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Synthese von neuartigen Sphingosin-DerivatenKlose-Stier, Alexandra 19 April 2017 (has links)
Sphingolipide sind essentielle Bestandteile der Plasmamembranen aller eukaryotischen Organismen und besitzen als Signalmoleküle regulierende Eigenschaften auf diverse zelluläre Prozesse. Hierbei spielen die G-Protein-gekoppelten S1P-Rezeptoren eine wichtige Rolle. Diese werden durch das natürliche Sphingosin-1-phosphat sowie die Sphingosin-Derivate FTY720 und cis-4-Methylsphingosin selektiv adressiert. Diese Arbeit beschreibt die Synthese von fünfzehn neuartigen Sphingosin-Derivaten mit potenziell neuen biologischen Eigenschaften. Hierfür wurde die Leitstruktur des natürlichen D-erythro-Sphingosins an den Positionen 1, 3 und/oder 4 modifiziert. Die biologischen Studien mit diesen Verbindungen lieferten erste Erkenntnisse zur Inhibition des S1P-induzierten Calcium-Anstiegs, der Wechselwirkung mit den S1P-Rezeptoren und der zellulären Lokalisation in Chlamydia trachomatis infizierten Zellen. Darüber hinaus wurde eine Methode, die einen schnelleren und variablen Zugang zu den 4-verzweigten Sphingosin-Derivaten erlaubt, etabliert. / Sphingolipids are essential constituents of plasma membranes in all eukaryotic organisms. They also participate as signalling molecules in almost all physiological processes. Here G-protein coupled S1P receptors play an important role. These receptors are selectively addressed by natural ligand sphingosine-1-phosphate as well as by sphingosine analogues FTY720 and cis-4-methylsphingosine. This work describes the synthesis of fifteen sphingosine analogues with potential biological activity. For this purpose, the natural lead structure of D-erythro-sphingosine was modified at positions 1, 3 and/or 4. The biological studies of these compounds provided the first insights to the inhibition of S1P-induced calcium increase, the interaction with S1P receptors and the cellular localization in Chlamydia trachomatis infected cells. Moreover, an adapted method that allowed faster and adaptable access to 4-branched sphingosines was established.
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Identifizierung und Charakterisierung exogener und endogener endothelialer Faktoren für die Ätiopathogenese der AtheroskleroseTölle, Markus 31 May 2006 (has links)
Für die Ätiopathogenese der Atherosklerose spielen eine Vielzahl von Mediatoren eine Rolle. Dabei werden durch das Endothel sowohl protektive als auch schädliche Mediatoren sezerniert. High Density Lipoproteine (HDL) stellen einen bedeutenden protektiven Marker für das kardiovaskuläre Risiko dar, u.a. durch die Aktivierung der endothelialen NO-Synthase (eNOS). HDL besteht zu 50 % aus Proteinen und zu 50 % aus Lipiden. Welche Komponenten des HDL für die eNOS Aktivierung verantwortlich sind, ist nicht bekannt gewesen. Im ersten Abschnitt dieser Promotionsarbeit konnte erfolgreich gezeigt werden, dass die Lysophospholipide, Sphingosin-1-Phosphat (S1P) und Sphinsosylphosphorylcholin (SPC), die strukturelle Bestandteile der Lipidfraktion von HDL darstellen, für einen Teil der HDL induzierten eNOS Aktivierung durch Stimulation des S1P3-Rezeptors verantwortlich sind. Diese eNOS Aktivierung wird durch den intrazellulären Einstrom von Calcium und durch die Aktivierung der Akt-Kinase induziert. Im zweiten Abschnitt dieser Promotionsarbeit konnte nachgewiesen werden, dass das oral verfügbare Lysophospholipid-basierte Medikament, FTY720, das ein strukturelles Analogon des S1P ist, den HDL induzierten Signaltransduktionsweg der eNOS Aktivierung in gleicher Weise induziert. Im dritten Abschnitt dieser Promotionsarbeit konnte ein neuartiges endothelabhängig sezerniertes gemischtes Dinukleosidpolyphosphat, Uridin-Adenosin-Tetraphosphat (Up4A), identifiziert werden. Up4A ist ein Agonist an den P2X- und P2Y-Purinrezeptoren. Up4A induziert bei Applikation in eine isoliert perfundierte Rattenniere hauptsächlich über die Aktivierung des P2X1-Rezeptors und des P2Y2/P2Y4-Rezeptors eine starke Vasokonstriktion im renalen Perfusionsgebiet mit einhergehender Erhöhung des mittleren renalen Perfusionsdrucks. Die direkte Infusion von Up4A in vivo in eine WKY-Ratte führt zu einer signifikanten Erhöhung des mittleren arteriellen Blutdrucks. / In the pathogenesis of atherosclerosis many mediators are included. Therefore the endothelium plays a crucial part by secreting protective but also deleterious factors. High density lipoproteins are an established protective factor in the risk profile of cardiovascular events especially by activating the endothelial NO synthase (eNOS). HDL is composed of 50 % proteins and 50 % lipids. Which component of HDL is responsible for the eNOS activation was not known. In the first part of this dissertation it could be shown, that the lysophospholipids, sphingosine-1-phosphate (S1P) and sphingosylphosphorylcholine (SPC), which are structural compounds of the lipid fraction of HDL, are responsible for a significant part of the HDL induced eNOS activation by stimulating the specific S1P3 receptor. In the signal transduction mechanism the activation of Akt kinase and an influx of calcium is involved. In the second part of this dissertation it could be shown, that the orally active lysophospholipide based drug FTY720, which is a structural analogue of S1P, is able to induce the same signal transduction mechanism activated by HDL including the stimulation of the S1P3 receptor. In the last part of this dissertation a new endothelium dependent vasoconstrictor, the dinucleoside polyphosphate uridine-adenosine-tetraphosphate (Up4A), could be for the first time identified. Up4A is a potent agonist of the P2X- and P2Y-purinoceptors. Via activating the P2X1 receptor and the P2Y2/P2Y4 receptor Up4A induce a strong vasoconstriction in the renal perfusion system in the model of the isolated perfused rat kidney with an adjacent increase of the mean perfusion pressure. By injection of Up4A in vivo in a Wistar Kyoto rat the mean arterial pressure also increase significantly.
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Fingolimod additionally acts as immunomodulator focused on the innate immune system beyond its prominent effects on lymphocyte recirculationThomas, Katja, Sehr, Tony, Proschmann, Undine, Rodriguez-Leal, Francisco Alejandro, Haase, Rocco, Ziemssen, Tjalf 25 July 2017 (has links) (PDF)
Background
Growing evidence emphasizes the relevance of sphingolipids for metabolism and immunity of antigen-presenting cells (APC). APCs are key players in balancing tolerogenic and encephalitogenic responses in immunology. In contrast to the well-known prominent effects of sphingosine-1-phosphate (S1P) on lymphocyte trafficking, modulatory effects on APCs have not been fully characterized.
Methods
Frequencies and activation profiles of dendritic cell (DC) subtypes, monocytes, and T cell subsets in 35 multiple sclerosis (MS) patients were evaluated prior and after undergoing fingolimod treatment for up to 24 months. Impact of fingolimod and S1P on maturation and activation profile, pro-inflammatory cytokine release, and phagocytotic capacity was assessed in vitro and ex vivo. Modulation of DC-dependent programming of naïve CD4+ T cells, as well as CD4+ and CD8+ T cell proliferation, was also investigated in vitro and ex vivo.
Results
Fingolimod increased peripheral slanDC count—CD1+ DC, and monocyte frequencies remained stable. While CD4+ T cell count decreased, ratio of Treg/Th17 significantly increased in fingolimod-treated patients over time. CD83, CD150, and HLADR were all inhibited, but CD86 was upregulated in DCs after incubation in the presence of fingolimod. Fingolimod but not S1P was associated with reduced release of pro-inflammatory cytokines from DCs and monocytes in vitro and ex vivo. Fingolimod also inhibited phagocytic capacity of slanDCs and monocytes. After fingolimod, slanDCs demonstrated reduced potential to induce interferon–gamma-expressing Th1 or IL-17-expressing Th17 cells and DC-dependent T cell proliferation in vitro and in fingolimod-treated patients.
Conclusions
We present the first evidence that S1P-directed therapies can act additionally as immunomodulators that decrease the pro-inflammatory capabilities of APCs, which is a crucial element in DC-dependent T cell activation and programming.
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Fingolimod additionally acts as immunomodulator focused on the innate immune system beyond its prominent effects on lymphocyte recirculationThomas, Katja, Sehr, Tony, Proschmann, Undine, Rodriguez-Leal, Francisco Alejandro, Haase, Rocco, Ziemssen, Tjalf 25 July 2017 (has links)
Background
Growing evidence emphasizes the relevance of sphingolipids for metabolism and immunity of antigen-presenting cells (APC). APCs are key players in balancing tolerogenic and encephalitogenic responses in immunology. In contrast to the well-known prominent effects of sphingosine-1-phosphate (S1P) on lymphocyte trafficking, modulatory effects on APCs have not been fully characterized.
Methods
Frequencies and activation profiles of dendritic cell (DC) subtypes, monocytes, and T cell subsets in 35 multiple sclerosis (MS) patients were evaluated prior and after undergoing fingolimod treatment for up to 24 months. Impact of fingolimod and S1P on maturation and activation profile, pro-inflammatory cytokine release, and phagocytotic capacity was assessed in vitro and ex vivo. Modulation of DC-dependent programming of naïve CD4+ T cells, as well as CD4+ and CD8+ T cell proliferation, was also investigated in vitro and ex vivo.
Results
Fingolimod increased peripheral slanDC count—CD1+ DC, and monocyte frequencies remained stable. While CD4+ T cell count decreased, ratio of Treg/Th17 significantly increased in fingolimod-treated patients over time. CD83, CD150, and HLADR were all inhibited, but CD86 was upregulated in DCs after incubation in the presence of fingolimod. Fingolimod but not S1P was associated with reduced release of pro-inflammatory cytokines from DCs and monocytes in vitro and ex vivo. Fingolimod also inhibited phagocytic capacity of slanDCs and monocytes. After fingolimod, slanDCs demonstrated reduced potential to induce interferon–gamma-expressing Th1 or IL-17-expressing Th17 cells and DC-dependent T cell proliferation in vitro and in fingolimod-treated patients.
Conclusions
We present the first evidence that S1P-directed therapies can act additionally as immunomodulators that decrease the pro-inflammatory capabilities of APCs, which is a crucial element in DC-dependent T cell activation and programming.
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Sphingosine 1-phosphate enhances excitability of sensory neurons through sphingosine 1-phosphate receptors 1 and/or 3Li, Chao January 2014 (has links)
Indiana University-Purdue University Indianapolis (IUPUI) / Sphingosine 1-phosphate (S1P) is a bioactive sphingolipid that has proven to be an important signaling molecule both as an extracellular primary messenger and as an intracellular second messenger. Extracellular S1P acts through a family of five S1P receptors, S1PR1-5, all of which are G protein-coupled receptors associated with different G proteins. Previous work from our laboratory shows that externally applied S1P increases the excitability of small-diameter sensory neurons by enhancing the action potential firing. The increased neuronal excitability is mediated primarily, but not exclusively, through S1PR1. This raises the question as to which other S1PRs mediate the enhanced excitability in sensory neurons.
To address this question, the expression of different S1PR subtypes in small-diameter sensory neurons was examined by single-cell quantitative PCR. The results show that sensory neurons express the mRNAs for all five S1PRs, with S1PR1 mRNA level significantly greater than the other subtypes. To investigate the functional contribution of other S1PRs in augmenting excitability, sensory neurons were treated with a pool of three individual siRNAs targeted to S1PR1, R2 and R3. This treatment prevented S1P from augmenting excitability, indicating that S1PR1, R2 and/or R3 are essential in mediating S1P-induced sensitization.
To study the role of S1PR2 in S1P-induced sensitization, JTE-013, a selective antagonist at S1PR2, was used. Surprisingly, JTE-013 by itself enhanced neuronal excitability. Alternatively, sensory neurons were pretreated with FTY720, which is an agonist at S1PR1/R3/R4/R5 and presumably downregulates these receptors. FTY720 pretreatment prevented S1P from increasing neuronal excitability, suggesting that S1PR2 does not mediate the S1P-induced sensitization.
To test the hypothesis that S1PR1 and R3 mediate S1P-induced sensitization, sensory neurons were pretreated with specific antagonists for S1PR1 and R3, or with siRNAs targeted to S1PR1 and R3. Both treatments blocked the capacity of S1P to enhance neuronal excitability. Therefore my results demonstrate that the enhanced excitability produced by S1P is mediated by S1PR1 and/or S1PR3.
Additionally, my results indicate that S1P/S1PR1 elevates neuronal excitability through the activation of mitogen-activated protein kinase kinase. The data from antagonism at S1PR1 to regulate neuronal excitability provides insight into the importance of S1P/S1PR1 axis in modulating pain signal transduction.
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Differential effects of selective versus unselective sphingosine 1-phosphate receptor modulators on T- and B-cell response to SARS-CoV-2 vaccinationProschmann, Undine, Mueller-Enz, Magdalena, Woopen, Christina, Katoul Al Rahbani, Georges, Haase, Rocco, Dillenseger, Anja, Dunsche, Marie, Atta, Yassin, Ziemssen, Tjalf, Akgün, Katja 05 August 2024 (has links)
Background: Sphingosine 1-phosphat receptor modulators (S1PRMs) have been linked to attenuated immune response to SARS-CoV-2 vaccines.
Objective: To characterize differences in the immune response to SARS-CoV-2 vaccines in patients on selective versus unselective S1PRMs.
Methods: Monocentric, longitudinal study on people with multiple sclerosis (pwMS) on fingolimod (FTY), siponimod (SIP), ozanimod (OZA), or without disease-modifying therapy (DMT) following primary and booster SARS-CoV-2 vaccination. Anti-SARS-CoV-2 antibodies and T-cell response was measured with electro-chemiluminescent immunoassay and interferon-γ release assay. Results: Primary vaccination induced a significant antibody response in pwMS without DMT while S1PRM patients exhibited reduced antibody titers. The lowest antibodies were found in patients on FTY, whereas patients on OZA and SIP presented significantly higher levels. Booster vaccinations induced increased antibody levels in untreated patients and comparable titers in patients on OZA and SIP, but no increase in FTY-treated patients. While untreated pwMS developed a T-cell response, patients on S1PRMs presented a diminished/absent response. Patients undergoing SARS-CoV-2 vaccination before onset of S1PRMs presented a preserved, although attenuated humoral response, while T-cellular response was blunted.
Conclusion: Our data confirm differential effects of selective versus unselective S1PRMs on T- and B-cell response to SARS-CoV-2 vaccination and suggest association with S1PRM selectivity rather than lymphocyte redistribution.
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