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71	The Combined Effects Of Genistein And Daidzein On Adipocyte Differentiation Kone, Oumou Habybat 29 August 2014 (has links) (PDF) Dietary soy isoflavones have been shown to ameliorate insulin resistance and Type 2 diabetes. However, many in vitro studies used supra-physiological concentrations of individual isoflavones that make it difficult to interpret the results as potential mechanisms in vivo. Since the insulin-sensitizing effects of thiazolidinediones, anti-diabetic drugs, have been shown to be mediated through activation of peroxisome proliferators-activated receptor gamma (PPARγ), the key transcription factor for adipocyte differentiation, we examined the effects of the two main soy isoflavones genistein and daidzein either as individual compound or combined on adipocyte differentiation and PPARγ expression, as well as whether the Wnt/β-catenin signaling pathway is the underlying molecular mechanism. In 3T3-L1 cells, genistein and daidzein significantly enhanced adipocyte differentiation. Similarly the expression of PPARγ increased particularly at 20 µmol/L. The stimulatory effect is greater when the two isoflavones are combined, indicating a synergistic effect. Genistein and daidzein also increased the relative abundance of insulin-responsive glucose transporter 4 (GLUT4) mRNA with a greater effect when combined. Wnt10b expression was not affected by soy isoflavones treatments, while Wnt5b expression was only increased by the combination of genistein and daidzein. Our results suggest, that the combination of soy isoflavones has a greater effect in increasing the newly formation of adipocytes that are highly insulin-sensitive via an increase in PPARγ expression as well as increasing the expression of GLUT4. However, genistein and daidzein actions on Wnt signaling remain unclear. These data further support the epidemiological findings for the beneficial effect of soy consumption on insulin sensitivity. Type 2 Diabetes Soy isoflavones Genistein and Daidzein Adipocyte differentiation
72	Mechanism of genistein in the regulation of pancreatic beta-cell proliferation Zhang, Wen 07 December 2007 (has links) This study was designed to examine the effect of genistein, a botanical derived primarily from legumes, on pancreatic Î²-cell proliferation and the related molecular mechanisms. Diabetes mellitus is a major and growing public health problem worldwide. Both in type 1 (T1D) and type 2 diabetes (T2D), the deterioration of glycemic control over time is primarily caused by an inadequate mass and progressive dysfunction of Î²-cells. Therefore, the search for novel, safe and cost-effective agents that can enhance islet Î²-cell proliferation, thereby preserving Î²-cell mass, could be one of the essential strategies to prevent diabetes, given that Î²-cells have the potential to regenerate by proliferation of pre-existing b-cells in both physiological condition and after onset of diabetes. Genistein has various biological actions. However, studies on whether genistein has an effect on pancreatic Î²-cell function are very limited. Our laboratory recently found that genistein activates cAMP/protein kinase A (PKA) signaling in both clonal Î²-cells and mouse islets. Here I present evidence that genistein induced cellular proliferation of clonal rat pancreatic Î²-cells (INS1) and human islets following 24 h of incubation. This effect was dose-dependent with 5 ÂµM genistein inducing a maximal 41% increase. The effect of genistein on cell proliferation was not dependent on estrogen receptors because this effect was not blocked by the estrogen receptor inhibitor ICI182,780. In addition, the genistein effect on Î²-cell proliferation was not shared by 17-Î²-estradiol or a host of structurally related flavonoid compounds, suggesting that this genistein action is structure-specific. Pharmacological or molecular intervention of PKA or MEK1/2, the upstream kinase of p42/44 mitogen activated protein kinases (ERK1/2), completely abolished the genistein-stimulated proliferation of INS1 cells and human islets, suggesting that both molecules are essential for genistein action. Consistent with its effect on cell proliferation, genistein increased intracellular cAMP and subsequently activated PKA in human islets. Genistein also caused a rapid and sustained phosphorylation of ERK1/2 with a maximal increase of 185% at 5 ÂµM genistein. The genistein-induced ERK1/2 activation was completely ablated by inhibition of PKA in INS1 cells and human islets. Furthermore, I found that genistein induced protein expression of cyclin D1, a nuclear target of PKA and ERK1/2 activation and a major cell-cycle regulator essential for ï ¢-cell growth. These findings demonstrated that genistein may be a plant-derived growth factor for pancreatic Î²-cells involving induction of cyclin D1 via activation of the cAMP/PKA-dependent ERK1/2 signaling pathway, thereby providing a novel role for genistein in the regulation of pancreatic Î²-cell function. / Master of Science ERK1/2 protein kinase A islets cAMP cell proliferation pancreatic β-cell Genistein
73	Oestrogenic compounds and oxidative stress (in human sperm and lymphocytes in the Comet assay) Anderson, Diana, Baumgartner, Adolf, Brinkworth, Martin H., Schmid, Thomas E., Cemeli, Eduardo, Wood, John M. January 2003 (has links) No / Reactive oxygen species (ROS) are produced by a wide variety of chemicals and physiological processes in which enzymes catalyse the transfer of electrons from a substrate to molecular oxygen. The immediate products of such reactions, superoxide anion radicals and hydrogen peroxide can be metabolised by enzymes such as superoxide dismutase (SOD) and catalase (CAT), respectively, and depending on its concentration by Vitamin C (Vit C). Under certain circumstances the ROS form highly reactive hydroxyl radicals. We examined human sperm and lymphocytes after treatment with six oestrogenic compounds in the Comet assay, which measures DNA damage, and observed that all caused damage in both cell types. The damage was diminished in nearly all cases by catalase, and in some instances by SOD and Vit C. This response pattern was also seen with hydrogen peroxide. This similarity suggests that the oestrogen-mediated effects could be acting via the production of hydrogen peroxide since catalase always markedly reduced the response. The variable responses with SOD indicate a lesser involvement of superoxide anion radicals due to SOD-mediated conversion of superoxide to hydrogen peroxide generally causing a lower level of DNA damage than other ROS. The variable Vit C responses are explained by a reduction of hydrogen peroxide at low Vit C concentrations and a pro-oxidant activity at higher concentrations. Together these data provide evidence that inappropriate exposure to oestrogenic compounds could lead to free-radical mediated damage. It is believed that the observed activities were not generated by cell free cell culture conditions because increased responses were observed over and above control values when the compounds were added, and also increasing dose¿response relationships have been found after treatment with such oestrogenic compounds in previously reported studies. Oestrogenic compounds Equol Genistein Daidstein Diethylstilboestrol ß-Oestradiol Nonylphenyl Hydrogen peroxide Oxidative stress
74	Die Wirkung von Genistein und Equol in Kombination mit Vibrationstraining auf Knochenparameter der orchidektomierten Ratte während einer Knochendefektheilung / The effect of Genistein and Equol combined with vibration therapy on bone parameters during the bone healing of an orchiectomized rat Henze, Sara 16 March 2016 (has links) No description available. 610 Osteoporose beim Mann Phytohormone Genistein Equol Knochendefektheilung Trepanation Ganzkörpervibration Osteoporosis Phytohormones Whole body vibration fracture healing Genistein Equol Trepanation Medizin (PPN619874732) Orthopädie (PPN619876204)
75	Einflüsse von 17β-Östradiol, ER-subtypspezifischen Agonisten und Phytoöstrogenen auf inflammatorische Prozesse im Kolon Seibel, Jan 28 August 2007 (has links) (PDF) Die niedrige Inzidenz chronisch-entzündlicher Darmerkrankungen (CED) in ostasiatischen Ländern im Vergleich zu Westeuropa und den USA könnte auf unterschiedliche Lebensstile und Ernährungsgewohnheiten zurückzuführen sein. Asiaten nehmen mit der Nahrung viel höhere Mengen an Isoflavonen zu sich als Europäer und US-Amerikaner. Diese sind in der Lage, wie natürliche Östrogene an Östrogenrezeptoren (ER) zu binden. Für das Östrogen 17β-Östradiol (E2) sowie selektive Liganden des ERβ sind antiinflammatorische Wirkungen im Darm bereits nachgewiesen worden. Diese Arbeit untersuchte in Modellsystemen für CED die antiinflammatorischen Eigenschaften von Isoflavonen, speziell von Genistein, und stellte einen Vergleich mit synthetischen ER-selektiven Liganden sowie E2 her, um die Involvierung der beiden ER-Subtypen zu evaluieren. In tierexperimentellen Studien wurde der Einfluss der Testsubstanzen auf Ausprägung und Verlauf einer Kolitis in zwei Nagermodellen (HLA-B27 transgene Ratte und TNBS-induzierte Kolitis) analysiert. Ein Ernährungsexperiment, in dem eine Gruppe der Tiere bereits in utero sowie postnatal über Muttermilch und Futter hohen Phytoöstrogenspiegeln ausgesetzt war, zeigte wider Erwarten keine antiinflammatorischen Effekte auf die akute Ausprägung der induzierten Kolitis. Stattdessen waren die untersuchten Parameter bei dieser Ernährungsform gegenüber prä- und postnatal normal ernährten Tieren verstärkt. Dagegen bewirkte oral verabreichtes Genistein in der chronischen Phase der TNBS-induzierten Kolitis eine Unterdrückung der Entzündungsparameter im Darm. Die subkutane Verabreichung von Genistein, eines steroidalen ERβ-selektiven Agonisten, oder von E2 führte hingegen zu keiner signifikanten Einflussnahme auf die untersuchten Parameter in der akuten Phase der Inflammation. Zur Charakterisierung der molekularen Grundlagen einer antiinflammatorischen Wirkung von E2, synthetischen ER-selektiven Agonisten und Genistein wurden in vitro Studien mit Kolonkarzinomzelllinien (HT-29 und Caco-2) durchgeführt. Hierzu wurden die Zellen mit Interleukin-1β (IL-1β) stimuliert, was eine Induktion der inflammationsassoziierten Gene Cyclooxygenase-2 und Interleukin-6 auf mRNA Ebene bewirkte. Bis auf Genistein konnten für die getesteten Substanzen keine antiinflammatorischen Effekte auf die mRNA-Expression der induzierten Markergene beobachtet werden. Genistein bewirkte in Caco-2 Zellen eine Hemmung der untersuchten Gene. Weitere Analysen ergaben, dass die beiden Zelllinien ER nur schwach bzw. gar nicht exprimieren. Eine Transfektion von HT-29 Zellen mit ERα führte zu einer deutlichen Hemmung der Expression der Markergene durch E2, während eine Transfektion mit ERβ lediglich einen schwach hemmenden Effekt bewirkte. Die Ergebnisse der vorliegenden Arbeit legen nahe, dass die niedrigen CED-Inzidenzraten in Ostasien wohl nicht allein auf dem dortigen hohen Isoflavonkonsum beruhen, sondern auch anderen Komponenten des Lebensstils zuzuschreiben sind. Dennoch deutet sich an, dass das Genistein, bei oraler Administration, die Regeneration des geschädigten Darmgewebes im chronischen Erkrankungsverlauf unterstützen und damit auch zur Prävention von Kolonkarzinomen beitragen könnte. Bei antiinflammatorischen Effekten von ER-Liganden spielt die Transaktivierung von ER eine entscheidende Rolle. Die Wirkung von Genistein in untransfizierten Caco-2 Zellen legt jedoch auch die Teilnahme weiterer Mechanismen nahe, die noch zu untersuchen sind. Vor diesem Hintergrund erscheinen weiterführende Untersuchungen zum Einsatz von steroidalen ER-Agonisten und Genistein bei CED und den zugrunde liegenden Mechanismen als sinnvoll. Entzündung Kolitis Östrogenrezeptor Phytoöstrogene Genistein Darm CED TNBS HLA-B27 HT-29 Caco-2 Kolon ER-Agonisten inflammation Colitis Estrogen receptor phytoestrogens genistein intestinal tract IBD TNBS HLA-B27 HT-29 Caco-2 colon ER agonists ddc:570 rvk:WD 5085
76	Die therapeutischen Effekte von Estradiol, Dihydrotestosteron, Genistein und Equol auf den osteoporotischen Knochen der orchidektomierten männlichen Sprague-Dawley-Ratte / Therapeutic effects of estradiol, dihydrotestosterone, genistein and equol on osteoporotic bone of orchidectomized male Sprague Dawley rat Vorwerk, Elena 08 December 2010 (has links) No description available. 610 Medizin, Gesundheit Medicine Osteoporose Mann Sprague-Dawley-Ratte Isofalvone Phytohormone Genistein Equol Metaphyse Tibia QCT osteoporosis male sprague-dawley rat isoflavones phytohormones genistein equol metaphysis of tibia qCT 44.89 44.83 44.77 MED 419: Endokrinologie
77	Einfluss von Estradiol, Genistein, Equol und Resveratrol auf verschiedene östrogensensitive Organe und Parameter der ovariektomierten Maus / Influence of Estradiol, Genistein, Equol and Resveratrol on different estrogen-sensitive organs and parameters in the ovarectomized mouse Mählmeyer, Sandra 02 February 2011 (has links) No description available. 610 Medizin, Gesundheit Medicine Estradiol Genistein Resveratrol Equol Postmenopause Ovariektomie Hormonersatztherapie Phytohormone Mausmodell Osteoporose Estrogenrezeptor alpha/beta Estradiol Genistein Equol Resveratrol Postmenopause Ovarectomy Hormone replacement therapy Phytohormones mice model osteoporosis estrogen receptor alpha/beta 44.89 MED 419: Endokrinologie
78	Einfluss eines 30-Hz-Vibrationstrainings in Kombination mit verschiedenen Isoflavonen auf die proximale Tibiametaphyse der ovarektomierten Ratte / Effects of a 30 Hz whole-body vibration training in combination with various isoflavones on the proximal metaphysis of the ovariectomized rat tibia Sandmann, Fabian 08 November 2011 (has links) No description available. 610 Medizin, Gesundheit Medicine Vibration Vibrationstraining Knochenadaptation mechanische Belastung Isoflavone Equol Genistein Puerarin vibration whole body vibration bone adaptation mechanical loading isoflavones equol genistein puerarin 44.83 44.89 MED 419: Endokrinologie MED 490: Orthopädie MED 500: Sportmedizin
79	Die Wirkung von Sexual- und Phytohormonen auf das Remodelling des osteoporotischen Knochens der orchiektomierten Ratte nach Trepanation und Vibration / The influence of sexual and phytohormones on remodelling of the osteoporotic bone of male rat after trepanation and whole-body-vibration. Thole, Sonja Wilma 26 March 2014 (has links) No description available. 610 dihydrotestosteron Equol Osteoporose Ganz-Körper-Vibration Genistein Östrogen Trepanation estrogen osteoporosis dihydrotestosteron whole-body-vibration genistein equol trepanation
80	FOXO3a em leiomioma e leiomiossarcoma uterinos: avaliação de seu potencial para terapia alvo in vitro / FOXO3a in uterine leiomyoma and leiomyosarcoma: evaluation of its potential for targeted therapy in vitro Ricci, Anamaria Ritti 11 December 2018 (has links) Os tumores de musculatura liso do útero se desenvolvem a partir do miométrio e podem apresentar carcterísticas clínicas malignas e benignas. Dentre eles, o leiomiossarcoma (LMS) é o tumor maligno mais comum, com altas taxas de metástase e recidiva, mesmo sendo diagnosticado em estágios iniciais. Já os leiomiomas (LM) são os tumores benignos mais frequentes em mulheres em idade reprodutiva. Ambos possuem mesma diferenciação celular, porém com comportamentos clínico e biológico bastante distintos, e até o momento não se dispõe de tratamento específico ou curativo. Nesse contexto, a busca por novos alvos moleculares pode contribuir não só para um melhor entendimento dessas neoplasias, como também para a descoberta de novas terapias. Em estudo prévio foi observada a expressão aumentada de FOXO3a nos sarcomas uterinos, em comparação aos LMs e ao miométrio adjacente (MM). Além disso, sua expressão foi crescente de acordo com o potencial de malignidade do tumor. Assim, o objetivo do presente estudo foi avaliar in vitro o efeito de terapia alvo específica para FOXO3a em células de LM e LMS. Para isto, linhagens celulares de MM (ATCC PCS-460-011), LM (THESCs - CRL-4003) e LMS (SK-UT-1 - HTB-114) foram caracterizadas quanto à expressão basal de FOXO3a (gene e proteína) e submetidas a tratamento com Genisteína e Metformina ou inativação do gene por siRNA. Os efeitos dos tratamentos foram avaliados por PCR em tempo real, Western Blot, imunocitoquímica, ensaios de proliferação, migração e apoptose. Nossos resultados mostraram que todos os tratamentos realizados interferiram na capacidade de proliferação e migração das células, com maior inibição após as 48 horas nos LMS e 72h nos LM. O efeito obtido na transfecção com siRNA apresentou maior eficiência após 48 h da transfecção nos LMS e 72h nos LM. Os efeitos da inibição de FOXO3a foram maiores na proliferação e migração dos LM, porém os resultados não foram estatisticamente significativos. Dentre as substâncias testadas, a Metformina apresentou maior efeito sobre a proliferação, migração e viabilidade das linhagens celulares. A Genisteína também apresentou efeito inibitório nas células, porém o controle com veículo também apresentou o mesmo efeito citotóxico. De modo geral, os efeitos obtidos com os fármacos, foram tempo e concentração dependentes. Em conjunto, nossos resultados sugerem um relevante do FOXO3a nos tumores de musculatura lisa uterinos, além de apresentá-lo como potencial alvo para terapia específica / Smooth muscle tumors of the uterus develop from the myometrium and may present benign and malignant clinical features. Among them, leiomyosarcoma (LMS) is the most frequent malignant tumor, with high rates of metastasis and relapse, even when diagnosed in early stages. On the other hand, leiomyomas (LM) are the most frequent benign tumors in women of reproductive age. Both have the same cellular differentiation, but with very different clinical and biological behaviors, and so far no specific or curative treatment is available. In this context, the search for new molecular targets can contribute not only for a better understanding of these neoplasms, but also for the discovery of new therapies. In a previous study, increased expression of FOXO3a in uterine sarcomas was observed, compared to LMs and adjacent myometrium (MM). In addition, its expression was increasing according to the malignancy potential of the tumor. Thus, the aim of the present study was to evaluate in vitro, the effect of specific targeted therapy for FOXO3a on LM and LMS cells. For this, MM (ATCC PCS-460-011), LM (THESCs-CRL-4003) and LMS (SK-UT-1-HTB-114) cell lines were characterized for basal expression of FOXO3a (gene and protein) and subsequently submitted to treatment with metformin and genistein, or silencing of FOXO3a by siRNA. The effects of the treatments were evaluated by real-time PCR, Western Blot, immunocytochemistry, proliferation, migration and apoptosis assays. Our results showed that all treatments interfered in the proliferation and migration capacity of the cells, with greater inhibition after 48 hours for LMS and 72 hours LM. The effect obtained in the transfection with siRNA showed higher efficiency after 48 hours of transfection in LMS and 72 hours in LM. The effects of inhibition of FOXO3a were greater in the proliferation and migration of the LM, but the results were not statistically significant. Among the substances tested, Metformin had a greater effect on proliferation, migration and viability of the cell lines. Genistein also had an inhibitory effect on the cells, but the control with the vehicle also presented the same cytotoxic effect. In general, the effects obtained with the drugs were time and concentration dependent. Together, our results suggest a relevant role of FOXO3a in uterine smooth muscle tumors, in addition to presenting it as a potential target for specific therapy Forkehead box protein O3 Genistein Genisteína Leiomioma Leiomiossarcoma Leiomyoma Leiomyosarcoma Metformin Metformina Proteína forkhead box O3 Targeted therapy Terapia alvo

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