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Formation,Storage and Secretion of Prostasomes in Benign and Malignant Cells and Their Immunogenicity in Prostate Cancer PatientsSahlén, Göran January 2007 (has links)
<p>Prostasomes are submicron-sized, membrane-bound organelles produced by the epithelial cells of the prostate and normally found in the secretion in the gland ducts. Their physiological role is in the promotion of sperm-function in human reproduction. This thesis contains four papers dealing with the production of prostasomes and some possible applications in clinical urology of the prostasome. </p><p>Paper I and II provided an ultrastructural description of the synthesis, storage and secretion of prostasomes in benign as well as in malignant tissue. Most notable were the extracellular appearances of prostasomes in metastatic lesions whereby the prostasomes become exposed to the immune system of the patient. This supported findings in earlier studies in which patients with advanced prostate cancer had elevated levels of anti-prostasome antibodies. The results of paper III reinforced the view of the prostate-unique origin of the prostasome. In particular, there were no indications in SDS-PAGE patterns or flow-cytometric studies of material from seminal vesicle secretion that it contained components that could be associated with a production of prostasomes. </p><p>Some possible clinical functions of the prostasomes were investigated in paper IV. Exposure of prostasomes to the immune system through mechanical and thermal trauma to the prostate did not induce an evident formation of anti-prostasome autoantibodies. Furthermore, the serum levels of anti-prostasome antibodies registered by assays with preparations of prostasomes from seminal plasma as antigen did not correlate with existing prostate cancer. Seminal prostasomes seemed not to function as substitute markers for prostate cancer in the test kit used. A possible explanation could be underestimated differences in antigen properties between seminal or prostate gland-derived prostasomes and prostasomes from tumor tissue.</p>
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Formation,Storage and Secretion of Prostasomes in Benign and Malignant Cells and Their Immunogenicity in Prostate Cancer PatientsSahlén, Göran January 2007 (has links)
Prostasomes are submicron-sized, membrane-bound organelles produced by the epithelial cells of the prostate and normally found in the secretion in the gland ducts. Their physiological role is in the promotion of sperm-function in human reproduction. This thesis contains four papers dealing with the production of prostasomes and some possible applications in clinical urology of the prostasome. Paper I and II provided an ultrastructural description of the synthesis, storage and secretion of prostasomes in benign as well as in malignant tissue. Most notable were the extracellular appearances of prostasomes in metastatic lesions whereby the prostasomes become exposed to the immune system of the patient. This supported findings in earlier studies in which patients with advanced prostate cancer had elevated levels of anti-prostasome antibodies. The results of paper III reinforced the view of the prostate-unique origin of the prostasome. In particular, there were no indications in SDS-PAGE patterns or flow-cytometric studies of material from seminal vesicle secretion that it contained components that could be associated with a production of prostasomes. Some possible clinical functions of the prostasomes were investigated in paper IV. Exposure of prostasomes to the immune system through mechanical and thermal trauma to the prostate did not induce an evident formation of anti-prostasome autoantibodies. Furthermore, the serum levels of anti-prostasome antibodies registered by assays with preparations of prostasomes from seminal plasma as antigen did not correlate with existing prostate cancer. Seminal prostasomes seemed not to function as substitute markers for prostate cancer in the test kit used. A possible explanation could be underestimated differences in antigen properties between seminal or prostate gland-derived prostasomes and prostasomes from tumor tissue.
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Prostasome Modulation of Blood Cascade System and Phosphoprotein Reactions with Focus on Prostate CancerBabiker, 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>
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Prostasome Modulation of Blood Cascade System and Phosphoprotein Reactions with Focus on Prostate CancerBabiker, 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.
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Perspectives on the Biological Role of Human ProstasomesCarlsson, 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>
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Perspectives on the Biological Role of Human ProstasomesCarlsson, Lena January 2001 (has links)
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. 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. 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.
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Some Characteristics of Human Prostasomes and Their Relationship to Prostate CancerRonquist, Göran January 2009 (has links)
Background: The secretory epithelial cells of the prostate gland use sophisticated vehicles named prostasomes to relay important information to sperm cells in semen. This prostasome-forming and secretory ability of the epithelial cells is also preserved in poorly differentiated prostate cancer cells. Aim: The aim of this thesis was to examine different characteristics of prostasomes, especially those derived from malignant prostate cells, linked to their potential role in diagnosis and prognostication of prostate cancer. Results: Serum samples of prostate cancer patients contained autoantibodies against seminal prostasomes in a higher concentration than did control sera. These autoantibodies were most frequently directed against 25 prostasome-associated proteins, but no one was prostate specific. Clusterin was one of the most frequently occurring prostasomal proteins. Elevated titers were however seen in both patients´ and control sera. Clusterin turned out to be a major antigen of seminal prostasomes. No prostate specific or prostate cancer specific protein was discovered upon proteomic analysis of prostasomes deriving from malignant cells of vertebral metastases of prostate cancer patients. Human chromosomal DNA was identified in both seminal prostasomes and PC-3 cell prostasomes and strong evidence existed that the DNA was localized inside the prostasomes. Four out of 13 DNA clones of seminal prostasomes featured gene sequences (31%). The corresponding figures for PC-3 cell prostasomes were 4 out of 16 clones (25%). Conclusions: Prostasomes are immunogenic and give rise to serum autoantibodies. The most frequently occurring autoantibodies were directed against 25 prostasomal proteins but none of these was exclusively prostate specific. Thirty different proteins were identified in prostate cancer metastasis-derived prostasomes but none of these proteins was prostate cancer specific. Human chromosomal DNA was identified in prostasomes of both normal and malignant cell origin.
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Tissue Factor Biological Functions : Coagulation Activity in Microparticles and Signaling with Focus On Migration and ApoptosisÅberg, Mikael January 2008 (has links)
Background: Tissue factor (TF) is a 47 kDa transmembrane glycoprotein known as the main initiator of blood coagulation. TF is over-expressed on many malignant cells and apart from increasing the risk of thrombosis, the presence of TF/FVIIa also promotes the progression of cancer and metastasis by intracellular signaling. TF expressing microparticles (MP) are, moreover, often found in the circulation of cancer patients. Aim: The aim of this thesis was to study different aspects of TF activity, e.g. the importance of procoagulant MP and TF-induced intracellular signaling pathways, with focus on cell migration (chemotaxis) and apoptosis. Results: The TF signaling complexes were shown to prevent apoptosis induced by serum starvation and TRAIL in cancer cells by reduced activation of caspase-8 in a PI3k/AKT-dependent manner. FVIIa also decreased transcription of pro-apoptotic genes in cancer cells treated with TRAIL. Simvastatin triggered apoptosis by transcriptional reduction of BCL-2 due to cytosolic retention of NFκB. Simvastatin also inactivated the PI3k/AKT pathway and reduced the production of the MP-like prostasomes which, respectively, impaired the anti-apoptotic signaling by TF and reduced the procoagulant activity in the vicinity of prostate cancer cells. Intracellular events conducted by the TF/FVIIa complex selectively enhanced PDGF-BB induced chemotaxis which was partly explained by the TF/FVIIa-induced transactivation of the PDGFβ-receptor. This was dependent on Src-family members and engagement of PAR2. Conclusions: The results presented in this thesis extend the current knowledge of TF-mediated signaling. We report the TF complexes to govern the extrinsic pathway of apoptosis, present data on FVIIa-dependent regulation of apoptosis-related genes, and exclude known surface proteins as transmitters of the anti-apoptotic signals. We moreover describe TF/FVIIa to transactivate the PDGFβ-receptor and play a decisive role in the potentiated chemotaxis toward PDGF-BB in a number of cell types. Finally, we explain the mechanism behind simvastatin-induced apoptosis in cancer cells and how statins interfere with TF-dependent signaling and coagulation.
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