Global ETD Search

11	The Role of Frabin (FGD4) in Aggressive Prostate Cancer Bossan, Alexia M 01 January 2017 (has links) A major problem in prostate cancer (PCa) management is the development of drug resistance. It is known that there are changes in PCa biology upon prolonged treatment with drugs, including anti-androgen drugs that alter cellular signaling processes leading to the development of castration resistant PCa. MicroRNAs (miRNAs) are regulatory molecules that modulate gene expression through inhibition of protein translation and modulate cellular functions. Altered expression of miRNAs is often noted in drug resistant cancer including PCa. Studies from our laboratory have identified a number of down-regulated miRNAs in PCa, including miR-l 7-92a miRNAs. Frabin (FGD4) is a target of the miR-l 7-92a cluster that was found to be up-regulated in PCa cells. For this paper’s investigation, an FGD4 knockdown approach was used to identify the effects on cell viability, cell cycle progression, cell migration and drug sensitivity. Two PCa cells lines, LNCaP-104S (androgen sensitive) and PC-3 (androgen independent), were used for our studies. MTS assays for both cell lines showed significant reduction in cell viability following knockdown of FGD4 compared to transfection with control siRNAs. Cell cycle analysis revealed an arrest in the G2/M phase of the cells that were transfected with FGD4 siRNAs. Cell migration assays revealed a decrease in migration rate of PC-3 cells after knockdown, which supports the involvement of FGD4 in actin- cytoskeleton rearrangement. Treatments with anti-mitotic drug Docetaxel (PC-3) or androgen receptor antagonist bicalutamide/Casodex (LNCaP-104S) showed improved sensitivity of the FGD4 siRNA treated cells to these drugs. Our results suggest the potential for FGD4 knockdown to be used in combination with currently used drugs, increasing the effectiveness of frontline chemotherapeutics. miRNA siRNA LNCaP-104S PC-3 androgen resistance Medical Molecular Biology
12	Pinpointed Stimulation of EphA2 Receptors via DNA-Templated Oligovalence Möser, Christin, Lorenz, Jessica S., Sajfutdinow, Martin, Smith, David M. 15 January 2024 (has links) DNA nanostructures enable the attachment of functional molecules to nearly any unique location on their underlying structure. Due to their single-base-pair structural resolution, several ligands can be spatially arranged and closely controlled according to the geometry of their desired target, resulting in optimized binding and/or signaling interactions. Here, the efficacy of SWL, an ephrin-mimicking peptide that binds specifically to EphrinA2 (EphA2) receptors, increased by presenting up to three of these peptides on small DNA nanostructures in an oligovalent manner. Ephrin signaling pathways play crucial roles in tumor development and progression. Moreover, Eph receptors are potential targets in cancer diagnosis and treatment. Here, the quantitative impact of SWL valency on binding, phosphorylation (key player for activation) and phenotype regulation in EphA2-expressing prostate cancer cells was demonstrated. EphA2 phosphorylation was significantly increased by DNA trimers carrying three SWL peptides compared to monovalent SWL. In comparison to one of EphA2’s natural ligands ephrin-A1, which is known to bind promiscuously to multiple receptors, pinpointed targeting of EphA2 by oligovalent DNA-SWL constructs showed enhanced cell retraction. Overall, we show that DNA scaffolds can increase the potency of weak signaling peptides through oligovalent presentation and serve as potential tools for examination of complex signaling pathways. info:eu-repo/classification/ddc/610 ddc:610
13	SYNTHESIS AND BIOLOGICAL EVALUATION OF CCR5 ANTAGONISTS AS NOVEL ANTI-PROSTATE CANCER AGENTS Adams, Joanna Lee 01 January 2007 (has links) The chemokine receptor CCR5 has been implicated in the pathogenesis of prostate cancer (PCa). A novel series of piperazine derivatives have been designed and synthesized as CCR5 antagonists and their activity as inhibitors of PCa cell lines proliferation was explored. A lead compound has been identified which induced 100% inhibition of PCa cell proliferation at micromolar concentrations. Anibamine, the only natural product CCR5 antagonist, was also examined for its anti-proliferative activity and was found to inhibit proliferation of PCa cells at micromolar concentrations as well. The expression of RANTES mRNA was observed in DU-145, M12 and P69 cells via RT-PCR, while the expression of CCR5 mRNA was observed only in M12 cells. A CHO-CCR5 stable cell line was prepared for the CCR5 ligand competition binding assays. Both anibamine and the newly identified lead compound will serve as leads in the development of novel CCR5 antagonists as anti-prostate cancer agents. PC-3 P69 M12 Anibamine CCL5 RANTES Prostate Cancer CCR5 DU-145 RT-PCR chemokine GOLD Chemicals and Drugs Medicine and Health Sciences
14	Prostasome Modulation of Blood Cascade System and Phosphoprotein Reactions with Focus on Prostate Cancer Babiker, Adil Abdelgadir January 2005 (has links) <p>Prostasomes are extracellularly occurring submicron, membrane-surrounded organelles produced by the epithelial cells of the prostate and present in semen. Their precise physiological role is not known, although some of their properties assign them to important physiological and patho-physiological functions. In this thesis, some new properties of seminal and malignant cell line (DU145, PC-3 and LNCaP) prostasomes have been identified. </p><p>Differences in the expressions and activities of prostasomal CD59, ATPase, protein kinases and tissue factor (TF) have been characterized. The transfer of prostasomal CD59 to CD59-deficient erythrocytes (rabbit and human PNH erythrocytes) has been established. CD59, protein kinases and TF were overexpressed by malignant cell prostasomes. ATPase activity was highest on seminal prostasomes with minimal expression by malignant cell prostasomes resulting in more residual ATP available for phosphorylation reactions. Several proteins were phosphorylated by prostasomal protein kinases, <i>viz.</i> complement component C3, fibrinogen, vitronectin and E-cadherin. Furthermore, TF was identified as the main endogenous phosphorylation substrate on prostasomes. In addition, prothrombotic effects of prostasomes were established. DU145 and PC-3-derived prostasomes exerted a higher clotting effect on whole blood and plasma compared to LNCaP and seminal prostasomes.</p><p>In conclusion, malignant cell prostasomes showed higher ability to interact with the biological system in favor of prostate cancer cell promotion and survival. The roles played by prostasomes in this context may improve the understanding of the mechanisms that help the prostate cancer cells to avoid the complement attack (CD59 transfer and phosphorylation of C3), to promote angiogenesis (TF) and to metastasize. It may also provide a better understanding of some of the complications usually seen in some terminal prostate cancer patients like thrombotic events and tendency to develop disseminated intravascular coagulation.</p> Immunology ATPase CD59 Complement DU145 Extracellular phosphorylation LNCaP PC-3 Prostasomes Prostate cancer Protein kinases Tissue factor Immunologi Immunology Immunologi
15	Prostasome Modulation of Blood Cascade System and Phosphoprotein Reactions with Focus on Prostate Cancer Babiker, Adil Abdelgadir January 2005 (has links) Prostasomes are extracellularly occurring submicron, membrane-surrounded organelles produced by the epithelial cells of the prostate and present in semen. Their precise physiological role is not known, although some of their properties assign them to important physiological and patho-physiological functions. In this thesis, some new properties of seminal and malignant cell line (DU145, PC-3 and LNCaP) prostasomes have been identified. Differences in the expressions and activities of prostasomal CD59, ATPase, protein kinases and tissue factor (TF) have been characterized. The transfer of prostasomal CD59 to CD59-deficient erythrocytes (rabbit and human PNH erythrocytes) has been established. CD59, protein kinases and TF were overexpressed by malignant cell prostasomes. ATPase activity was highest on seminal prostasomes with minimal expression by malignant cell prostasomes resulting in more residual ATP available for phosphorylation reactions. Several proteins were phosphorylated by prostasomal protein kinases, viz. complement component C3, fibrinogen, vitronectin and E-cadherin. Furthermore, TF was identified as the main endogenous phosphorylation substrate on prostasomes. In addition, prothrombotic effects of prostasomes were established. DU145 and PC-3-derived prostasomes exerted a higher clotting effect on whole blood and plasma compared to LNCaP and seminal prostasomes. In conclusion, malignant cell prostasomes showed higher ability to interact with the biological system in favor of prostate cancer cell promotion and survival. The roles played by prostasomes in this context may improve the understanding of the mechanisms that help the prostate cancer cells to avoid the complement attack (CD59 transfer and phosphorylation of C3), to promote angiogenesis (TF) and to metastasize. It may also provide a better understanding of some of the complications usually seen in some terminal prostate cancer patients like thrombotic events and tendency to develop disseminated intravascular coagulation. Immunology ATPase CD59 Complement DU145 Extracellular phosphorylation LNCaP PC-3 Prostasomes Prostate cancer Protein kinases Tissue factor Immunologi Immunology Immunologi
16	1,25(OH)2D3 Initially Reduces TGFβ Activity in PC-3 Prostate Cancer Cells Stahel, Anette January 2008 (has links) The vitamin D metabolite 1,25(OH)2D3 has long been known to inhibit growth of prostate cancer cells and this mainly through a VDR-mediated pathway controlling target gene expression, resulting in cell cycle arrest, apoptosis and differentiation. Another major way in which 1,25(OH)2D3 inhibits cell growth in prostate cancer is via membrane-initiated steroid signalling, which triggers activation of signal cascades upon steroid binding to a receptor complex, leading to induction of genes regulating cell growth, proliferation and apoptosis. The main prostate cancer inhibiting membrane-initiated route is the TGFβ signalling pathway, elicited by the protein TGFβ. In this experiment the activating effects of 1,25(OH)2D3 on TGFβ in prostate cancer cells, as well as two other important proteins downstream in this cascade, Smad2 and 3, were investigated. PC-3 cells were incubated for 3, 5, 10, 30 and 60 minutes as well as 38 hours both together with 1,25(OH)2D3 of the concentrations 10-10 and 10-7 M and without. As the downstream cascade protein JNK is a known activator of Smad2/3, this procedure was also repeated with a JNK inhibitor. An ELISA assay scanning for activated TGFβ was then performed on supernatants from the cells treated without JNK inhibitor. In addition, a Western Blot scanning for activated Smad2 and 3 was performed on supernatants from all groups of treatment. The analysis of the result values showed that 10-10 M 1,25(OH)2D3 significantly lowered the content of active TGFβ in PC-3 cells within 3 and 5 minutes. Unfortunately the Western Blot was unsuccessful and needs therefore be repeated. 25(OH)2D3; TGFβ; Smad2; Smad3 Medicine Medicin
17	Effects of Bioactive Compounds from Different Potato Genotypes on Prostate Cancer Development in Athymic Nude Mice Turner, Sarah 2012 May 1900 (has links) Phytochemicals are widely noted for their role in chemoprevention. Potato (Solanum tuberosum L.) is the third most important food crop worldwide and is considered a significant source of antioxidants, providing an ideal delivery system for beneficial compounds. The anti-proliferative and pro-apoptotic properties of potato bioactive compounds have been reported in vitro on human prostate cancer cell lines. However, in vivo studies are limited, and more information is needed to determine the chemopreventive properties of potato in the diet. The objective of this study was to evaluate the effects of potato bioactives on prostate cancer in vivo using a mouse model. Athymic nude mice received xenografts of human prostate cancer cells (PC-3) and were administered extracts of potato bioactives from either the white flesh Solanum bulbocastanum (PI243510) or CO112F2-2P/P (purple-flesh Colorado selection), while control mice received water. Neither potato extract provided a significant reduction in tumor growth nor reduced levels of the pro-angiogenic protein VEGF, but the S. bulbocastanum extract reduced expression of metastasis associated protein 1 (MTA1) in tumors, and both potato extracts reduced MTA1 expression in lungs, suggesting the need for further research on the potential chemopreventive or chemotherapeutic properties of potato bioactives. potato bioactives phenolics prostate cancer potato potato nutrition PC-3 xenograft xenograft mice mice, nude VEGF MTA1
18	1,25(OH)2D3 Initially Reduces TGFβ Activity in PC-3 Prostate Cancer Cells Stahel, Anette January 2008 (has links) <p>The vitamin D metabolite 1,25(OH)2D3 has long been known to inhibit growth of prostate cancer cells and this mainly through a VDR-mediated pathway controlling target gene expression, resulting in cell cycle arrest, apoptosis and differentiation. Another major way in which 1,25(OH)2D3 inhibits cell growth in prostate cancer is via membrane-initiated steroid signalling, which triggers activation of signal cascades upon steroid binding to a receptor complex, leading to induction of genes regulating cell growth, proliferation and apoptosis. The main prostate cancer inhibiting membrane-initiated route is the TGFβ signalling pathway, elicited by the protein TGFβ. In this experiment the activating effects of 1,25(OH)2D3 on TGFβ in prostate cancer cells, as well as two other important proteins downstream in this cascade, Smad2 and 3, were investigated. PC-3 cells were incubated for 3, 5, 10, 30 and 60 minutes as well as 38 hours both together with 1,25(OH)2D3 of the concentrations 10-10 and 10-7 M and without. As the downstream cascade protein JNK is a known activator of Smad2/3, this procedure was also repeated with a JNK inhibitor. An ELISA assay scanning for activated TGFβ was then performed on supernatants from the cells treated without JNK inhibitor. In addition, a Western Blot scanning for activated Smad2 and 3 was performed on supernatants from all groups of treatment. The analysis of the result values showed that 10-10 M 1,25(OH)2D3 significantly lowered the content of active TGFβ in PC-3 cells within 3 and 5 minutes. Unfortunately the Western Blot was unsuccessful and needs therefore be repeated.</p> 25(OH)2D3; TGFβ; Smad2; Smad3 Medicine Medicin
19	Immunocytochemical Analysis of Endogenous Frizzled-(Co-)Receptor Interactions and Rapid Wnt Pathway Activation in Mammalian Cells Neuhaus, Jochen, Weimann, Annett, Berndt-Paetz, Mandy 17 January 2024 (has links) The differential activation of Wnt pathways (canonical: Wnt/-catenin; non-canonical: planar cell polarity (PCP), Wnt/Ca2+) depends on the cell-specific availability and regulation of Wnt receptors, called Frizzled (FZD). FZDs selectively recruit co-receptors to activate various downstream effectors. We established a proximity ligation assay (PLA) for the detection of endogenous FZD–coreceptor interactions and analyzed time-dependent Wnt pathway activation in cultured cells. Prostate cancer cells (PC-3) stimulated by Wnt ligands (Wnt5A, Wnt10B) were analyzed by Cy3-PLA for the co-localization of FZD6 and co-receptors (canonical: LRP6, non-canonical: ROR1) at the single-cell level. Downstream effector activation was assayed by immunocytochemistry. PLA allowed the specific (siRNA-verified) detection of FZD6–LRP6 and FZD6–ROR1 complexes as highly fluorescent spots. Incubation with Wnt10B led to increased FZD6–LRP6 interactions after 2 to 4 min and resulted in nuclear accumulation of -catenin within 5 min. Wnt5A stimulation resulted in a higher number of FZD6–ROR1 complexes after 2 min. Elevated levels of phosphorylated myosin phosphatase target 1 suggested subsequent Wnt/PCP activation in PC-3. This is the first study demonstrating time-dependent interactions of endogenous Wnt (co-)receptors followed by rapid Wnt/-catenin and Wnt/PCP activation in PC-3. In conclusion, the PLA could uncover novel signatures of Wnt receptor activation in mammalian cells and may provide new insights into involved signaling routes info:eu-repo/classification/ddc/610 ddc:610
20	Perspectives on the Biological Role of Human Prostasomes Carlsson, Lena January 2001 (has links) <p>Prostasomes are extracellularly occurring organelles which are secreted in human semen by the prostate gland. Prostasomes have several known biological activities, but their physiological function is still unclear. In this thesis some new aspects were studied on the biological role of the prostasomes. </p><p>The motility-stimulatory effect of prostasomes on cryopreserved spermatozoa was further studied by supplementing the swim-up medium with seminal prostasomes, and with prostasomes purified from a PC-3 prostate cancer cell line (PC-3 prostasomes), on fresh spermatozoa. The recovery of motile spermatozoa after swim-up increased by 50% when the swim-up medium was supplemented with prostasomes. The PC-3 prostasomes bore a functional resemblance to seminal prostasomes as regards various expressions of sperm motility promotion. </p><p>Prostasomes proved to have potent antibacterial effects. The effects were not strictly confined to Bacillus megaterium since a few other bacteria were also sensitive. The high percentage of patients with anti-prostasome antibodies showed that prostasomes could be one of the major targets for antisperm antibodies (ASA). The results demonstrate that ASA in serum of infertile men and women recognise prostasomes as antigens, and that polyclonal antibodies raised against prostasomes agglutinate human spermatozoa. This suggests that prostasomes contribute at least partly to immunological infertility. Three types of prostasomes (seminal-, native- and metastasis-derived prostasomes) demonstrated similarities regarding a high cholesterol/phospholipid ratio and some marker enzymes. The conclusion is that prostasomes have a common and exclusive prostatic origin in man and that they are internalised in storage vesicles of the secretory cells and released in toto by an ordinary exocytotic event.</p> Medical sciences Prostasomes cryopreservation human spermatozoa sperm motility anti- prostasome antibodies PC-3 cells Bacillus megaterium antibacterial antisperm antibodies complement activation sperm agglutination infertility MEDICIN OCH VÅRD MEDICINE MEDICIN

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