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The metastatic inefficiency of malignant gliomaHunt, G. January 1987 (has links)
No description available.
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Synthetic Peptide Ligand Mimetics and Tumor Cell MotilitySroka, Thomas Charles January 2005 (has links)
Human tumor cell progression and metastasis is partially dependent on the ability of tumor cells to adhere to the proteins of the extracellular matrix and migrate to distant locations. Using a combinatorial screening approach, six novel D-amino acid containing peptides were identified and analyzed for their ability to adhere to human prostate tumor cells, support tumor cell adhesion and inhibit tumor cell adhesion to ECM proteins. Two peptides, RZ-3 (kmviywkag) and HYD1 (kikmviswkg) bound to tumor cell surfaces. A scrambled peptide derivative of HYD1, HYDS (wiksmkivkg) is not active. As immobilized ligands, RZ-3 and HYD1 can support prostate tumor cell adhesion. Prostate tumor cell adhesion to immobilized RZ-3 and HYD1 is integrin dependent. Soluble RZ-3 and HYD1 inhibits tumor cell adhesion to extracellular matrix proteins in a concentration dependent manner. These results indicate that RZ-3 and HYD1 are biologically active D-amino acid containing peptides that can support tumor cell adhesion and can inhibit tumor cell adhesion to immobilized extracellular matrix proteins.Cell migration is dependent on adhesive interactions with the extracelluar matrix. These interactions induce signaling and cytoskeletal responses necessary for migration. HYD1 completely blocks random haptotactic migration and inhibits invasion of prostate carcinoma cells on laminin-5. This effect is adhesion independent and reversible. The inhibition of migration by HYD1 involves a dramatic remodeling of the actin cytoskeleton resulting in increased stress fiber formation and actin colocalization with cortactin at the cell membrane. HYD1 interacts with a6 and a3 integrin subunits and elevates laminin-5 dependent intracellular signals including focal adhesion kinase, mitogen activated protein kinase kinase, and extracellular signal-regulated kinase. The scrambled derivative of HYD1, HYDS, does not interact with the a6 or a3 integrin subunits and is not biologically active. The minimal element for bioactivity of HYD1 was determined using alanine-substituted analogs of HYD1 and N- and C-terminal deletion mutants of HYD1. The minimal element necessary to block cell migration on laminin-5 and activate cell signaling through ERK is xikmviswxx. Taken together, these results indicate that HYD1 is a biologically active integrin-targeting peptide that reversibly inhibits tumor cell migration on laminin-5 and uncouples phosphotyrosine signaling from cytoskeletal dependent migration.
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Magneto-plasmonic nanoparticle platform for detection of rare cells and cell therapyWu, Chun-Hsien, active 21st century 10 September 2015 (has links)
Magnetic and plasmonic properties combined in a single nanostructure provide a synergy that is advantageous in a number of biomedical applications, such as contrast enhancement in multimodal imaging, simultaneous capture and detection of circulating tumor cells, and photothermal therapy of cancer. These applications have stimulated significant interest in development of magneto-plasmonic nanoparticles with optical absorbance in the near-infrared region and a strong magnetic moment. In this dissertation, we addressed this need to create a novel immunotargeted magneto-plasmonic nanoparticle platform. The nanostructures were synthetized by self-assembly of primary 6 nm iron oxide core-gold shell particles, resulting in densely packed spherical nanoclusters. The close proximity of the primary particles in the nanoclusters generates a greatly improved response to an external magnetic field and strong near-infrared plasmon resonances. A procedure for antibody conjugation and PEGylation to the hybrid nanoparticles was developed for biomedical applications which require molecular and biocompatible targeting. Furthermore, we presented two biomedical applications based on the immunotargeted hybrid nanoparticle platform, including circulating tumor cell (CTC) detection and cell-based immunotherapy of cancer. In the CTC detection assays, rare cancer cells were specifically targeted by antibody-conjugated nanoparticles and efficiently separated from normal blood cells by a magnetic force in a microfluidic chamber. The experiments in whole blood showed capture efficiency greater than 90% for a variety of cancers. We also explored photoacoustic imaging to detect nanoparticle-labeled CTCs in whole blood. The results showed excellent sensitivity to delineate the distribution of hybrid nanoparticles on the cancer cells. Thus, these works paves the way for a novel CTC detection approach which utilizes immunotargeted magneto-plasmonic nanoclusters for a simultaneous magnetic capture and photoacoustic detection of CTCs. In another application, we introduced a novel approach to label cytotoxic T cells using the magnetic nanoparticles with an expectation to enhance T cell recruitment in tumor under external magnetic stimulus. A series of in vitro experiments demonstrated highly controllable manipulation of labeled T cells. Thus, these results highlight the promise of using our nanoparticle platform as a multifunctional probe to manipulate and track immune cells in vivo and further improve the efficacy of cell-based cancer immunotherapy. / text
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Intraoperative autologe Tumorzellvakzination in die Milz oder subcutan im Maus TumormodellSchürer, Susan 06 May 2015 (has links) (PDF)
In dieser Arbeit wurde in einem Maus Tumormodell untersucht, ob durch eine intraoperative Vakzination mit gentechnisch modifizierten autologen Tumorzellen ein antitumoraler Effekt erzielt werden kann. Das Experiment erfolgte mit zwei Tumorzelllinien (B16 Melanom und Lewis Lung Karzinom). Nach Implantation der Tumorzellen in C57/BL 6 Mäuse wurden diese chirurgisch entfernt. Intraoperativ erhielten die Mäuse eine Vakzination. Dazu wurden folgende Impfstoffe verwendet: 1. subletal bestrahlte mIL-12 transfizierte Tumorzellen, 2. subletal bestrahlte pRSC transfizierte Tumorzellen und 3. frostgeschockte Tumorzellen. Die Impfung erfolgte entweder subcutan oder direkt in die Milz. Es wurde die Hypothese aufgestellt, dass eine Injektion in die Milz und eine Modifikation mit IL-12 den besten Effekt erzielt. Eine Kontrollgruppe blieb ohne Vakzin. Beobachtet wurde das Tumorwachstum, der Zeitpunkt bis zum makroskopischen Wiederauftreten eines Tumors, Überlebenszeit und die Metastasierungsrate.
Versuchstiere ohne Rezidivtumor erhielten erneut einen Tumor. Es erfolgte eine erneute Evaluation des Tumorwachstums, des Zeitpunktes bis zum makroskopischen Wiederauftreten eines Tumors, der Überlebenszeit und der Metastasierungsrate. In beiden Tumorzelllinien profitierten alle Therapiegruppen nach Tumorresektion und Vakzination bezüglich Tumorrezidivrate, Zeit bis zum makroskopischenWiederauftreten des Tumors, Überlebenszeit, Metastasierungsrate und Tumorwachstumsgeschwindigkeit gegenüber der Kontrollgruppe. Vereinzelt konnten signifikante Vorteile für die direkt in die Milz applizierte Vakzine bezüglich der Tumorwachstumsgeschwindigkeit aufgezeigt werden. Weiterhin ergab sich eine geringere Tumorrezidivrate, wenn IL-12 modifizierte autologe Tumorzellen nach R0 Resektion direkt in die Milz appliziert wurden.
Auch nach Tumorreimplantation konnte bezüglich Überlebenszeit und Tumorwachstumsgeschwindigkeit ein Vorteil für alle Therapiegruppen gegenüber der Kontrollgruppe herausgearbeitet werden. Nach Impfung in die Milz zeigte sich tendenziell eine geringere Metastasierungsrate.
Intraoperative autologe Tumorzellvakzinationen konnten im Tiermodell in einem adjuvanten Setting einen antitumoralen Effekt auslösen. Möglicherweise kann diese Art der Impfung eine zusätzlich hilfreiche Behandlungsform zu den bisherigen adjuvanten Chemotherapeutika werden.
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Induction of Active Immune State by Multinucleate Tumor Cells in MiceLiao, Shuen-Kuei 03 1900 (has links)
<p> Transplantable methylcholanthrene induced tumor was studied in relation to tumor immunity in its syngeneic hosts, A/Jax mice, The tumor was characterized by cytogenetic, histological and electron microscopic procedures, A technique was developed to establish a state of active immunity by immunizing animals with Sendai virus fused tumor cells. The
specificity of immunoprotection was determined by the resistance to the challenges with viable tumor cells and the delayed hypersensitivity test. Adoptive transfer of anti-tumor immunity and cellular response of lymphoid cells from immunized mice were followed to examine the expression of cell-mediated reactions. Circulating antibody of the immune serum was demonstrated by immunofluorescent technique and the enhancing effect on the growth of the transplanted tumor. The relationship of these results to the current knowledge of tumor immunology was discussed </p>. / Thesis / Doctor of Philosophy (PhD)
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Defense of Endothelial Cells Against Tumor Cell Adhesion-Crucial Role of Nitric Oxide and Peroxynitrite BalanceLiu, Feng January 2007 (has links)
No description available.
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Development of a microfluidic flow cytometry platform with fluorescence and light scattering detection for the rapid characterization of circulating tumor cellsStewart-James, Samantha Ann January 1900 (has links)
Master of Science / Department of Chemistry / Christopher T. Culbertson / Circulating tumor cells (CTCs) have become a key component in the identification and treatment of cancer. Once dislodged from the main tumor, CTCs travel through the bloodstream and cause metastasis. Early detection and identification of these cells can help in the evaluation and prognosis of various types of cancer, as well as assisting in patient treatments by determining the spread of the disease. Here, a high-throughput microfluidic analysis technique is described that can efficiently detect and identify cells, with the specific identification of CTCs as a future application through fluorescent labeling in mind. As proof of principle, the device has been shown to detect and characterize individual human Jurkat (T-lymphocyte) cells at a rate of 100 cells/minute. The device employs micro-scale flow focusing to isolate individual cells. The cells are detected using both light scattering and laser-induced fluorescence to evaluate cell size and surface functionality.
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Novel Interactors of X-linked Inhibitor of Apoptosis Protein : Expression and Effects on Tumor Cell DeathSteen, Håkan January 2008 (has links)
<p>Programmed cell death, or apoptosis, has during the last decade received a lot of attention due to its involvement in a large number of pathological conditions. Since death is always irreversible, it is important for cells to fully control the initiation and execution of this process. One of many apoptosis-regulatory proteins is XIAP, which blocks the action of caspases, a family of proteases that are important during apoptosis. However, apoptosis inhibitors have to be tightly controlled since too little cell death can lead to the development of tumors and other diseases. This thesis is the result of an aspiration to fully understand the function and regulation of XIAP.</p><p>By using the yeast-2-hybrid system, we identified two novel binding partners of XIAP. The first, GPS2, was found to bind XIAP and inhibit its ability to block caspase-activity. In addition, GPS2 induced caspase-mediated cell death in two different tumour cell lines and XIAP inhibited this effect.</p><p>The second binding partner, Nulp1, preferentially bound XIAP in the presence of the apoptosis-inducer staurosporine. Nulp1 induced or sensitized cell lines to cell death when overexpressed, but this was not blocked by caspase-inhibitors or XIAP, suggesting a different reason for binding than apoptosis regulation. With the aim to understand the Nulp1-XIAP interaction, we continued to study Nulp1 <i>in vivo</i> and <i>in vitro</i>. We studied three different splice variants of Nulp1 and found that they were regulated by poly-ubiquitination and nuclear shuttling. Also, Nulp1 was expressed in embryonic mice, especially in the cortical plate, hippocampal neurons and cerebellar granular neurons. Expression of Nulp1 decreased with age but was still present in cerebellar deep nuclei and Purkinje cells of adult mice. </p><p>To summarize, we have identified GPS2 as an apoptosis-inducing factor and an inhibitor of XIAP <i>in vitro</i>, and Nulp1 as a XIAP-interacting protein during staurosporine-induced apoptosis.</p>
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Methodological aspects within the FMCA-method : do incubation time and the amount of tumor cells influence the antitumoral effect?Svensson, Johanna January 2008 (has links)
<p>ABSTRACT</p><p>Chemotherapy is a common method used for cancer treatment. Especially when it concerns cancers that have grown invasively it seems to be the only efficient treatment due to the substances ability to reach and affect almost the entire body. One major obstacle regarding chemotherapy is that the patients often develop resistance to the cytotoxic substances used. Fluorometric microculture cytotoxicity assay (FMCA) is a method developed to measure sensitivity of tumor cells to different cytotoxic substances in vitro. The assay is based on hydrolysis of fluorescein diacetate to fluorescein by cells with intact cell membranes after incubation with drugs for 72 hours. This study investigated the impact of two methodological factors that may cause errors in the achieved results; namely the possible occurrence of drug decay during incubation and the use of an inappropriate amount of cells. These factors were tested by exposing the cytotoxic drugs to pre-incubation in absence of tumor cells for different times and to use suspensions with different concentrations of cells. The results indicated occurrence of drug decay in 3 of the 18 substances tested and that the amount of cells affected the results for most of the drugs tested but to different extent.</p>
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Studium cytotoxicity vybraných chemoterapeutik určených pro léčbu leukémie na lidských nádorových buněčných liniích. / Study of the cytotoxicity of selected chemotherapeutics for the treatment of leukemia in human tumor cell lines.Štorkánová, Jesika January 2019 (has links)
Charles University Faculty of Pharmacy in Hradec Králové Department of Biochemical Sciences Candidate: Bc. Jesika Štorkánová Supervisor: RNDr. Eva Novotná, Ph.D. Title of diploma thesis: Study of the cytotoxicity of selected chemotherapeutics for the treatment of leukemia in human tumor cell lines Leukemia represents a diverse group of malignant diseases with a hematopoietic disorder with different prognoses. As the incidence of patients with leukemia is increasing, is an effort to establish the treatment that will lead to successful therapy. One of the basic approaches to the treatment of leukemias is chemotherapy. Today it is known that the effectiveness of chemotherapy is influenced by a number of factors which can significantly affect the treatment strategy and thus decide on the outcome of the treatment itself. An important approach in chemotherapy is the selection of cytostatics with maximum efficacy for oncological disease and elimination cytostatics to which the cells are resistant based on the findings in in vitro conditions. The aim of this diploma thesis was to determine the inhibitory effects of in vitro selected chemotherapeutics in cell tumor lines. For determine the inhibitory effect, HCT116, HepG2 and HL-60 cell lines were selected using a colorimetric method based on the...
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