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11	Mechanisms of intracellular and extracellular cytokine production from the human leukaemia inhibitory factor gene / a thesis submitted to the University of Adelaide for the degree of Doctor of Philosophy by Roger Bruce Voyle. Voyle, Roger Bruce January 1999 (has links) Addendum attached to back facing leaves. / Includes bibliographical references (leaves 172-199). / 199 leaves, 5 photographic plates : ill. (some col.) ; 30 cm. / Title page, contents and abstract only. The complete thesis in print form is available from the University Library. / The findings establish leukemia inhibitory factor, and possibly oncostatin M, as new members of a small but growing class of cytokines produced in an intracellularly active form and also suggest that the production of alternate transcripts and intercellularly-retained proteins may be a common and important feature of cytokines of the IL-6 and other families. / Thesis (Ph.D.)--University of Adelaide, Dept. of Biochemistry, 2000 Interleukin-6 Leukemia Physiopathology Leukemia inhibitory factor
12	Mechanisms of intracellular and extracellular cytokine production from the human leukaemia inhibitory factor gene / Voyle, Roger Bruce. January 1999 (has links) (PDF) Thesis (Ph.D.) -- University of Adelaide, Dept. of Biochemistry, 2000. / Addendum attached to back facing leaves. Includes bibliographical references (leaves 172-199).
13	Determination of the hypertrophic potential of Oncostatin M on rat cardiac cells and the characterisation of the receptor complexes utilised by rat Oncostatin M / Erforschung des hypertrophen Potentials von Oncostatin M auf Ratten-Herzzellen und die Charakterisierung der Rezeptorkomplexe, welche von Ratten-Oncostatin M genutzt werden Drechsler, Johannes January 2012 (has links) (PDF) Interleukin-6 (IL-6), oncostatin M (OSM), leukaemia inhibitory factor (LIF) and cardiotrophin-1 (CT-1) are members of the IL-6-type cytokine family that is characterised by sharing the common receptor subunit gp130. While the involvement of these polypeptides in cell differentiation, cell survival, proliferation, apoptosis, inflammation, haematopoiesis, immune response and acute phase reaction has already been demonstrated, the description of their role in development and progression of cardiac hypertrophy is still rather limited. A model has been postulated that declares the transient expression of IL-6-type cytokines as protective, while a continuous cardiac secretion of these proteins seems to be rather harmful for the heart. Within the first part of the study (results 4.1, 4.2 and 4.3) it was shown that OSM induces hypertrophy of primary neonatal rat cardiomyocytes (NRCM), just as its related cytokines LIF, CT-1 and hIL-6/hsIL-6R (hsIL-6R, human soluble IL-6 receptor). Regarding the hypertrophic potentials the LIFR/gp130 utilising cytokines (hLIF, hOSM and hCT-1) are stronger inducers than the OSMR/gp130 utilising mOSM. Human IL-6/hsIL-6R which signals via a gp130 homodimer has the weakest hypertrophic effect. The thorough analysis of typical signalling pathways initiated by IL-6-type cytokines revealed that STAT3 phosphorylation at Y705 seems to be the most important hypertrophy promoting pathway. In addition and in contrast to published work, we clearly demonstrate that classical IL-6 signalling (upon pure IL-6 treatment) has no hypertrophic effect on cardiomyocytes, because they lack sufficient amounts of the membrane-bound IL-6R. This is also true for neonatal rat cardiac fibroblasts (NRCFB). Since these cells can also influence cardiac hypertrophy, signalling pathways and target genes were additionally examined in NRCFB in response to OSM, LIF and IL-6/sIL-6R. One of the key findings of this thesis is the selective change in expression of cytokines and receptors of the IL-6 family in both cell types upon IL-6-type cytokine stimulation. A striking difference between NRCM and NRCFB is the fact that the target gene induction in NRCM is of similar duration upon mOSM and hIL-6/hsIL-6R treatment, while hIL-6/hsIL-6R is capable of promoting the induction of OSMR and IL-6 significantly longer in NRCFB. By searching for transcription factors or intermediate cytokines which could be responsible for this difference, a strong correlation between increased Il6 transcription and amount of mRNA levels for C/EBPβ and C/EBPδ was observed in response to IL-6/sIL-6R stimulation. Interestingly, mOSM also mediates the induction of C/EBPβ and δ, but the initiation is significantly less efficient than in response to IL-6/sIL-6R. Therefore, we assume that mOSM stimulation fails to reach threshold values required for a prolonged IL-6 secretion. Since we additionally observe a slight IL-6R mRNA upregulation in NRCFB, we assume that the combination of IL-6, LIF, C/EBPβ, C/EBPδ and IL-6R expression might be responsible for the observed different kinetics with which IL-6 and OSM stimulate NRCFB. In addition to the aforementioned proteins, members of the renin-angiotensin system seem to support the IL-6-type cytokine mediated hypertrophy. Since it has already been shown that angiotensin II vice versa induces IL-6 expression in NRCM and NRCFB, this enhanced expression of AT1α and ACE could be of crucial interest for the hypertrophy supporting phenotype. The second part of the presented work dealt with the characterisation of the receptor complexes of rat OSM. The central question of this analysis was, whether rOSM, just like mOSM, only binds the type II (OSMR/gp130) receptor complex or is able to utilise the type II and type I (LIFR/gp130) receptor complex. Using different experimental approaches (knock-down of the OSMR expression by RNA interference, blocking of the LIFR by LIF-05, an antagonistic LIF variant, and generation of stably transfected Ba/F3 cells expressing the newly cloned rat OSMR/gp130 or LIFR/gp130 receptor complex) we can clearly show that rat OSM surprisingly utilises both, the type I and type II receptor complex. Therefore it closely mimics the human situation. Furthermore, rOSM displays cross-species activities and stimulates cells of human as well as murine origin. Its signaling capacities closely mimic those of human OSM in cell types of different origin in the way that strong activation of the JAK/STAT, the MAP kinase as well as the PI3K/Akt pathways can be observed. Therefore, the results obtained in the last section of this thesis clearly suggest that rat disease models would allow evaluation of the relevance of OSM for human biology much better than murine models. / Interleukin-6 (IL-6), Oncostatin M (OSM), Leukämie inhibierender Faktor (LIF) und Cardiotrophin-1 (CT-1) sind Mitglieder der IL-6-Typ Zytokin-Familie, welche durch die gemeinsame Nutzung der Rezeptoruntereinheit gp130 charakterisiert ist. Während eine Beteiligung dieser Proteine bei Zelldifferenzierung, Zellüberleben, Proliferation, Apoptose, Entzündung, Hämatopoese, Immunantwort und Akut-Phase-Reaktion bereits gezeigt wurde, ist die Beschreibung ihrer Rolle bei der Entstehung und dem Fortschreiten der kardialen Hypertrophie deutlich limitierter. Es wurde bereits ein Modell postuliert, nach dem die kurzzeitige Expression dieser Zytokine schützend wirkt, während eine andauernde kardiale Sekretion eher schädlich für das Herz zu sein scheint. Im ersten Teil der Arbeit (Ergebnisse 4.1, 4.2 und 4.3) konnte gezeigt werden, dass OSM wie auch seine verwandten Zytokine LIF, CT-1 und hIL-6/hsIL-6R (hsIL-6R, humaner löslicher IL-6 Rezeptor) Hypertrophie-induzierend auf primäre neonatale Ratten-Kardiomyozyten (NRCM) wirkt. Hinsichtlich ihres hypertrophen Potentials sind die Zytokine, welche über LIFR/gp130 signalisieren (hLIF, hOSM und hCT-1), die stärkeren Induktoren im Vergleich zu mOSM, welches den OSMR/gp130 Rezeptorkomplex bindet. Die Stimulation mit humanem IL-6/hsIL-6R hatte hingegen die schwächste hypertrophe Wirkung. Unsere genaue Analyse der typischen IL-6-Typ Zytokin vermittelten Signalwege enthüllte die Phosphorylierung von STAT3 an Y705 als offenkundig wichtigsten hypertrophen Weg. Zusätzlich dazu konnten wir auch zeigen, dass klassisches IL-6 Signalling (ohne sIL-6R) keinen hypertrophen Einfluss auf NRCM hat, da diesen Zellen ausreichende Mengen des membranständigen IL-6R fehlen. Diese Beobachtung steht in klarem Kontrast zu bereits publizierten Arbeiten. In den ebenfalls untersuchten neonatalen Ratten-Kardiofibroblasten (NRCFB) verhält es sich, was den IL-6R angeht, genauso wie in NRCM. Da auch diese Zellen eine kardiale Hypertrophie mit beeinflussen können, wurden in ihnen die gleichen Signalwege und Zielgene nach Stimulation mit OSM, LIF und IL-6/sIL-6R untersucht. Die selektive Expressionsregulation von Zytokinen und Rezeptoren der IL-6-Familie in beiden Zelltypen nach IL-6-Typ Zytokin Stimulation ist hierbei einer unserer wichtigsten Befunde. Ein gravierender Unterschied zwischen NRCM und NRCFB besteht darin, dass die mOSM und hIL-6/hsIL-6R vermittelte Geninduktion in NRCM von vergleichbarer Dauer ist, wohingegen sie sich in NRCFB unterscheidet. Bei der Suche nach Transkriptionsfaktoren oder intermediären Zytokinen, welche für diesen Unterschied verantwortlich sein könnten, beobachteten wir nach IL-6/sIL-6R Stimulation eine deutliche Korrelation zwischen der Il6-Transkription und den mRNA Mengen von C/EBPβ und C/EBPδ. Auch OSM ist in der Lage beide Transkriptionsfaktoren zu induzieren, jedoch viel ineffizienter als IL-6/sIL-6R. Wir vermuten, dass mOSM einen bestimmten Schwellenwert, der für die verlängerte IL-6 Sekretion benötigt wird, nicht erreicht. Da wir zusätzlich noch eine schwache Zunahme der IL-6R mRNA in NRCFB beobachten konnten, gehen wir davon aus, dass die Expression von IL-6, LIF, C/EBPβ, C/EBPδ und IL-6R für die unterschiedlichen Kinetiken, mit denen IL-6 und OSM NRCFB stimulieren, verantwortlich sein dürfte. Es scheinen auch Mitglieder des Renin-Angiotensin-Systems die IL-6-Typ Zytokin vermittelte Hypertrophie zu unterstützen. Da schon gezeigt wurde, dass Angiotensin II reziprok die IL-6 Expression induziert, könnte diese verstärkte Synthese von AT1α und ACE von größter Bedeutung für den Hypertrophie-unterstützenden Phänotyp sein. Der zweite Teil der Arbeit (4.4) beschäftigte sich mit der Charakterisierung der Rezeptorkomplexe des Ratten-OSM. Die zentrale Frage hierbei bestand darin, ob rOSM wie mOSM nur den Typ II (OSMR/gp130) Rezeptorkomplex bindet, oder wie das hOSM sowohl den Typ II als auch den Typ I (LIFR/gp130) Rezeptorkomplex benutzen kann. Mit Hilfe unterschiedlicher experimenteller Strategien (knock-down der OSMR Expression durch RNA-Interferenz, LIFR-Blockade durch antagonistisches LIF-05, und die Generierung von stabil transfizierten Ba/F3-Zellen, welche die hierzu klonierten OSMR/gp130 oder LIFR/gp130 Rezeptorkomplexe der Ratte exprimieren) konnten wir eindeutig zeigen, dass Ratten-OSM überraschenderweise beide Rezeptorkomplexe benutzt. In dieser Hinsicht verhält sich es sich wie das humane Homolog. Des Weiteren besitzt Ratten-OSM Kreuz-Spezies-Aktivität und stimuliert humane und murine Zellen. Das Signal-Potential von rOSM ist dem von humanem OSM auf Zellen unterschiedlichen Ursprungs sehr ähnlich. Das Zytokin ist befähigt JAK/STAT, MAP Kinase und PI3K/Akt Signalwege potent zu aktivieren. Deshalb deuten die Daten des zweiten Teils dieser Arbeit darauf hin, dass Krankheitsmodelle in Ratten die Evaluierung der Relevanz des OSM für die humane Biologie deutlich besser widerspiegeln würden als murine Modelle. Interleukin 6 Leukaemia-inhibitory factor Herzhypertrophie Ratte ddc:570
14	Correlations between unexplained infertility and single nucleotide polymorphism in the genes of leukemia inhibitory factor receptor and gp130 Malki, Marwa January 2010 (has links) <p>About 30 % of all infertile couples suffer from infertility of an unexplained cause. Leukemia inhibitory factor (LIF) is a glycoprotein produced by the endometrium and is an important cytokine in the implantation process. LIF exerts its biological functions through heterodimerization of its two receptors: LIF receptor (LIFR) and gp130. Point mutations in the LIF gene have been associated with female infertility. The aim of this study was to investigate whether single nucleotide polymorphisms (SNPs) in the genes of LIFR and gp130 could cause reduced fertility in women. To this end, 115 samples from women diagnosed with unexplained infertility and 191 samples from fertile women were studied. Three SNPs in the gp130 gene and two SNPs in the LIFR gene were analyzed using real-time PCR. One significant difference and a tendency to difference were detected in the gp130 gene for women with unexplained infertility. There were no differences in the LIFR gene variations. In conclusion, polymorphisms in gp130, and thereby disturbances in the LIF pathway, could be one cause for infertility in women diagnosed with unexplained infertility.</p> Female infertility leukemia inhibitory factor mutation blastocyst implantation genotyping.
15	Correlations between unexplained infertility and single nucleotide polymorphism in the genes of leukemia inhibitory factor receptor and gp130 Malki, Marwa January 2010 (has links) About 30 % of all infertile couples suffer from infertility of an unexplained cause. Leukemia inhibitory factor (LIF) is a glycoprotein produced by the endometrium and is an important cytokine in the implantation process. LIF exerts its biological functions through heterodimerization of its two receptors: LIF receptor (LIFR) and gp130. Point mutations in the LIF gene have been associated with female infertility. The aim of this study was to investigate whether single nucleotide polymorphisms (SNPs) in the genes of LIFR and gp130 could cause reduced fertility in women. To this end, 115 samples from women diagnosed with unexplained infertility and 191 samples from fertile women were studied. Three SNPs in the gp130 gene and two SNPs in the LIFR gene were analyzed using real-time PCR. One significant difference and a tendency to difference were detected in the gp130 gene for women with unexplained infertility. There were no differences in the LIFR gene variations. In conclusion, polymorphisms in gp130, and thereby disturbances in the LIF pathway, could be one cause for infertility in women diagnosed with unexplained infertility. Female infertility leukemia inhibitory factor mutation blastocyst implantation genotyping.
16	Leukemia inhibitory factor receptor signaling in NGF-induced neuronal differentiation of PC12 cells / Ng, Yu Pong. January 2004 (has links) Thesis (Ph. D.)--Hong Kong University of Science and Technology, 2004. / Includes bibliographical references (leaves 134-172). Also available in electronic version. Access restricted to campus users.
17	Macrophage migration inhibitory factor and circulating progenitor cells: relevance and implications inperiodontal medicine 李晓, Li, Xiao January 2011 (has links) published_or_final_version / Dentistry / Doctoral / Doctor of Philosophy Macrophage migration inhibitory factor. Stem cells. Periodontal disease.
18	Dissecting the paracrine interactions contributing to normal testicular function and during the ageing process Curley, Michael Kings January 2018 (has links) The mammalian testis is divided into two distinct compartments which carry out its principal functions. Spermatogenesis occurs within the seminiferous tubules and androgen biosynthesis primarily occurs in the interstitial space. Both these processes are entirely dependent upon the two major testicular somatic cell populations - the Sertoli and Leydig cells respectively. In human males, testicular spermatogenic and endocrine function declines during the ageing process. Of particular significance is the reported age-related decrease in Leydig cell androgen production as androgens have been suggested to play a crucial role in supporting lifelong general health in men, with low circulating testosterone linked to an increased risk of developing chronic age-related cardiometabolic diseases. However, the relationship between ageing, testicular function and disease is not fully understood, impeding the development of novel therapeutic strategies to treat age-related testicular dysfunction. In one set of studies undertaken herein, a series of novel mouse models of premature ageing were utilised to begin to dissect the process of age-related testicular degeneration. Firstly, a novel knockout-first conditional allele of a previously reported premature-ageing model driven by Cisd2 (CDGSH Iron Sulphur Domain 2) deficiency was validated and the testicular phenotype characterised and compared to that of naturally aged mice at 18-months of age. Histological analyses revealed premature testicular atrophy at 6-months of age in CISD2 deficient mice, consistent with observations of the naturally aged testis. Circulating testosterone was significantly lower in CISD2-deficient mice compared to wild-type controls at 6-months of age and the luteinising hormone/testosterone ratio was significantly elevated, indicative of compensated Leydig cell failure. mRNA expression of key genes involved in androgen production were also significantly reduced in the CISD2-deficient testis, pointing to Leydig cell dysfunction in this model of premature aging. Next, Cre/LoxP technology was used to delete Cisd2 from specific testicular cell populations to determine which cell types control/support Leydig cell function during the ageing process. Testosterone production was unaffected when Cisd2 was disrupted in either the Leydig cell population or Sertoli cell population. These observations suggest that disruption to the testicular microenvironment in which Leydig cells reside, rather than intrinsic Leydig cell ageing, may play a significant role in age-associated Leydig cell dysfunction. A second set of studies were carried out to investigate the role of leukemia inhibitory factor (LIF) signalling in the maintenance of testicular function. LIF is a pleiotropic cytokine belonging to the interleukin-6 family. In the rodent testis, LIF is expressed in fetal life and adulthood; the peritubular myoid cells thought to be the main site of production. Given their anatomical location within the testis, LIF produced by peritubular myoid cells may act on both intratubular and interstitial cells to influence spermatogenesis and steroidogenesis respectively. Indeed, LIFR is expressed in germ cells, Sertoli cells, Leydig cells as well as testicular macrophages suggesting that LIF may be a key paracrine regulator of testicular function. However, the precise role of LIF/LIFR signalling in the testis is largely unknown. As such, models of testicular cell-specific Lifr deletion were generated using Cre/LoxP technology. Analysis of these novel models of conditional LIFR ablation revealed that LIFR is dispensable in germ cells for normal spermatogenesis. However, LIFR ablation from Sertoli cells resulted in a progressive degenerative phenotype, characterised by abnormal germ cell loss, sperm stasis, seminiferous tubule distention and subsequent atrophy of the seminiferous tubules. In a final set of studies, a rat model of Leydig cell ablation-regeneration was used to determine the regenerative capacity of human adipose-derived perivascular stem cells (hAd-PSC) as a potential therapy for testicular dysfunction. Following ethane dimethanesulphonate (EDS) mediated Leydig cell ablation, primary hAd-PSCs, cultured with or without LH, IGF-1, PDGFBB, T3 and ITS supplement, were transplanted into the rat testis and Leydig cell regeneration was monitored via serial measurements of circulating luteinising hormone (LH) and testosterone. Overall, hAd- PSCs had no impact on the recovery of circulating testosterone levels. However, when pre-cultured with the cocktail of hormone/growth factor supplements, the LH spike induced by the removal of testosterone negative feedback was dampened, suggesting the transplanted cells may promote Leydig cell regeneration. Whether these cells differentiate into Leydig cells, or simply provide paracrine support to the regenerating Leydig cells remains to be determined. Although Ad-PSCs may enhance regeneration kinetics, the transplanted cells were undetectable in the testis 5 weeks post transplantation suggesting they may not survive in the context of long term xenogeneic transplantation.
19	Einfluss von Oncostatin M auf die Pathogenese der Nicht-alkoholischen Fettlebererkrankung / Influence of Oncostatin M on the pathogenesis of non-alcoholic fatty liver disease Gotthardt [geb. Schubert], Sonja January 2023 (has links) (PDF) Die Nicht-alkoholische Fettlebererkrankung (NAFLD) ist eine der häufigsten chronischen Lebererkrankungen der westlichen Welt. Die Pathogenese der Erkrankung ist noch nicht vollständig erforscht und wirksame medikamentöse Therapien sind bisher nicht zugelassen. Wachsende Evidenz zeigt, dass das Interleukin-6-Typ-Zytokin Oncostatin M (OSM) eine wichtige Rolle in der Pathogenese der NAFLD spielt. Die japanische Arbeitsgruppe um Komori et al. zeigte an OSM-Rezeptor-β-defizienten (Osmr-KO-) Mäusen sowie durch OSM-Behandlung von genetisch und ernährungsbedingt adipösen Mäusen, dass OSM vor einer hepatischen Steatose und metabolischer Komorbidität schützen kann. Andere Publikationen suggerieren, dass OSM an NAFLD-Entwicklung und -Progression beteiligt ist, indem es die Expression von Genen der β-Oxidation und Very-Low-Density-Lipoprotein (VLDL-) Sekretion reprimiert und die Expression profibrogenetischer Gene fördert. Low-Density-Lipoprotein-Rezeptor-defiziente- (Ldlr-KO-) Mäuse sind seit Langem als Atherosklerose-Modell etabliert und wurden zuletzt auch als physiologisches Modell für NAFLD identifiziert. Um die Rolle von OSM in der NAFLD-Pathogenese zu beleuchten, wurden Osmr-KO-Mäuse auf Wildtyp- (WT-) und Ldlr-KO-Hintergrund untersucht, die über 12 Wochen eine fett- und cholesterinreiche Western Diet erhielten und anschließend für die Organentnahme geopfert wurden. Im Vorfeld dieser Arbeit wurden Körpergewicht, Blutglukose, Serum-Cholesterin und Lebergewicht der Tiere gemessen. Hierbei zeigte sich ein erhöhtes Körpergewicht, unveränderte Blutglukose, erhöhtes Serum-Cholesterin sowie ein erhöhtes Lebergewicht in Osmr-KO- gegenüber WT-Mäusen. Andersherum waren Körpergewicht, Blutglukose, Serum-Cholesterin und Lebergewicht in Ldlr-Osmr-KO- gegenüber Ldlr-KO-Mäusen vermindert. Im Rahmen der vorliegenden Arbeit erfolgte die histologische Untersuchung des Lebergewebes, die Messung von Serum-Triglyzeriden und Fettsäuren sowie die Untersuchung der hepatischen Genexpression. An kultivierten Zellen der humanen Hepatom-Zelllinie HepG2 wurde eine mögliche Regulation der CYP7A1-Genexpression durch OSM untersucht. CYP7A1 ist als Schrittmacherenzym der Gallensäuresynthese an der hepatischen Cholesterin-Clearance beteiligt. Osmr-KO-Mäuse zeigten gegenüber WT-Mäusen histologisch eine verstärkte hepatische Steatose. Bei der Untersuchung der mRNA-Expression von Genen mit Beteiligung an der hepatischen Lipidhomöostase zeigte sich eine Minderexpression von Ldlr in Osmr-KO-Mäusen. Weiterhin zeigte sich eine etwas geringere Expression von Cyp7a1 in Osmr-KO-Mäusen. Die Expression aller anderen untersuchten Gene, die an Fettsäuresynthese, Cholesterintransport und –metabolismus beteiligt sind, lieferten keine Erklärung für eine erhöhte hepatische Lipidakkumulation in Osmr-KO-Mäusen. Ldlr-Osmr-KO-Mäuse hatten gegenüber Ldlr-KO-Mäusen eine geringer ausgeprägte hepatische Steatose. Die mRNA-Expression von Genen der Fettsäuresynthese, der Cholesterinbiosynthese und des Cholesterintransports waren in Ldlr-Osmr-KO- gegenüber Ldlr-KO-Mäusen nicht wesentlich verändert. Allerdings fiel eine deutliche Hochregulation von Cyp7a1 in Ldlr-Osmr-KO-Mäusen auf. Darüber hinaus war Osm in Ldlr-KO-Mäusen gegenüber WT-Mäusen stärker exprimiert. Um eine Regulation von CYP7A1 durch OSM nachzuweisen, wurde die Genexpression in HepG2-Zellen nach Stimulation mit OSM untersucht. Hierbei zeigte sich, dass OSM die mRNA-Expression von CYP7A1 supprimierte. Dieser Effekt war durch die Zugabe von Inhibitoren der Januskinasen (JAK), Mitogen Activated Protein Kinase/ERK-Kinase (MEK) und Extracellular-signal Regulated Kinase ½ (ERK1/2) reversibel. Die CYP7A1-Suppression durch OSM ging mit einer verminderten Expression des Transkriptionsfaktor-Gens HNF4A einher. Osmr-KO-Mäuse zeigten gegenüber WT-Mäusen nach 12 Wochen Western Diet verstärkte Adipositas, Dyslipidämie sowie eine hepatische Steatose. Die Analyse der hepatischen mRNA-Expression legt nahe, dass die Minderexpression von Ldlr in Osmr-KO-Mäusen im Vergleich zu WT-Mäusen zur Verstärkung der Dyslipidämie und hepatischen Steatose beigetragen hat. Weiterhin kann die geringere Expression von Cyp7a1 in Osmr-KO-Mäusen durch daraus resultierende Akkumulation von Cholesterin zur erhöhten hepatischen Lipidakkumulation in diesen Mäusen beigetragen haben. Ldlr-KO-Mäuse zeigten nach 12 Wochen Western Diet ebenfalls eine hepatische Steatose. Diese war in Ldlr-Osmr-KO-Mäusen gegenüber Ldlr-KO-Mäusen geringer ausgeprägt. Die erhöhte Expression von Cyp7a1 in Ldlr-Osmr-KO-Mäusen kann die Verbesserung von hepatischer Lipidakkumulation und Dyslipidämie durch erhöhte Cholesterinmetabolisierung zu Gallensäuren erklären. Übereinstimmend mit der Cyp7a1-Regulation in LDLR-defizienten Mäusen zeigte sich in vitro, dass OSM die Expression von CYP7A1 in HepG2-Zellen vermindert und sich so negativ auf die hepatische Lipidhomöostase auswirken kann. Insgesamt implizieren diese Ergebnisse eine divergierende Rolle von OSM bei der Entwicklung einer hepatischen Steatose abhängig vom genetischen Hintergrund. OSM scheint bei WT-Mäusen für die Erhaltung der metabolischen Gesundheit wichtig zu sein. Bei Ldlr-KO-Mäusen hingegen scheint OSM die Entwicklung von Adipositas, Dyslipidämie und hepatischer Steatose zu fördern. Die differenzielle Rolle in WT- und Ldlr-KO-Mäusen könnte durch unterschiedliche Osm-Expressionsspiegel zustande kommen: Während basale OSMRβ-Signaltransduktion durch geringe OSM-Spiegel in WT-Mäusen für die Lipidhomöostase essenziell zu sein scheint, könnte erhöhte oder prolongierte OSMRβ-Signaltransduktion durch höhere OSM-Spiegel in Ldlr-KO-Mäusen das Fortschreiten der hepatischen Steatose fördern. Dies stellt OSM als mögliches NAFLD-Therapeutikum in Frage. Um die Hypothese zu überprüfen, dass OSM abhängig von der Höhe und Kinetik der Spiegel günstige oder ungünstige Effekte auf die NAFLD-Entwicklung hat, sollte in zukünftigen Experimenten der Einfluss kurz- und langfristiger Behandlung von WT-Mäusen mit OSM unterschiedlicher Konzentrationen auf die Entwicklung einer hepatischen Steatose untersucht werden. / Non-alcoholic fatty liver disease (NAFLD) is among the most common chronic liver diseases in Western societies. Pathogenetic mechanisms are not fully elucidated and to date there is no approved drug therapy available. There is mounting evidence that the Interleukin-6-type-cytokine Oncostatin M (OSM) plays a crucial role in the pathogenesis of NAFLD. The Japanese working group of Komori et al. had shown that OSM has favorable effects on metabolism und protects against hepatic steatosis using OSM-receptor-β-deficient (Osmr-KO-) mice as well as OSM treatment of genetically or diet-induced obese mice. Other publications suggest that OSM contributes to the pathogenesis and progression of NAFLD by reducing the expression of genes involved in β-oxidation and Very-Low-Density-Lipoprotein (VLDL) secretion and inducing the expression of genes involved in fibrogenesis. Recently Low-Density-Lipoprotein-Receptor-deficient (Ldlr-KO-) mice, which are a well-established model for atherosclerosis, have also been considered a physiological model for NAFLD. To further investigate the role of OSM in NAFLD pathogenesis Osmr-KO mice on either wild type- (WT-) or Ldlr-KO-background were fed a high-fat and high-cholesterol Western diet for 12 weeks and were then sacrificed for tissue collection. Prior to the present thesis body weight, blood glucose levels, serum cholesterol and liver weight of the mice were measured. Osmr-KO mice showed increased body weight, serum cholesterol levels and liver weight compared to WT mice, whereas blood glucose levels did not differ. On the contrary, Ldlr-Osmr-KO mice showed decreased values in all parameters compared to Ldlr-KO mice, including body weight, blood glucose levels, serum cholesterol levels and liver weight. In the present thesis a histological examination of the liver tissue was made, serum levels of triglycerides and fatty acids were measured, and hepatic gene expression was analyzed. In cultured cells of the human hepatoma cell line HepG2 a potential regulation of CYP7A1 gene expression by OSM was examined. CYP7A1 is the rate limiting enzyme of bile acid synthesis and is therefore involved in hepatic cholesterol clearance. Osmr-KO mice showed enhanced hepatic steatosis compared to WT mice. Examination of gene expression involved in hepatic lipid homeostasis revealed reduced Ldlr expression levels in Osmr-KO mice. Furthermore, a slightly decreased Cyp7a1 expression was observed. The expression of other genes involved in fatty acid synthesis, cholesterol transport and cholesterol metabolism did not explain the enhanced hepatic lipid accumulation in Osmr-KO mice. In Ldlr-Osmr-KO mice hepatic steatosis was reduced compared to Ldlr-KO mice. The expression of genes involved in fatty acid synthesis, cholesterol synthesis and cholesterol transport was not considerably altered in Ldlr-Osmr-KO compared to Ldlr-KO mice. However, Cyp7a1 was markedly upregulated in Ldlr-Osmr-KO mice. In addition, Osm expression was increased in Ldlr-KO mice compared to WT mice. To prove the regulation of CYP7A1 by OSM, gene expression was determined in OSM-treated HepG2 cells. The results show that OSM attenuated CYP7A1 expression. This effect was reversed by the addition of inhibitors of either januskinases (JAK), mitogen-activated protein kinase/ERK-kinase (MEK) or extracellular-signal regulated kinase 1/2 (ERK1/2). CYP7A1-suppression by OSM was accompanied by reduced expression levels of the transcription factor gene HNF4A. After 12 weeks of Western diet Osmr-KO mice showed enhanced obesity, dyslipidemia and hepatic steatosis compared to WT mice. Determination of hepatic gene expression suggests that decreased expression of Ldlr in Osmr-KO mice compared to WT mice contributes to dyslipidemia and hepatic steatosis. Furthermore, the decreased expression of Cyp7a1 in Osmr-KO mice may contribute to cholesterol accumulation and accordingly to hepatic lipid accumulation in these mice. Ldlr-KO mice also showed hepatic steatosis after 12 weeks of Western diet. In comparison, hepatic steatosis was markedly reduced in Ldlr-Osmr-KO mice. Increased expression levels of Cyp7a1 and hence enhanced metabolization of cholesterol to bile acids in Ldlr-Osmr-KO mice can explain improved hepatic lipid accumulation and dyslipidemia in these mice compared to Ldlr-KO mice. Consistent with the discovered Cyp7a1 regulation in LDLR-deficient mice, OSM decreased the expression of CYP7A1 in HepG2 cells and therefore may have detrimental effects on hepatic lipid homeostasis. Altogether the results implicate a diverging role of OSM in the pathogenesis of hepatic steatosis depending on the genetic background. In WT mice OSM seems to convey protective effects on lipid homeostasis, whereas in Ldlr-KO mice OSM seems to promote the development of obesity, dyslipidemia and hepatic steatosis. The differential role of OSM in WT and Ldlr-KO mice might be caused by diverging Osm expression levels: Basal OSMRβ signal transduction caused by low OSM levels seems to be essential for lipid homeostasis, whereas enhanced or prolonged OSMRβ signal transduction caused by higher OSM levels might foster the progression of hepatic steatosis. These findings question OSM as a putative therapeutic agent for NAFLD. To test the hypothesis that OSM has beneficial or detrimental effects on NAFLD pathogenesis depending on OSM levels and kinetics, future studies should examine the effect of short- and long-term administration of OSM in different concentrations on the development of hepatic steatosis in WT mice. Fettleber Interleukin 6 Leukaemia-inhibitory factor Cholesterinstoffwechsel Fettsäurestoffwechsel ddc:616
20	Supplementing Bovine Embryo Culture Media to Improve the Production and Quality of In Vitro Produced Bovine Embryos Wooldridge, Lydia Katherine 09 April 2020 (has links) Initial studies in this work explored the role of interleukin-6 (IL6) and leukemia inhibitory factor (LIF) in preimplantation bovine embryos. Neither cytokine affected the total percentage of embryos which developed to the blastocyst stage in vitro. However, supplementation of IL6 increased blastocyst inner cell mass (ICM) cell number without affecting trophectoderm (TE) cell number. Additionally, we found that IL6 activated signal transducer and activator of transcription 3 (STAT3) specifically within ICM cells. LIF, however, did not affect ICM cell number or activate STAT3 in ICM cells, and was not pursued further. This increase in ICM cell number by IL6 was largely comprised of hypoblast (GATA6+:NANOG-) cells, and most IL6-responsive cells in day 9 blastocysts were hypoblast cells (as measured by STAT3 activation). However, some epiblast (NANOG+) cells were also IL6-responsive, and IL6 appeared to initially slow epiblast differentiation. Finally, IL6-treated blastocysts also had increased transcripts of hypoblast/primitive endoderm (PE) markers. These results indicate that IL6 may improve pregnancy retention of IVP embryos by improving yolk sac development, but further work is needed to confirm this theory. Activation of STAT3 by IL6 could be blocked with a chemical Janus kinase 2 (JAK2) inhibitor (AZD1480). JAK2 inhibition from day 5 to 8 resulted in blastocyst ICMs with fewer than 10% the normal cell number, regardless of IL6 supplementation. This indicates that STAT3 is critical for bovine ICM development. Further analysis revealed that inhibition of JAK2/STAT did not prevent ICM formation but disrupted its maintenance. Additionally, we assessed the suitability of zinc sulfate and a bovine embryonic stem cell culture media (TeSR) for improving bovine embryo development in vitro. Zinc sulfate increased day 8 blastocyst total and ICM cell number. Therefore, zinc sulfate appears to improve blastocyst quality. The TeSR medium improved embryo development beyond day 8. In normal synthetic oviduct fluid, blastocysts degenerated after day 8, while blastocysts moved to TeSR had greatly increased cell numbers, and even exhibited PE migration out from the ICM, a phenomenon that has not been reported in vitro. This indicates that extended blastocyst culture is possible with TeSR media. / Doctor of Philosophy / Bovine embryos have been produced in vitro for the purpose of being transferred to recipient cattle to produce a calf since the 1980s. This practice allows cattle breeders to increase the number of offspring from their best females each year, and also allows for more rapid progress in generational genetic improvement. However, only approximately 10% of bovine oocytes survive and produce a calf. This poor efficiency of bovine in vitro embryo production negatively impacts the procedure's widespread use. A significant portion of these embryo losses are likely a result of inadequate in vitro culture conditions, particularly of the embryo culture media, the fluid in which embryos are grown. This media is often called "synthetic oviduct fluid," or SOF, because it is designed to mimic the fluid present in the cow's oviduct, where the embryo would normally reside. However, SOF is much simpler in nature than actual cow oviduct fluid, and this leads to reduced embryonic survival of in vitro produced embryos. Unfortunately, we know very little of what molecules control and promote bovine embryo development. Therefore, one major goal of bovine embryo research is to identify these factors and add them to SOF. The goal of this work was to examine the ability of three molecules, interleukin-6 (IL6), leukemia inhibitory factor (LIF), and zinc sulfate, to increase the number and quality of blastocysts produced through in vitro culture techniques. Additionally, I tested the replacement of SOF with a complex cell culture media, known as TeSR. This medium is more complex than SOF, and therefore should better promote embryo development. This work revealed that IL6, but not LIF, improves in vitro produced (IVP) bovine blastocyst quality. Unfortunately, neither IL6 nor LIF affected the percentage of embryos which survived to the blastocyst stage. However, IL6, but not LIF, increased the number of cells in the inner cell mass (ICM) of the blastocysts. ICM cells are the portion of the embryo which will produce the future calf. IVP bovine embryos are known to have fewer cells than normal, in vivo derived, blastocysts, and this issue is believed to cause some embryonic death after embryo transfer. Therefore, treatment with IL6 may increase the percentage of embryos which will survive after transfer and produce a calf. We also found the addition of zinc sulfate to SOF to benefit embryo quality. None of the concentrations of zinc significantly improved the percentage of embryos which survived to the blastocyst stage, but 2 µM zinc did increase ICM cell number. Like IL6, this may improve embryo survival after transfer. The use of the TeSR media as a replacement for SOF had some benefits. Unfortunately, this media is unusable for producing embryos for transfer to recipients, as we discovered early embryos could not survive in the media. However, blastocyst-stage embryos thrived in it, and could be cultured in vitro for a longer period of time as a result. Therefore, this media will be a useful tool for studying bovine embryo development in vitro, however it is unlikely to benefit calf production. In summary, this work provides evidence that zinc sulfate and IL6 are beneficial additions to SOF. However, future work is needed to determine if embryos produced with these factors are more able to produce a calf. Additionally, we discovered that TeSR is a superior extended blastocyst culture medium. Interleukin-6 STAT3 Leukemia Inhibitory Factor Inner Cell Mass Zinc

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