showed that these agents affected both similar and different sets of actin-binding proteins. PDGF-BB stimulated actin cytoskeleton dynamics whereas PGE1 inhibited processes dependent on cytoskeletal motor and adhesive functions, suggesting that these different activities may partly ex-plain the contrasting effects of PGE1 and PDGF-BB on contraction and IFP. Mutation of the phosphatidylinositol 3’-kinase (PI3K), but not phospholipase C (PLC)γ activation site, rendered cells unable to respond to PDGF-BB in contraction and in activation of the actin binding and severing protein cofilin. Ability to activate cofilin after PDGF-BB stimulation correlated with ability to respond to PDGF-BB in contraction, suggesting a role for cofilin in this process downstream of PDGF receptor-activated PI3K. Many proteins can modulate contraction either by affecting the extracellular matrix and cell adhesions or by altering cytoskeletal dynamics. Knowledge on how these proteins might influence IFP is likely to be of clinical importance for treat-ment of inflammatory conditions including anaphylaxis, septic shock and also carcinoma growth. Interstitial fluid pressure PDGF-BB bacterial proteins αVβ3 integrin cytoskeleton Biochemistry Biokemi
44	T-Cell Protein Tyrosine Phosphatase, a Regulator of the PDGF Signaling Pathway Karlsson, Susann January 2009 (has links) Platelet-derived growth factor (PDGF) is a potent stimulator of cell growth, survival and motility. PDGF exerts its function by binding to specific tyrosine kinase receptors, initiating receptor auotphosphorylation and initiation of specific signaling pathways that regulates the cellular response. It is critical that these signals can be modulated and terminated, since over-activation of signaling pathways are often found in diseases, such as cancer. Protein tyrosine phosphatases (PTPs) counteract the tyrosine kinases by dephosphorylating proteins, thereby playing a crucial role in the control of signaling events. The aim of this thesis has been to study the regulation of PDGF receptor signaling by the T-cell protein tyrosine phosphatase (TC-PTP). In the first two studies, we demonstrated that loss of TC-PTP specifically redirected the PDGF β-receptor towards a rapid Rab4a-dependent recycling after ligand-induced internalization. Furthermore, we found that the sorting of activated PDGF β-receptor into the recycling pathway was dependent on sequential PKCα and Rab4a activation. Since the PDGF α-receptor did not recycle in the absence of TC-PTP, this study displays the first evidence of differences in trafficking of the PDGF receptor family members. PDGF β-receptor recycling was also induced by activating PKCα through the LPA receptor. The LPA-induced PDGF β-receptor recycling correlated with increased receptor phosphorylation and cell migration at low concentrations of PDGF-BB. The data suggests that PKCα activation could serve as a point of cross-talk between receptor families, regulating the duration and magnitude of PDGF β-receptor signaling. In the last study, we searched for novel substrates for TC-PTP downstream of the PDGF β-receptor, and identified the pyruvate kinase M2, PK-M2, as a possible substrate. PK-M2 is expressed in cells that proliferate rapidly, including tumor cells. Our data suggests that TC-PTP can interact with the glycolytic complex, affecting the activity of PK-M2 and hence, altering the glucose metabolism for proliferating tumor cells. PDGF TC-PTP receptor trafficking PK-M2 Medical cell biology Medicinsk cellbiologi
45	Examining the prostate stroma and vasculature : importance and potential as targets for therapy Johansson, Anna January 2008 (has links) Background. Recent studies in cancer research have focused on the reciprocal interaction between cancer cells and their microenvironment. Tumour growth is angiogenesis dependent and the rate of angiogenesis correlates with a poor prognosis in many different cancers. We have shown that the rate of angiogenesis correlates with prognosis in Prostate Cancer (PC). We have also observed that the vasculature is involved during the involution of the prostate in rodents subsequent to hormonal ablation. Patients with metastatic PC are subjected to hormonal ablation therapy – a therapy unfortunately not curative. Our ambition is therefore to find means to enhance the effects of castration therapy of prostate tumours, possibly by a simultaneous inhibition of angiogenesis and of growth factors populating the tumour stroma. The angiopoietins are a family of growth factors that regulate angiogenesis by direct effects on endothelial cells in a context dependent manner. The purpose of this thesis was therefore to examine the role of the angiopoietins and the stroma in general in PC and to explore their potential as novel targets. Materials and Methods. We have had at our disposal access to clinical materials in the form of paraffin embedded samples from untreated PC patients with a long follow up. We have also used animal tumour models and in vitro cell culture systems followed by immunohistochemistry, in situ hybridization, western blotting, laser micro dissection, and quantitative real-time PCR for evaluation of the experiments. Results. In paper I, we found a significant correlation between high levels of angiopoietin 2 (Ang 2) and high vascular density, histological grade, metastases and poor prognosis in PC patients. In the second paper we found that the receptor for the angiopoietins, Tie 2, and the ligand Ang 1 mediated the decrease in vascular stability observed after castration treatment. This was not observed in prostate tumours subsequent to hormonal ablation (paper III), nor was there a decrease of other growth factor receptors. In summary (paper III), we found that a combined inhibition of the tumour stroma in terms of an inhibition of the PDGF-Rs by the use of Imatinib, and the vasculature in terms of a perturbed Tie 2 signalling, inhibited tumour growth. Finally, in paper IV, we found that Imatinib inhibited the castration induced influx of mast cells after castration therapy. The mast cells expressed high levels of FGF 2 and epiregulin, and inhibition of mast cell function inhibited tumour growth, by inhibiting angiogenesis. Conclusions. We have observed that the tumour stroma is of particular importance for tumour growth in PC. Targeting the tumour microenvironment, and in particular by a simultaneous inhibition of the vasculature and stroma, could prove beneficial for patients with advanced PC. Prostate cancer castration therapy vasculature stroma the angiopoietins the PDGF-receptors mast cells Pathology Patologi
46	The Roles of Growth Factor Interactions and Mechanical Tension in Angiogenesis Petersson, Ludvig January 2010 (has links) Angiogenesis, the formation of new blood vessels from preexisting ones through creation of new vessel branch points by sprouting or vessel splitting, is an important part of tissue growth in both physiological processes like wound healing and pathological conditions such as cancer. Growth factors like VEGF-A, FGF-2 and PDGF-BB are involved in both types of angiogenesis. Screening for genes regulated by VEGF-A stimulation in endothelial cells revealed up regulation of the endothelial cell specific glycoprotein endocan. Endocan itself did not stimulate angiogenesis. VEGF was a specific inducer since FGF-2, PDGF-BB, HGF and EGF did not alter expression. The signaling molecule PI3K was a negative regulator of endocan expression. Endocan was expressed in tumor cells and vessels, suggesting that although endocan did not directly regulate angiogenesis it can serve as a marker for angiogenic tumors. In two models of wound healing angiogenesis, the chick extra-embryonal CAM assay and the mouse cornea assay, we observed that blood vessels grew into avascular areas as functional mural cell covered loops by elongation of preexisting vessels. Loop formation was simultaneous with contraction of the avascular matrix mediated by proto/myofibroblasts. Reducing the contractibility of the stroma reduced vessel ingrowth, showing that contraction was necessary for mediating and directing growth of the vascular loops. These findings suggest a model for biomechanical regulation of vascularization that is complementary to sprouting angiogenesis which is guided by gradients of growth factors. In defining the role of growth factors, in the CAM assay, we found that FGF-2 and PDGF-BB induced vessel ingrowth, while VEGF-A, EGF and HGF did not. TGF-beta reduced the effect of FGF-2. By use of specific receptor kinase inhibitors we found an absolute requirement VEGF- and PDGF-receptor activity for vascularization while FGF- and TGF-beta-receptor function was dispensable. This suggests that functional VEGF- and PDGF-receptors are needed for vessel elongation. angiogenesis myofibroblast wound healing VEGF FGF PDGF endocan endothelial cell vascularization MEDICINE MEDICIN
47	Hypoxia, PDGF and VEGF in Vascular Development Nilsson, Ingrid January 2006 (has links) The mechanisms behind many important aspects of blood- and lymphatic vessel formation have yet not been elucidated in detail. The primary objectives of this thesis have therefore been to study the effects of hypoxia, platelet-derived growth factor (PDGF) and vascular endothelial growth factors (VEGFs) on vascular development and function. In conditions of low oxygen pressure, hypoxia, the survival of the organism is critically dependent on the ability to compensate for the reduced oxygen levels by promoting blood vessel growth and oxygen-independent energy production. Many direct effects of hypoxia in cells are attributed to the induction of a family of hypoxia-inducible transcription factors (HIFs) which control the expression of specific target genes. We found that capillary endothelial cells (ECs) respond to hypoxia with upregulation of genes involved in growth and remodeling of blood vessels. On the other hand, vein ECs responded to hypoxia with increased expression of genes involved in lymphatic vessel growth. Using differentiating embryonic stem (ES) cells, we have shown that hypoxia upregulates expression of VEGF receptor-3 (VEGFR-3) on blood vascular ECs. Furthermore, we have provided evidence for a critical role of VEGFR-3 in hypoxia-induced blood vessel development. Activation of PDGF receptor-β (PDGFR-β) on early vascular progenitors in differentiating ES cells or in mice induces blood vessel differentiation, while negatively influencing early hematopoiesis. PDGFR-β expression on vascular progenitors may therefore play a role in guiding differentiation of the vascular lineages. We have investigated the usefulness of differentiating ES cells as a model to study early lymphatic development. Administration of VEGF-C and VEGF-A induced formation of lymphatic vessel-like structures that seemed connected to the blood vasculature, supporting the general view that lymphatic ECs are derived from blood vascular ECs. In summary, this thesis has provided new insights in the contribution of different growth factors in hematopoietic, blood- and lymphendothelial development. Cell biology hypoxia VEGF VEGFR-3 PDGF endothelial cell embryonic stem cell angiogenesis lymphangiogenesis Cellbiologi
48	Lack of neuroprotective effects by platelet-derived growth factor against beta-amyloid induced toxicity uncovers a novel hypothesis of Alzheimer's disease pathology Liu, Hui 04 May 2012 (has links) Aβ oligomer-induced neurotoxicity has become an important area of therapeutic development in treating Alzheimer’s disease. Platelet-derived growth factor (PDGF) has been shown to be able to protect neurons against several neuronal insults such as ischemia and HIV1 toxin induced cytotoxicity. These neuroprotective effects correlate well with our previous results that demonstrate the neuroprotective effects of PDGF-BB, one of the PDGF receptor ligand subtypes, against NR2B containing NMDA receptor induced excitotoxicity, a possible underlying cause of Aβ oligomer induced synaptic dysfunction and neuronal death. This project examines the neuroprotective effect of PDGF-BB against Aβ1-42 oligomer induced cytotoxicity in both SH-SY5Y cells and primary hippocampal neurons. Cell viability was monitored by MTT assay and the affected signaling pathways were examined using pharmacological methods and Western blotting. The results demonstrated that Aβ1-42 oligomer elicited a dose-dependent toxicity with a sign of saturation at higher dosages, PDGF-BB failed to protect neurons against Aβ1-42 oligomer induced cytotoxicity. In contrast, Aβ1-42 oligomers strongly inhibit PDGF-BB induced mitogenesis in both SH-SY5Y cells and primary neurons. Further investigation using Western blotting to measure PDGF receptor expression and phosphorylation in SH-SY5Y cells showed that Aβ1-42 oligomer can inhibit PDGF-BB induced phosphorylation of PDGF β-receptor on Tyr1021, a site that is crucial for PLCγ mediated mitogenesis. These findings not only explained the poor neuroprotective effect elicited by PDGF-BB against Aβ1-42 oligomers, but also led to a novel hypothesis that Aβ1-42 oligomer may interfere with neurotrophic factor induced neuronal survival, either selectively or perhaps globally. Further exploration on this hypothesis will be able to shed light on this potentially novel mechanism of pathogenesis in Alzheimer’s disease. beta-amyloid Platelet-derived growth factor neurotoxicity neuroprotection neurotrophic factor PDGF receptor Alzheimer's disease Pharmacy
49	Regulation of Platelet-Derived Growth Factor Receptor Signaling and its Targeting in Cancer Therapy Ma, Haisha January 2015 (has links) Overactivity of platelet-derived growth factor receptor (PDGFR) is a frequent event in many types of solid tumors. Therefore, it is of great importance to uncover the mechanisms that regulate PDGF/PDGFR signalling, to develop efficient inhibitors targeting this pathway. The first step of downregulation of PDGFR activity upon ligand binding is internalization; thus we investigated how endocytosis pathways affect PDGFR signaling. We showed that in Ras-transformed fibroblasts, the internalization of PDGFR is shifted from the routine clathrin-dependent endocytosis to macropinocytosis, which results in enhanced PDGFR activity and subsequent downstream signalling, promoting anchorage-independent growth. We were also interested in how intracellular trafficking regulates signalling attenuation of PDGFR. We found that His-domain containing protein tyrosine phosphatase (HD-PTP) positively regulates phosphorylation level of the ubiquitin-ligases c-Cbl and Cbl-b; consistently, silencing of HD-PTP led to a decreased level of PDGFR ubiquitination (paper II). Consequently, internalized PDGFR could not be sorted properly and escaped degradation. This resulted in enhanced activation of phospholipase C γ (PLCγ) and changed kinetics of signal transducer and activator of transcription (STAT) 3 signalling, which further increased colony formation of HD-PTP silenced cells in soft agar, indicating a tumor suppressor role of HD-PTP. Activation of PDGFR leads to stimulation of downstream pathways. We identified Fer kinase as a critical signal transducer downstream of PDGFR in a proteomic screen. We showed that Fer kinase is essential for PDGF-induced STAT3 activation; as a result (paper III), Fer depletion severely blunted the ability of PDGFR signalling to promote anchorage-independent growth in soft agar and delayed tumor initiation in a mouse model. The crosstalk between host and tumor plays a critical role in tumor progression. At present most anti-cancer drugs are targeting tumor cells; we were interested in how targeting tumor host cells affects the efficacy of anti-tumor therapy. We found that selective PDGFRβ inhibition in host cells exerted tumor inhibitory effects on growth and vascularization of tumors with autocrine PDGF signaling, whereas tumors lacking such stimulation show only minor response on tumor growth (paper IV). Meanwhile, we demonstrated that PDGF/PDGFRβ signalling promotes expression of NG2, a marker for pericytes. PDGF PDGFR Ras macropinocytosis Fer STAT3 HD-PTP Cbl ubiquitination pericyte vasculature tumor ASKA
50	Platelet-Derived Growth Factor-BB is the Dominant Mitogen for Intestinal Smooth Muscle Cells in the Trinitrobenzenesulfonic Acid Model of Rat Colitis Stanzel, ROGER 28 September 2012 (has links) In normal adult physiology, intestinal smooth muscle cells (ISMC) are characterized as contractile and non-proliferative. Inflammation induces permanent changes to the intestine including hypertrophy of the smooth muscle layer largely due to smooth muscle cell (SMC) proliferation. While the consequences of this hyperplasia are largely unknown, increased muscularis mass may present permanent challenges to organ motility. Similar SMC hyperplasia is observed in other inflammatory pathologies including atherosclerosis and pulmonary arterial hypertension (PAH) where SMC de-differentiate into a ‘synthetic’ phenotype and the mitogens responsible for hyperplasia have been well studied. However, there are limited investigations of SMC mitogens in intestinal inflammation. The identification of these factors may be of critical importance in the case of intestinal strictures, whereby recurring inflammation can lead to bowel obstruction requiring surgical intervention. A novel, primary rat ISMC model was developed to identify the factors responsible for ISMC proliferation in vitro. Primary ISMC cultures are likely more representative of SMC in vivo than the commonly used late-passage cultures. As such, this primary ISMC model is valuable in the evaluation of mitogens involved in the onset of proliferation. This primary ISMC model was used to conduct a comprehensive evaluation of potential mitogens including basic fibroblast growth factor (bFGF), epidermal growth factor (EGF), insulin-like growth factor-1 (IGF-1) and platelet-derived growth factor-BB (PDGF-BB. This work identified IGF-1 and PDGF-BB as ISMC mitogens. However, multiple lines of evidence indicated that PDGF-BB was a more potent mitogen and the involvement of PDGF-BB was subsequently examined in vivo using the trinitrobenzenesulfonic acid (TNBS) model of rat intestinal inflammation. While control ISMC lacked expression of the PDGF-BB receptor (PDGF-Rβ), robust expression was observed within only 6 hr following the induction of TNBS inflammation. By Day 2, when ISMC proliferation in vivo is maximal, freshly isolated ISMC showed on-going PDGF-Rβ activation that was further increased by exogenous PDGF-BB. Taken together, the conclusions from this work in vitro identify PDGF-BB as a potent ISMC mitogen in vivo. Further, this work establishes PDGF-BB and its receptor as potential targets in the medical treatment of intestinal stricture formation. / Thesis (Ph.D, Biology) -- Queen's University, 2012-09-24 19:26:57.201 Intestinal Inflamation Intestinal Smooth Muscle Cells TNBS Mitogen IGF-1 PDGF-BB

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