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MK2 and ETV1 Are Prognostic Factors in Esophageal AdenocarcinomasJomrich, Gerd, Maroske, Florian, Stieger, Jasmin, Preusser, Matthias, Ilhan-Mutlu, Aysegül, Winkler, Daniel, Kristo, Ivan, Paireder, Matthias, Schoppmann, Sebastian Friedrich January 2018 (has links) (PDF)
Background. Esophageal cancer is ranked in the top ten of diagnosed tumors worldwide. Even though
improvements in survival could be noticed over the last years, prognosis remains poor. ETS
translocation variant 1 (ETV1) is a member of a family of transcription factors and is phosphorylated
by mitogen-activated protein kinase (MAPK)-activated protein kinase 2 (MK2). Aim of this study was
to evaluate the prognostic role of MK2 and ETV1 in esophageal cancer.
Methods. Consecutive patients that underwent surgical resection at the department of surgery at the
Medical University of Vienna between 1991 and 2012 were included into this study. After
microscopic analysis, tissue micro arrays (TMAs) were created and immunohistochemistry was
performed with antibodies against MK2 and ETV1.
Results. 323 patients were included in this study. Clinical data was achieved from a prospective
patient data base. Nuclear overexpression of MK2 was observed in 143 (44.3%) cases for nuclear
staining and in 142 (44.0%) cases a cytoplasmic overexpression of MK2 was observed. Nuclear and
cytoplasmic ETV1 overexpression was detected in 20 cases (6.2%) and 30 cases (9.3%), respectively.
In univariate survival analysis, cMK2 and nETV1 were found to be significantly associated with
patients' overall survival. Whereas overexpression of cMK2 was associated with shorter, nETV1
was associated with longer overall survival. In multivariate survival analysis, both cMK2 and nETV1
were found to be independent prognostic factors for the subgroup of EAC as well.
Discussion. Expression of MK2 and ETV1 are prognostic factors in patients, with esophageal
adenocarcinoma.
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Rôle des Sérine/Thréonine Kinases dans la cellule bêta pancréatique / Serine/Threonine kinases role in pancreatic beta cellTenenbaum, Mathie 14 September 2018 (has links)
En modulant en permanence une production d’insuline adaptée au besoin de l’organisme, la cellule béta pancréatique joue un rôle crucial dans l’homéostasie glucidique. L’adaptation de cette production d’insuline est l’opération d’une machinerie cellulaire responsable de la production de l’insuline hautement adaptative et d’une augmentation de la masse des cellules bêta-pancréatiques. Cette plasticité des cellules béta est particulièrement critique dans des périodes de modifications de la physiologie de l’organisme, telles que la prise de poids, la grossesse ou le développement du nouveau-né jusqu’au sevrage. Une perte de la fonctionnalité et de la masse des cellules béta sont à l’origine du diabète, une des causes principales de mortalité dans le monde.Chez les vertébrés, les sérine-thréonine kinases (STKs) dirigent des voies de signalisation importantes permettant aux cellules de répondre à l’environnement. L’objectif de ma thèse a été d’identifier les voies de signalisation responsables du développement de la masse de cellules bêta à la naissance, au cours de la grossesse et de l’obésité, afin de mieux comprendre le dysfonctionnement et la perte de la masse des cellules béta induite par l’environnement diabétogène (ex : LDL-oxydées, hyperglycémie, hyperlipidémie,..) du patient diabétique. En étudiant la plasticité des cellules béta des rats nouveau-nés, nous avons découvert une élévation importante de l’expression de la protéine Dual Leucine Zipper Kinase (DLK) dans les îlots des rats nouveau-nés de 10 jours lorsqu’ils sont comparés aux îlots des rats adultes. Dans les îlots des ratons, l’augmentation de l’expression de DLK coïncide avec une très forte prolifération des cellules béta et l’activation de la signalisation «cJun-amino terminal Kinase 3» (JNK3), une STK de la famille des «mitogen activated protein kinase» (MAPKs). Comme observé pour DLK, dans les îlots des ratons, l’invalidation de JNK3, réduit considérablement le nombre de cellules sécrétrices de l’insuline. Nous avons aussi observé que les MAPKs sont directement impliquées dans la mort des cellules béta induite par des LDL-oxydées via un mécanisme cellulaire impliquant le stress du réticulum endoplasmique et le stress oxydant. Nos résultats montrent l’importance de la signalisation des MAPKs dans le contrôle de la survie et de la prolifération des cellules béta et de son implication dans le diabète. / Pancreatic beta cell constantly tunes insulin production to meet the body needs. The insulin production adaptation is achieved thanks to highly adaptive beta cell metabolism, signaling, secretory machinery and mass. The beta-cell function and mass plasticity are particularly critical during nutritional, body growth and physiological changes such as obesity, pregnancy and postnatal development of newborn. Functional beta cell demise account for diabetes is one of the leading causes of death worldwide.In vertebrates, serine-threonine kinases (STKs) drive key signaling pathways for adaptive cells response to the environment. The overall goal of the thesis was to identify the signaling pathways responsible for the development of beta cell mass during postnatal development, pregnancy and obesity. Identification of these signaling pathways may help in understanding the functional beta cell mass demise induced by the diabetogenic environment (e.g oxidized LDL, hyperglycemia, hyperlipidemia, etc.) in diabetic patients. By investigating beta cell mass plasticity in 10 day old neonate rats, we found a significant increase in the expression of Dual Leucine Zipper Kinase (DLK) protein when compared to islets from adult rats. In islets of pups, the increase of DLK expression coincides with a very high proliferative rate of beta cells and activation of "cJun-amino terminal Kinase 3" (JNK3) signaling, an STK belonging to “mitogen activated protein kinase” (MAPKs) family. As observed for DLK, in islets of rat pups, the genetic disruption of JNK3 drastically reduces the number of beta cells leading to glucose intolerance. Finally, we also observed that MAPKs link oxidized LDL to beta cell death via mechanisms involving endoplasmic reticulum stress and oxidative stress. Our results show the critical importance of MAPK signaling in controlling beta cell survival and proliferation in response to physiological condition and diabetes.
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Organelle movement in melanophores: Effects of <em>Panax ginseng</em>, ginsenosides and quercetinEriksson, Therese January 2009 (has links)
<p><em>Panax ginseng</em> is a traditional herb that has been used for over 2000 years to promote health and longevity. Active components of ginseng include ginsenosides, polysaccharides, flavonoids, polyacetylenes, peptides, vitamins, phenols and enzymes, of which the ginsenosides are considered to be the major bioactive constituents. Although widely used, the exact mechanisms of ginseng and its compounds remain unclear. In this thesis we use melanophores from <em>Xenopus laevis</em> to investigate the effects of <em>Panax ginseng</em> extract G115 and its constituents on organelle transport and signalling. Due to coordinated bidirectional movement of their pigmented granules (melanosomes), in response to defined chemical signals, melanophores are capable of fast colour changes and provide a great model for the study of intracellular transport. The movement is regulated by alterations in cyclic adenosine 3’:5’-monophosphate (cAMP) concentration, where a high or low level induce anterograde (dispersion) or retrograde (aggregation) transport respectively, resulting in a dark or light cell. Here we demonstrate that <em>Panax ginseng</em> and its constituents ginsenoside Rc and Rd and flavonoid quercetin induce a concentration-dependent anterograde transport of melanosomes. The effect of ginseng is shown to be independent of cAMP changes and protein kinase A activation. Upon incubation of melanophores with a combination of Rc or Rd and quercetin, a synergistic increase in anterograde movement was seen, indicating cooperation between the ginsenoside and flavonoid parts of ginseng. Protein kinase C (PKC) inhibitor Myristoylated EGF-R Fragment 651-658 decreased the anterograde movement stimulated by ginseng and ginsenoside Rc and Rd. Moreover, ginseng, but not ginsenosides or quercetin, stimulated an activation of 44/42-mitogen activated protein kinase (MAPK), previously shown to be involved in both aggregation and dispersion of melanosomes. PKC-inhibition did not affect the MAPK-activation, suggesting a role for PKC in the ginseng- and ginsenoside-induced dispersion but not as an upstream activator of MAPK.</p> / <p><em>Panax ginseng </em>är ett av de vanligaste naturläkemedlen i världen och används traditionellt för att öka kroppens uthållighet, motståndskraft och styrka. Ginseng är ett komplext ämne bestående av ett antal olika substanser, inklusive ginsenosider, flavonoider, vitaminer och enzymer, av vilka de steroidlika ginsenosiderna anses vara de mest aktiva beståndsdelarna. Flavonoider (som finns i till exempel frukt och grönsaker) och ginseng har genom forskning visat sig motverka bland annat hjärt-och kärlsjukdomar, diabetes, cancer och demens. Trots den omfattande användningen är dock mekanismen för hur ginseng verkar fortfarande oklar. I den här studien har vi använt pigmentinnehållande celler, melanoforer, från afrikansk klogroda för att undersöka effekterna av <em>Panax ginseng</em> på pigment-transport och dess maskineri. Melanoforer har förmågan att snabbt ändra färg genom samordnad förflyttning av pigmentkorn fram och tillbaka i cellen, och utgör en utmärkt modell för studier av intracellulär transport. Förflyttningen regleras av förändringar i halten av cykliskt adenosin-monofosfat (cAMP) i cellen, där en hög eller låg koncentration medför spridning av pigment över hela cellen (dispergering) eller en ansamling i mitten (aggregering), vilket resulterar i mörka respektive ljusa celler. Här visar vi att <em>Panax ginseng</em>, ginsenosiderna Rc och Rd samt flavonoiden quercetin stimulerar en dispergering av pigmentkornen. När melanoforerna inkuberades med en kombination av ginsenosid Rc eller Rd och quercetin, kunde en synergistisk ökning av dispergeringen ses, vilket tyder på en samverkan mellan ginsenosid- och flavonoid-delarna av ginseng. Ett protein som tidigare visats vara viktigt för pigmenttransporten är mitogen-aktiverat protein kinas (MAPK), och här visar vi att också melanoforer stimulerade med ginseng, men dock inte med ginsenosider eller quercetin, innehåller aktiverat MAPK. Genom att blockera enzymet protein kinas C (PKC) (känd aktivator av dispergering), minskade den ginseng- och ginsenosid-inducerade dispergeringen, medan aktiveringen av MAPK inte påverkades alls. Detta pekar på en roll för PKC i pigment-transporten men inte som en aktivator av MAPK.</p>
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Organelle movement in melanophores: Effects of Panax ginseng, ginsenosides and quercetinEriksson, Therese January 2009 (has links)
Panax ginseng is a traditional herb that has been used for over 2000 years to promote health and longevity. Active components of ginseng include ginsenosides, polysaccharides, flavonoids, polyacetylenes, peptides, vitamins, phenols and enzymes, of which the ginsenosides are considered to be the major bioactive constituents. Although widely used, the exact mechanisms of ginseng and its compounds remain unclear. In this thesis we use melanophores from Xenopus laevis to investigate the effects of Panax ginseng extract G115 and its constituents on organelle transport and signalling. Due to coordinated bidirectional movement of their pigmented granules (melanosomes), in response to defined chemical signals, melanophores are capable of fast colour changes and provide a great model for the study of intracellular transport. The movement is regulated by alterations in cyclic adenosine 3’:5’-monophosphate (cAMP) concentration, where a high or low level induce anterograde (dispersion) or retrograde (aggregation) transport respectively, resulting in a dark or light cell. Here we demonstrate that Panax ginseng and its constituents ginsenoside Rc and Rd and flavonoid quercetin induce a concentration-dependent anterograde transport of melanosomes. The effect of ginseng is shown to be independent of cAMP changes and protein kinase A activation. Upon incubation of melanophores with a combination of Rc or Rd and quercetin, a synergistic increase in anterograde movement was seen, indicating cooperation between the ginsenoside and flavonoid parts of ginseng. Protein kinase C (PKC) inhibitor Myristoylated EGF-R Fragment 651-658 decreased the anterograde movement stimulated by ginseng and ginsenoside Rc and Rd. Moreover, ginseng, but not ginsenosides or quercetin, stimulated an activation of 44/42-mitogen activated protein kinase (MAPK), previously shown to be involved in both aggregation and dispersion of melanosomes. PKC-inhibition did not affect the MAPK-activation, suggesting a role for PKC in the ginseng- and ginsenoside-induced dispersion but not as an upstream activator of MAPK. / Panax ginseng är ett av de vanligaste naturläkemedlen i världen och används traditionellt för att öka kroppens uthållighet, motståndskraft och styrka. Ginseng är ett komplext ämne bestående av ett antal olika substanser, inklusive ginsenosider, flavonoider, vitaminer och enzymer, av vilka de steroidlika ginsenosiderna anses vara de mest aktiva beståndsdelarna. Flavonoider (som finns i till exempel frukt och grönsaker) och ginseng har genom forskning visat sig motverka bland annat hjärt-och kärlsjukdomar, diabetes, cancer och demens. Trots den omfattande användningen är dock mekanismen för hur ginseng verkar fortfarande oklar. I den här studien har vi använt pigmentinnehållande celler, melanoforer, från afrikansk klogroda för att undersöka effekterna av Panax ginseng på pigment-transport och dess maskineri. Melanoforer har förmågan att snabbt ändra färg genom samordnad förflyttning av pigmentkorn fram och tillbaka i cellen, och utgör en utmärkt modell för studier av intracellulär transport. Förflyttningen regleras av förändringar i halten av cykliskt adenosin-monofosfat (cAMP) i cellen, där en hög eller låg koncentration medför spridning av pigment över hela cellen (dispergering) eller en ansamling i mitten (aggregering), vilket resulterar i mörka respektive ljusa celler. Här visar vi att Panax ginseng, ginsenosiderna Rc och Rd samt flavonoiden quercetin stimulerar en dispergering av pigmentkornen. När melanoforerna inkuberades med en kombination av ginsenosid Rc eller Rd och quercetin, kunde en synergistisk ökning av dispergeringen ses, vilket tyder på en samverkan mellan ginsenosid- och flavonoid-delarna av ginseng. Ett protein som tidigare visats vara viktigt för pigmenttransporten är mitogen-aktiverat protein kinas (MAPK), och här visar vi att också melanoforer stimulerade med ginseng, men dock inte med ginsenosider eller quercetin, innehåller aktiverat MAPK. Genom att blockera enzymet protein kinas C (PKC) (känd aktivator av dispergering), minskade den ginseng- och ginsenosid-inducerade dispergeringen, medan aktiveringen av MAPK inte påverkades alls. Detta pekar på en roll för PKC i pigment-transporten men inte som en aktivator av MAPK.
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Coincident signaling of cAMP with phosphatidylinositol 3' kinase and mitogen activated protein kinase signal transduction cascades : a role in regulating gene exression during development and synaptic plasticity /Poser, Steven Walter. January 2001 (has links)
Thesis (Ph. D.)--University of Washington, 2001. / Vita. Includes bibliographical references (leaves 105-135).
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Pro- and anti-apoptotic roles of map kinase signaling in liver exposed to alcoholLee, Youn Ju, January 2003 (has links)
Thesis (Ph. D.)--University of Missouri--Columbia, 2003. / Typescript. Vita. Includes bibliographical references (leaves 172-205). Also available on the Internet.
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Neuroplasticity in olfactory sensation /Watt, William C. January 2003 (has links)
Thesis (Ph. D.)--University of Washington, 2003. / Vita. Includes bibliographical references (leaves 87-99).
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Model Medicago species for studies of low temperature signaling and cold acclimationKhalil, Hala. January 2000 (has links)
To identify a model legume experimental system for studying low temperature signaling and cold acclimation, cold-induced expression and regulation of homologues of alfalfa (Medicago sativa) cold acclimation-specific genes cas15 and cas30 were examined in M. arborea (relatively frost tolerant) and M. truncatula (relatively frost sensitive). Both cas15 and cas30 genes are present in the genomes of both species but whereas both genes are cold-induced in M. arborea, only cas15 is induced in M. truncatula. Cold-induced expression of these genes is inhibited by calcium chelators and channel blockers and by the membrane fluidizer benzyl alcohol. Treatment of leaves with dimethylsulfoxide, a membrane rigidifier, induced both genes at 25°C. A cold-activated MAP kinase activity was expressed in both species. These results suggest that M. truncatula, an annual, self-pollinated species may be successfully used as model experimental systems in studies of cold signaling and role of cas genes in cold acclimation in legumes.
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Regulation and function of BDNF-activated ERK5 and ERK1/2 MAP kinases in CNS neurons /Wang, Yupeng. January 2007 (has links)
Thesis (Ph. D.)--University of Washington, 2007. / Vita. Includes bibliographical references (leaves 95-113).
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Signaling to and from the sodium pump : effects of insulin and cardiotonic steroids /Kotova, Olga, January 2006 (has links)
Diss. (sammanfattning) Stockholm : Karol. inst., 2006. / Härtill 4 uppsatser.
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