Marcadores da imunomodulação no sangue materno e fetal e nas placentas de mães diabéticas ou com hiperglicemia gestacional leve / Markers of immunomodulation in maternal and fetal blood and placenta from diabetic or with mild gestational hyperglycemia mothers

Hara, Cristiane de Castro Pernet [UNESP]

01 December 2016

Submitted by CRISTIANE DE CASTRO PERNET HARA null (cris_hara@hotmail.com) on 2017-01-19T01:22:00Z No. of bitstreams: 1 tese Cristiane Hara (final).pdf: 5145540 bytes, checksum: 622fefbf8e4e6d0b87d3139952cc8f17 (MD5) / Approved for entry into archive by Juliano Benedito Ferreira (julianoferreira@reitoria.unesp.br) on 2017-01-24T13:45:46Z (GMT) No. of bitstreams: 1 hara_ccp_dr_bot.pdf: 5145540 bytes, checksum: 622fefbf8e4e6d0b87d3139952cc8f17 (MD5) / Made available in DSpace on 2017-01-24T13:45:46Z (GMT). No. of bitstreams: 1 hara_ccp_dr_bot.pdf: 5145540 bytes, checksum: 622fefbf8e4e6d0b87d3139952cc8f17 (MD5) Previous issue date: 2016-12-01 / Fundação de Amparo à Pesquisa do Estado de São Paulo (FAPESP) / INTRODUÇÃO - Durante a gravidez, a hiperglicemia materna altera a expressão e a transferência de células imunorregulatórias e de imunoglobulinas e o perfil de citocinas na interface materno-fetal. OBJETIVO – Avaliar, em gestações complicadas por hiperglicemia, a expressão de células NK e o perfil de citocinas no sangue, materno e do cordão umbilical, e na placenta (artigo 1); quantificar a produção de anticorpos e a passagem de IgG total, e respectivas subclasses, via receptor FcRn (artigo 2). MÉTODO - Foram avaliadas 120 gestantes, distribuídas nos grupos: não-diabético (ND; N = 30), hiperglicemia gestacional leve (HGL; N = 30), diabetes mellitus gestacional (DMG; N = 30) e diabetes mellitus tipo 2 (DM2; N = 30). Técnicas de citometria de fluxo foram utilizadas para análise de células e citocinas e, de ELISA, para avaliação das concentrações de IgG total e subclasses. A transferência placentária de anticorpos totais, e respectivas subclasses, foi definida pela relação [(concentrações no sangue de cordão umbilical/sangue materno) x 100]. Na análise estatística foram realizadas análises de variância (ANOVA), seguida pelo teste de Tukey, e de correlação de Pearson, com p < 0,05. RESULTADOS - No sangue materno dos grupos hiperglicêmicos, as células NK CD16+CD56– aumentaram, enquanto que CD16+CD56+ foi menor no grupo DMG. No sangue do cordão do grupo DM2 mostrou uma maior proporção de células CD16+CD56– e CD16–CD56+. As camadas extravilosas da placenta dos grupos DMG e DM2 mostraram maior expressão de CD16+CD56– e independente da camada, a proporção de CD16–CD56+ foi maior em HGL e DMG e menor em DM2. Em relação às citocinas, IL-2 foi menor no sangue materno e IFN-y mais elevados no sangue materno e do cordão do grupo DMG. IL-17 foi mais elevada no sangue materno e do cordão do grupo DM2. A camada extravilosa placentária da HGL mostrou níveis elevados de IL-4, IL-6, IL-10, IL-17, e IFN-γ e baixos níveis de IL-1β e IL-8, enquanto que a camada vilosa placentária continha alta níveis de IL-17 e IFN-γ. O grupo HGL, independentemente da região, apresentaram maiores níveis de IL-8. O grupo DM-2, independentemente da região da placenta mostrou níveis elevados de TNF-α, IL-17, e IFN-γ. O sangue materno de DM-2 e o sangue do cordão umbilical de HGL exibiram uma poporção mais elevada de CD19+ expressas por células B. DM2 mostrou a menor proporção de células CD19+na placenta. A expressão de FcRn aumentou nas células do cordão e placenta de HGL. As células do sangue materno, do sangue do cordão e da placenta de DM2 mostraram menor expressão de FcRn. A maior expressão de FcRn, independente do estado hiperglicêmico foi observada nas células da placenta. Houve menores níveis de IgG no sangue materno em DM2 e maiores no sangue do cordão umbilical de HGL. Os níveis mais elevados de IgG4 foi detectado no sangue de mães hiperglicêmicas. Os níveis mais elevados de IgG3 e IgG4 no sangue do cordão foram detectados em HGL, e os menores de IgG2 e IgG3 níveis em DM2. CONCLUSÃO - A hiperglicemia produz ambiente inflamatório com elevada produção de citocinas, apresentando alterações na expressão de células NK, de FcRn na placenta, na produção e taxa de transferência de IgG. Os níveis celulares que expressam CD16+ e de citocinas no sangue materno, sangue do cordão umbilical e tecido placentário são modificados em gestações complicadas pelo diabetes. A hiperglicemia materna compromete a transferência placentária de IgG1, IgG3 e IgG4. Os resultados sugerem que a hiperglicemia materna, diminui a expressão FcRn em células da placenta e sangue e compromete a produção e transferência de anticorpos maternos para os recém-nascidos. / INTRODUCTION - During pregnancy, the immune response associated with diabetes alters the expression and the transfer of immune cells, including regulatory, immunoglobulins and the profile of cytokines in the maternal-fetal interface. OBJECTIVE - To evaluate the expression of NK cells, and the profile of cytokines in maternal blood, umbilical cord and placenta, quantify the production of antibodies, as well as, the passage of IgG and subclasses, via receptors FcRn in pregnancies complicated by diabetes or hyperglycemia. METHOD - were assessed 120 pregnant women, distributed as non-diabetic (ND; n=30), Mild Gestational Hyperglycemia (MGH; n=30), Gestational Diabetes Mellitus (GDM; n=30) and type 2 Diabetes Mellitus (DM2; N=30). The cells and cytokines were evaluated by flow cytometry. The concentrations of total IgG and subclasses were analyzed by ELISA. Placental transfer of the total and subclasses antibodies were defined in each assay by the ratio [(cord concentrations/maternal concentrations) x 100]. In the statistical analysis we used analysis of variance (ANOVA), followed by Tukey test, and Pearson's linear correlation, with p < 0.05. RESULTS - In the maternal blood from the hyperglycemic groups, the CD16+CD56− NK cells increased, whereas that of CD16+CD56+ decreased in GDM group. Cord blood from DM2 showed a higher proportion of CD16+CD56− and CD16−CD56+. The placental extravillous layer of GDM and DM2 showed an increase of CD16+CD56− cells and, irrespective of region, the proportion of CD16−CD56+ cells was higher in MGH and GDM and lower in DM-2. IL-2 was lower in maternal blood and IFN-����������������������� higher in maternal and cord blood from the GDM group. IL-17 was higher in maternal and cord blood from the DM-2 group. The placental extravillous layer of the MGH showed high levels of IL-4, IL-6, IL-10, IL- 17, and IFN-����������������������� and low levels of IL-1����������������������� and IL-8, whereas the placental villous layer contained high levels of IL-17 and IFN-�����������������������. The GDM group, irrespective of region, showed higher levels of IL-8. The DM-2 group, irrespective of region, placenta showed high levels of TNF-�����������������������, IL-17, and IFN-�����������������������. Maternal blood from DM-2 and cord blood from MGH exhibited a higher proportion of CD19+ expression by B cells. DM-2 showed a lower proportion of CD19+ cells in placenta. FcRn expression increased in cells from cord blood and placenta from MGH. Maternal blood, cord blood and placenta cells from DM-2 showed lower FcRn expression. The highest FcRn expression, irrespective of glycemic status, was observed in placenta cells. Maternal blood IgG levels were lower in DM-2, and cord blood IgG levels were higher in MGH. The highest levels of IgG4 were detected in the blood of hyperglycemic mothers. The highest IgG3 and IgG4 levels in cord blood were detected in MGH, and the lowest IgG2 and IgG3 levels in DM-2. CONCLUSIONS - Hyperglycemia produces inflammatory environment with high production of cytokines, presenting changes in expression of NK cells, FcRn in the placenta, in production and rate of transfer of IgG. The levels of cells expressing CD16+ and cytokines in maternal blood, cord blood, and placental tissue are modified in pregnancies complicated by diabetes. Maternal hyperglycemia compromised placental transfer of IgG1, IgG3 and IgG4. The results suggest that regardless of hyperglycemia degree, it decreases FcRn expression in placenta and blood cells and compromises the production and transfer of antibodies from maternal blood to newborns. / FAPESP: 2012/24212-4 / FAPESP: 2013/13017-9

Hiperglicemia

Imunorreguladoras

IgG

Receptor FcRn

NK

Citocinas

Transferência placentária

Sangue materno e sangue cordão

Hyperglycemia

Immunoregulator

FcRn receptor

Cytokines

Placental transfer

Maternal blood and cord blood

Avaliação dos protocolos de diagnóstico e de controle da hiperglicemia materna impacto na prevalência de Diabetes Melito Gestacional (DMG) e de Hiperglicemia Gestacional Leve (HGL) e nos resultados perinatais /

Sirimarco, Mariana Pinto

January 2016

Orientador: Iracema de Mattos Paranhos Calderon / Resumo: JUSTIFICATIVA – desde agosto de 2011 o Serviço Especializado de Diabetes e Gravidez da Faculdade de Medicina de Botucatu/Unesp (SEDG-FMB/Unesp) adotou o novo protocolo diagnóstico para o DMG recomendado pela ADA/IADPSG. Entretanto, o Perfil Glicêmico (PG) continuou associado ao TOTG 75g, para diagnosticar a Hiperglicemia Gestacional Leve (HGL), reconhecida e tratada em nosso Serviço como se fosse DMG. A controvérsia sobre o custo-benefício do novo protocolo da ADA/IADPSG e a dúvida sobre a necessidade de manutenção do PG no protocolo do Serviço justificam o presente estudo. OBJETIVOS – avaliar o impacto do novo protocolo da ADA/IADPSG na prevalência de HGL e de DMG, na ocorrência de resultados perinatais adversos (RPNA) e na associação TOTG 75g e PG para diagnóstico de HGL no SEDG-FMB/Unesp. MÉTODO – estudo de corte transversal, incluindo gestantes, e seus recém-nascidos (RN), submetidas aos protocolos diagnósticos e que realizaram pré-natal e parto no Serviço, antes (janeiro de 2008 a 14 de agosto de 2011) e após (15 de agosto de 2011 a dezembro de 2014) à mudança do protocolo, definindo uma amostra por conveniência. Considerando os dois períodos, foram comparadas a prevalência de DMG e de HGL e a ocorrência de RN-GIG, macrossomia, primeira cesárea e tempo de internação dos RN. Na análise estatística foram utilizados análise de Poison e teste t-Student, teste do Qui-quadrado ou Exato de Fischer e cálculo de risco (RR e IC 95%) para os desfechos avaliados. O limite de signifi... (Resumo completo, clicar acesso eletrônico abaixo) / Abstract: BACKGROUND - since August 2011 the Specialized Center of Diabetes and Pregnancy of the Botucatu Medical School / Unesp (SEDG-FMB / Unesp) has adopted a new diagnostic protocol for Gestational Diabetes Mellitus (GDM) recommended by the ADA / IADPSG guidelines. However, the glycemic profile (GP) remained associated with the 75g OGTT to diagnose Mild Gestational Hyperglycemia Lite (MGH), recognized and treated in our department as if it were GDM. The controversy over the cost-effectiveness of the new ADA / IADPSG guideline and doubt about the need for GP maintenance in the service protocol justify this study. OBJECTIVES - To assess the impact of the new ADA / IADPSG guideline in the prevalence of MGH and GDM, in the incidence of adverse perinatal outcomes (APNO) and in the association 75g OGTT and PG for diagnosis of MGH at the SEDG-FMB / Unesp. METHOD - cross-sectional study, including pregnant women and their newborns (NB) that underwent diagnostic protocols and had their prenatal care and delivery at the service before (January 2008 to August 14, 2011) and after (15 August 2011 to December 2014) the protocol modification, defining a convenience sample. Considering the two periods, the prevalence of GDM and MGH and the occurrence of LGA-NB, macrosomia, first cesarean delivery and NB hospital stay were compared. For statistical analysis, Poison analysis and Student's t test, chi-square or Fisher's exact test were used and risk estimate (RR and 95% CI) for the assessed outcomes.... (Complete abstract click electronic access below) / Mestre

Diabetes Melito Gestacional

Hiperglicemia Gestacional Leve

Teste oral de tolerância à glicose

Diagnóstico.

Resultados perinatais

Diabetes gestacional.

Mild gestational hyperglycemia

Oral glucose tolerance test

Diagnosis

Perinatal outcomes

Efeito do tratamento com metformina sobre o desenvolvimento, potencial metastásico e vias de sinalização do câncer de endométrio in vitro

Machado, Amanda de Barros

January 2017

Endometriumkrebs ist eine der häufigsten gynäkologischen Malignomen weltweit und wird in einen Typ I eingeteilt, welcher östrogenabhängig ist, und in eine Typ-II-Östrogen-unabhängige Form. Typ I ist der häufigste Fall und kommt in etwa für 75% bis 85% aller diagnostizierten Fälle in Frage. Erhöhte Östrogenspiegel haben gezeigt, das Risiko von Gebärmutterkrebsentwicklung zu erhöhen, genauso wie Östrogen die Proliferation von Endometriumzellen stimuliert und die Apoptose hemmt. Die Insulinresistenz scheint eine zentrale Rolle in der endometrialen Karzinogenese zu spielen und darüber hinaus werden Erkrankungen mit Insulinresistenz, wie zum Beispiel das polyzystische Ovarialsyndrom (PCOS) und Adipositas, sowie Typ II-Diabetes mellitus (DM) als signifikantes Risiko angesehen, Faktoren für die Entwicklung und Progression von Typ-I-Endometrium-Krebs zu sein. Zusätzlich können PCOS-Patienten durch eine Fettleibigkeit in einem normoglykämischen Status eine unabhängige Insulin-Resistenz haben. In diesem Fall scheint die Hyperinsulinämie der fördernde Faktor zu sein, nicht nur für die Entwicklung als auch für die Tumorprogression.Aber auch erhöhte Blutzuckerspiegel tragen zum Wachstum und die Karzinogenese in Endometriumkarzinom bei und dienen als wichtige Verbindung zwischen dem beobachteten erhöhten Krebsrisiko bei Patienten mit Typ-II-DM. Die Behandlung mit einem Anti-Diabetikum, welches den Insulinspiegel senken kann, könnte einen allgemeinen Ansatz bieten gegen die Entwicklung von Krebs und zur Verringerung der Metastasierung. Das Ziel dieser Studie war es, die Wirkung einer 0,1 mM Metformin-Dosis auf das proliferative und metastatische Potential von Endometriumkrebszellen bewerten zu können, sowie die Analyse der Auswirkungen von kurz- und langfristigen Behandlungen auf intrazelluläre Signalwege der Endometriumkrebszellen.(Fortsetzung) (Fortsetzung)Ebenso soll der Zusammenhang der Entwicklung und der Progression von Krebszellen untersucht werden, wenn sie einer Umgebung mit unterschiedlichen Glucosekonzentrationen und hohen Insulinspiegeln ausgesetzt werden. Darüber hinaus ist eine endometriale dreidimensionale (3D) Cokultur zu standardisieren, für eine viabele Kultur bei 20 Tagen Kultivierung. Das proliferative Potential wurde unter Verwendung des CellTitle-Glo-Tests durchgeführt, und das metastatische Potential wurde unter Verwendung von Transwell-Migration und Invasion untersucht. Die mRNAExpression von MKI67, mTOR, NOTCH1, NOTCH3 und JAG1 Gene wurden durch real-time PCR gemessen. Die kumulative Populationsverdopplungsrate wurde durch das Replikationsverhalten einer Endometriumkrebszelllinie durchgehend von 20 Tagen nach einer Behandlungsdauer bestimmt. In allen Assays wurden die Zellen durch Medien mit normaler (5,5 mM) oder hoher (17 mM) Glucosekonzentration, sowie in verschiedenen Gruppen behandelt: Kontrolle, Insulin, Metformin und Insulin+Metformin. Das 3D-Kokulturmodell wurde unter Verwendung von endometrialen Primärzellen und einer Endometriumkrebszelllinie hergestellt, wobei die Modellkonstruktion durch Matrigel® als extrazelluläre Matrix verwendet wurde. In dieser Studie hemmte die 0,1 mM Metformin-Dosis die Insulinwirkung stark und verringerte die Fähigkeit der endometrialen Krebszelllinie, in einer hohen und normalen Glukoseumgebung zu migrieren und einzudringen.(Fortsetzung) (Fortsetzung) Auf das proliferative Potential wurde dieser Effekt nicht beobachtet, allerdings reagierte die relative Zellproliferation empfindlich auf Metformin im Bereich zwischen 1 und 5 mM, unabhängig von der vorliegenden Glucosekonzentration. In den intrazellulären molekularen Mechanismen wurde beobachtet, dass die hohe Glukosekonzentration eine optimale Umgebung für endometriale Krebszellen schafft, um einen aggressiveren Genotyp und eine Resistenz gegenüber Metformin während einer Langzeitbehandlung zu zeigen. Darüber hinaus blieb das endometriale 3DKokulturmodell über 20 Kulturtage lebensfähig. Daher zeigte sich, trotz der Endometriumkrebszellen, eine Resistenz gegenüber dem Metformin-Effekt, wenn sie einer hohen Glucoseumgebung ausgesetzt waren. Die 0,1 mM Metformin-Dosis war in der Lage, die Insulinwirkung zu hemmen und das metastatische Potential der Zellen zu verringern, was darauf hindeutet, dass Metformin klinisch in Verbindung mit Insulin wirkt, sowie die indirekten und direkten Effekte als potentieller Wirkstoff in der Krebstherapie eingesetzt werden könnten. / O câncer de endométrio é uma das neoplasias ginecológicas com maior incidência, classificado como tipo I, estrógeno dependente, e tipo II, estrógeno nãodependente. O tipo I é a forma mais comum, ocorrendo em torno de 75 – 85 % dos casos de câncer de endométrio. Altos níveis de estrogênio têm sido relacionados ao aumento do risco de desenvolvimento do câncer de endométrio, pois estimula a proliferação celular e inibe a apoptose. A resistência à insulina parece desempenhar um papel central nesta neoplasia, e as doenças associadas à resistência à insulina como obesidade, Diabetes Mellitus (DM) tipo II e Síndrome dos Ovários Policísticos (PCOS) também são consideradas fatores de risco significantes para o desenvolvimento e progressão do câncer de endométrio tipo I. Adicionalmente, pacientes com PCOS podem apresentar um quadro de resistência à insulina independente de obesidade, permanecendo em um estado glicêmico normal. Neste caso, a hiperinsulinemia isolada seria um fator tanto para a promoção, como também para a progressão do câncer. Entretanto, o aumento de níveis séricos de glicose, a hiperglicemia, também é considerada um fator independente para o desenvolvimento e progressão do câncer de endométrio sendo um elo crítico entre o aumento do risco do desenvolvimento de câncer observado em pacientes com DM tipo II Dessa forma, tratamento utilizando agentes insulino-sensibilizantes, que atuam diminuindo a resistência à insulina e consequentemente reduzindo seus níveis pode ser uma estratégia interessante para prevenir o câncer e reduzir a disseminação metastática. Os objetivos deste trabalho foram avaliar o efeito da dose de 0,1 mM de metformina sobre o potencial proliferativo e metastático das células de câncer de endométrio, assim como, avaliar o efeito do tratamento a curto e a longo prazo sobre vias de sinalização intracelular relacionadas ao desenvolvimento e progressão do câncer de endométrio quando exposta a um ambiente com diferentes concentrações de glicose e níveis elevados de insulina. Por fim, a padronização de um modelo tridimensional (3D) de cocultura de células de endométrio que permanecesse viável ao longo de 20 dias de cultivo. O potencial proliferativo foi determinado pelo método luminescente CellTitle Glo, e o potencial metastático pelo o ensaio transwell de migração e invasão. Análises de expressão do mRNA dos genes MKI67, mTOR, NOTCH1, NOTCH3 e JAG1 foram realizadas a partir da técnica de PCR em tempo real. O índice de duplicação populacional cumulativo das células determinou o comportamento de replicação da linhagem de câncer de endométrio ao longo do período de tratamento de 20 dias. Em todas os ensaios as células foram cultivadas em meio contendo concentrações normais (5,5 mM) ou altas (17 mM) de glicose, e divididas nos diferentes grupos de tratamento: controle, insulina, metformina e metformina associado a insulina. A padronização do modelo 3D de cocultura de células de endométrio foi realizado utilizando células primárias e células de linhagem de câncer de endométrio, a Matrigel® foi a matriz extracelular temporária utilizada para a construção do modelo. Neste estudo, a concentração de 0,1 mM de metformina inibiu a ação da insulina, diminuindo a habilidade de migração e invasão das células de câncer de endométrio independente da concentração de glicose presente no meio. Entretanto, este efeito não foi observado sobre o potencial proliferativo, sendo observada uma redução da proliferação das células de câncer de endométrio ao serem utilizadas concentrações maiores de metformina. Em relação aos mecanismos moleculares intracelulares, foi observado que na presença de altas concentrações de glicose as células de câncer de endométrio adquirem um genótipo mais agressivo e apresentam resistência ao efeito da metformina na dose de 0,1 mM durante o tratamento agudo. Além disso, foi possível a padronização de um modelo 3D de cocultura de células de câncer de endométrio que permanecesse viável ao longo dos 20 dias de cultivo. Contudo, apesar das células de câncer de endométrio apresentarem resistência ao efeito da metformina na presença de altas concentrações de glicose, a dose de 0,1 mM foi capaz de inibir o efeito da insulina e diminuir o potencial metastático dessas células, sugerindo que a metformina ao atuar clinicamente em combinação com seus efeitos indiretos e diretos pode ser um potencial agente adjuvante na terapia contra o câncer. / Endometrial cancer is one of the most common gynecological malignancies worldwide and is classified into a type I, which is estrogen-dependent, and a type II estrogen-independent form. The type I is the most common, accounting to 75%-85% of all cases of endometrial cancer. Elevated estrogen levels have been shown to increase the risk of endometrial cancer development, as estrogen stimulates endometrial cell proliferation and inhibits apoptosis. The insulin resistance seems to play a central role in endometrial carcinogenesis, furthermore, diseases associate with insulin resistance, as seen in polycystic ovary syndrome (PCOS), and obesity, as well as type II diabetes mellitus (DM) are considered as significant risk factors for the development and progression of type I endometrial cancer. Additionally, PCOS patients may have an insulin resistance independent of obesity remaining in a normoglycemic status. At this case, the hypeinsulinemia seems to be the promoter factor not only for the development but also for the cancer progression. However, also increased blood glucose levels are contributing to the growth and carcinogenesis in endometrial cancer and are acting as a critical link between the observed increased cancer risk in patients with type II DM. Therefore, the treatment with insulin-sensitizing agents that act through reducing insulin levels, could offer a general approach to prevent the development of cancer and reduce metastasis The aim of this study was to evaluate the effect of 0.1 mM metformin dose on the proliferative and metastatic potential of endometrial cancer cells, as well as, analyze the effects of short and long-term treatment on intracellular signaling pathways related to endometrial cancer development and progression when exposed to an environment with different glucose concentrations and high insulin levels. Additionally, the endometrial three-dimensional (3D) coculture standardization to remain viable over 20 culture days. The proliferative potential was performed by using CellTitle Glo assay, and the metastatic potential was performed by using transwell migration and invasion assay. The mRNA expression of MKI67, mTOR, NOTCH1, NOTCH3 and JAG1 genes were measured by real time PCR. The cumulative population doubling rate was evaluated to determine the replication behavior of an endometrial cancer cell line throughout 20 days of treatment period. In all assays the cells were cultured in medium containing normal (5.5 mM) or high (17 mM) glucose concentration, and treated in different groups: control, insulin,metformin or combined treatment The 3D coculture model was established by using endometrial primary cells and an endometrium cancer cell line, to the model construction Matrigel® was used as an extracellular matrix. In this study, the 0.1 mM metformin dose potently inhibited the insulin action, decreasing the ability of the endometrial cancer cell line to migrate and invade in a high and normal glucose environment. On the proliferative potential this effect was not observed, however, relative cell proliferation sensitivity to metformin was observed in the range between 1 and 5 mM regardless of the present glucose concentration. In the intracellular molecular mechanisms, it was observed that the high glucose concentration creates an optimal environment for endometrial cancer cells to exhibit a more aggressive genotype and resistance to metformin during a long-term treatment. Moreover, the endometrial 3D coculture model remained viable throughout 20 culture days. Therefore, despite of endometrial cancer cells show resistance to the metformin effect when exposed to high glucose environment, the 0.1 mM metformin dose was able to inhibit the insulin action and decrease the metastatic potential of the cells, suggesting that metformin is acting clinically in combination with indirectly and direct effects could emerge as a potential agent in cancer therapy.

Endometrisches Adenokarzinom Typ 1

Metformin,

Hyperinsulinämie

Hyperglykämie

Neoplasias do endométrio

Metformina

Insulina

Hiperglicemia

Proliferação de células

Transdução de sinal

Proliferação de células

Cultura de celulas

Endometrial adenocarcinoma type 1

Metformin

Hyperinsulinemia

Hyperglycemia

Polimorfismos gênicos do fator de crescimento endotelial vascular (VEGF) em gestantes com distúrbios hiperglicêmicos. / Gene polymorphisms of vascular endothelial growth factor (VEGF) in pregnant women with hyperglycemic disorders.

Erica Giovana Barreiro

25 June 2009

A angiogênese é um processo essencial para a formação placentária. Dentre os muitos fatores envolvidos neste evento biológico, destaca-se de forma preponderante o Fator de Crescimento Endotelial Vascular (VEGF), cuja produção é controlada por genes, que podem apresentar variantes polimórficas diversas. As conseqüências funcionais destas variações não estão ainda completamente elucidadas, embora algumas tenham sido já associadas a um comprometimento da angiogênese em diversos sistemas biológicos. Por outro lado, alterações morfológicas na formação, distribuição e arranjo dos vasos placentários foram descritas na placenta de gestantes com distúrbios hiperglicêmicos como a Diabete mellitus e a hiperglicemia moderada. Particularmente nos casos de hiperglicemia moderada, a adaptação vascular observada parece estar relacionada à manutenção da capacidade funcional placentária. Na diabete, este achado foi correlacionado à expressão protéica e gênica atípica de determinados fatores angiogênicos na interface materno-fetal, enquanto que em outras condições hiperglicêmicas a provável participação destes fatores ainda não foi completamente determinada. Desta forma, partindo da hipótese de que as alterações placentárias vasculares em gestantes hiperglicêmicas podem ser decorrentes da expressão ou produção atípica do VEGF e que esta por sua vez pode ser decorrente de polimorfismos gênicos, o objetivo deste estudo foi avaliar polimorfismos do gene deste fator de crescimento em placentas de gestantes com distúrbios hiperglicêmicos. Foi realizada a análise dos polimorfismos -460C/T, -634G/C e 936C/T do gene do VEGF em fragmentos de vilos coriônicos de gestantes normoglicêmicas, com hiperglicemia moderada e com Diabete mellitus prévia à gestação, denominados respectivamente de grupo IA, IB e IIB. Todo o material foi fornecido pelo Serviço de Diabetes e Gravidez da Faculdade de Medicina de Botucatu UNESP. A genotipagem dos polimorfismos do VEGF foi realizada através da Reação de Polimerase em Cadeia (PCR), seguida de digestão por enzima de restrição. As freqüências de distribuição genotípica e alélica dos polimorfismos do VEGF foram comparadas entre os grupos hiperglicêmicos (IB e IIB) e 6 o grupo controle. As freqüências genotípicas estavam em equilíbrio de Hardy-Weinberg. Foram observadas diferenças significantes nas freqüências genotípicas e alélicas do polimorfismo -460C/T do gene do VEGF em placentas de gestantes hiperglicêmicas (grupos IB e IIB) quando comparadas entre si, mas não com o grupo controle. Diferenças estatísticas nas freqüências genotípicas e alélicas do polimorfismo -634G/C VEGF foram detectadas nos grupos hiperglicêmicos em geral comparados ao grupo controle. Não foram identificadas diferenças nas freqüências genotípicas e alélicas do polimorfismo 936C/T do VEGF entre os grupos avaliados. Em conjunto, nossos achados sugerem que a resposta placentária a distúrbios hiperglicêmicos pode estar correlacionada à presença dos dois polimorfismos: -460C/T e 634C/G. No entanto, nenhuma correlação direta funcional positiva foi observada com a angiogênese observada nas placentas de gestações associadas à hiperglicemia moderada. / The angiogenesis is a process essential for placental formation. Among the many factors involved in this biological event, the factor most active is the vascular endothelial growth factor (VEGF), whose production is controlled by genes, which may present different polymorphic variants. The functional consequences of these changes are not yet fully elucidated, although some have been associated with an impairment of angiogenesis in various biological systems. Moreover, morphological changes in distribution and arrangement of the placental vessels were described in the placenta of pregnant women with hyperglycemic disorders such as diabetes mellitus and mild hyperglycemia. Particularly in cases of mild hyperglycemia, the observed vascular adaptation seems to be related to the maintenance of functional placenta. In diabetes, this finding was correlated with the atypical gene and protein expression of certain angiogenic factors in maternalfetal interface, while in other hyperglycemic conditions the likely participation of these factors has not been fully determined. Thus, based on the hypothesis that placental vascular changes in hyperglycemic pregnant women may be due to atypical expression or production of VEGF and that this in turn may be caused by gene polymorphisms, the objective of this study was to assess polymorphisms of this gene factor growth in placentas of women with hyperglycemic disorders. The analysis of the polymorphisms of the VEGF gene was performed in fragments of chorionic villi of normoglycemic, mild hyperglycemic and diabetic pregnant women, respectively named of group IA, IB and IIB. All specimens were provided by the Serviço de Serviço de Diabetes e Gravidez da Faculdade de Medicina de Botucatu UNESP. Genotyping of the VEGF gene polymorphisms -460C/T, -634G/C and 936C/T was done by the polymerase chain reaction (PCR) and restriction fragment length polymorphism methods. The frequency of VEGF alleles and genotype distribution were compared among the hyperglycemic and control groups. The genotype frequencies were in Hardy-Weinberg equilibrium. We have observed significant differences of VEGF -460C/T polymorphism between the hyperglycemic placentas (IB X IIB), but not compared to control group. Statistical differences in the genotypic and allelic frequencies of C of VEGF -634G/C were detected 8 in hyperglycemic groups in general in comparison to controls. There were no significant differences in allelic or genotype frequencies among the evaluated groups. Taken together our findings suggest that the placental response to hyperglycemic disturbs may be correlated to the presence of both -460C/T and -636C/G polymorphism of the VEGF gene. However, no direct functional correlation was detected between these VEGF polymorphisms and the intense angiogenesis seen in placentas of mild hyperglycemiaassociated gestation.

Angiogênese

Diabete mellitus

Gravidez no diabetes

Hiperglicemia gestacional

Histologia

Placenta

Polimorfismos

VEGF

Angiogenesis

Diabete mellitus

Gestational hyperglycemia

Histology

Placenta

Polymorphism

Pregnancy diabetes

VEGF

Impact de la délétion totale et endothéliale de PTP1B sur la dysfonction cardiovasculaire et l'insulino-résistance dans un modèle de sepsis sévère expérimental / Impact of total and endothelial deletion of tyrosine protein Phosphatase 1B on cardiovascular dysfunction and insulin resistance in an experimental sepsis model

Delile, Eugénie

09 May 2017

L’hyperglycémie et l’insulino-résistance constituent les altérations métaboliques des patients septiques associées à un pronostic défavorable, à une augmentation des dysfonctions cardiovasculaires et à une augmentation de la mortalité. Si plusieurs études démontrent quel’insulinothérapie à forte dose diminue la mortalité et prévient la dysfonction multi-organes, elle est souvent controversée car responsable d’hypoglycémies délétères. La Protéine Tyrosine Phosphatase1B (PTP1B) est un régulateur négatif de la voie de signalisation dépendante de l’insuline et de la voie de production du NO.L’idée développée dans le laboratoire est que l’inhibition de la PTP1B pourrait constituer une cible thérapeutique potentielle dans le sepsis en améliorant la sensibilité à l’insuline et ainsi les conséquences sur la fonction endothéliale et cardiaque. Bien qu’il ait été montré que la délétion génétique en PTP1B diminue la dysfonction cardiovasculaire lors du sepsis, les effets de cette délétion sur le métabolisme glucidique dans l’amélioration de la dysfonction cardiovasculaire restent méconnus et constituent l’objectif de notre travail.Dans un modèle de sepsis induit par Ligature et Perforation Caecale, nous avons pu mettre en évidence que la délétion génétique totale de PTP1B limite l’insulino-résistance induite par le sepsis,améliore la voie de signalisation dépendante de l’AMPK et la translocation des GLUT-4 et diminue l’inflammation. Ces effets s’accompagnent d’une diminution de la dysfonction endothéliale induite parle sepsis et améliore la production de NO. La délétion génétique endothéliale de PTP1B permet quant à elle une amélioration significative de la fonction endothéliale et de la sensibilité à l’insuline et au glucose.Ces travaux ont donc permis de mettre en évidence l’effet bénéfique de la délétion génétique en PTP1B dans le sepsis par amélioration de la sensibilité à l’insuline et des conséquences sur la fonction endothéliale et cardiaque. / Hyperglycemia and insulin resistance are septic metabolic alterations associated with poorprognosis, increased cardiovascular dysfunction and mortality. Several studies have demonstrated thathigh-dose insulin therapy reduces mortality and prevents multi-organ dysfunction but is controversialbecause it is often associated with deleterious hypoglycemia. Protein Tyrosine Phosphatase 1B (PTP1B)is a negative regulator of both insulin signaling and NO production.The concept developed in our laboratory is that PTP1B inhibition could be a potentialtherapeutic target in sepsis by improving both insulin sensitivity and these consequences onendothelial and cardiac function. PTP1B genetic deletion has been shown to decrease cardiovasculardysfunction in sepsis but the effects of this deletion on carbohydrate metabolism in the improvementof cardiovascular dysfunction remain unknown and constitute the objective of our work.In a sepsis model induced by Ligature and Caecal Perforation, we have demonstrated that thetotal PTP1B genetic deletion limits insulin resistance induced by sepsis, improves the AMPK signalingpathway, the GLUT-4 translocation and reduces inflammation. These effects are followed by decreasedendothelial dysfunction induced by sepsis and improves NO production. The endothelial PTP1B geneticdeletion, significantly improves endothelial function, insulin and glucose sensitivity.This work demonstrate the beneficial effect of the PTP1B genetic deletion in the sepsis byimprovement of the insulin sensibility and these consequences on endothelial and cardiac function.

Glucose

Hyperglycémie

Insulino-résistance

PTPB1

Sepsis sévère

Dysfonction vasculaire

Glucose

Hyperglycemia

Insulin resistance

PTP1B

Severe sepsis

Vascular dysfunction

362.196 1

616.1

616.39

616.944

SEX- AND AGE-DEPENDENT WESTERN-DIET INDUCED BLOOD-BRAIN BARRIER DYSREGULATION AND RELATIONSHIP TO BEHAVIOR, HYPERGLYCEMIA, BODY WEIGHT, AND MICROGLIA

Elizabeth Sahagun (5930825)

28 April 2022

<p>There has been a rapid shift in food environment of Western cultures that has increased consumption of diets high in fat and sugar, which have imparted negative effects on metabolic and neurocognitive health. There is also building evidence that the adverse effects of Western diet</p> <p>(WD) are different in males and females, such that males are impacted more at an earlier age and females are impacted later in life. The underlying biological mechanisms linking WD and neurocognitive health are often associated with energy dysregulation or neuroinflammation. WD</p> <p>disrupts glucose homeostasis and causes low grade inflammation in the body, and these can impact</p> <p>the brain by disrupting the blood-brain barrier (BBB). The BBB is the microvasculature found throughout the entire brain that tightly regulates what compounds get into the brain to ensure optimal neuronal function. WD disrupts the BBB, however, the effects of WD on BBB integrity</p> <p>in females and younger individuals remain largely unknown. Based on the metabolic and behavioral effects of WD, we hypothesized that the effects are age- and sex- specific. To test this, we gave male and female rats access to a WD for 8-10 weeks starting in juvenile period (post-natal</p> <p>day 21) or in adulthood (post-natal day 75), then measured body weight, behavior, glucose tolerance, the density of two different markers of BBB integrity. We also measured density of resident immune cells (microglia) to assess the relationship between inflammation and BBB integrity. First, we focused on the impact of hyperglycemia on the BBB since elevated glucose alters glucose transporter 1 (GLUT1). We found sex- and age- specific decreases in GLUT1 density in the prefrontal cortex and hippocampus—two brain regions commonly associated with neurocognitive impairments associated with WD. Correlational comparisons between WD and chow (CH) animals also found that the typically relationship between glucose tolerance and</p> <p>GLUT1 in the PFC and hippocampus were overall disrupted in WD animals. Second, we measured the leakage of albumin, a blood protein, since WD depletes the tight junctions that would typically prevent albumin from entering the brain and triggering a neuroinflammatory response. We did not find an increase in albumin density in WD animals, however, we found a main effect of age which</p> <p>offers insight to differential susceptibilities to BBB leakage. Third, we focused on inflammation and found that WD did not impact microglia density in our experiments, nor did it correlate with GLUT1, albumin, or behavior. Collectively, our findings support the hypothesis that the impact of</p> <p>WD on the BBB is sex- and age- specific, suggest that WD does not increase leakage of compounds such as albumin, and highlights the nuanced relationships between WD, metabolic disruption, behavioral deficits, and neuroinflammation.  </p>

Western diet

Sex differences

blood-brain barrier

GLUT1

BBB leakage

hyperglycemia

obesity

IBA1+

hippocampus

prefrontal cortex

Early life diet

La signalisation BMP9 maintient l’intégrité endothéliale et prévient la perméabilité vasculaire rétinienne hyperglycémique

Akla, Naoufal

04 1900

Un endothélium vasculaire rétinien quiescent est essentiel dans l’approvisionnement et le maintien de l’homéostasie tissulaire afin d’assurer la fonction visuelle. L’hyperglycémie chronique dans le diabète peut mener à des complications reliées à plusieurs changements structuraux et fonctionnels de l’endothélium. Ces changements se manifestent souvent par des vaisseaux instables et hyperperméables, résultant en un tissu rétinien inadéquatement perfusé. Ces altérations sont rencontrées dans la pathophysiologie de l’œdème maculaire diabétique (OMD) qui affecte plus du quart des diabétiques. L’inhibition du facteur de perméabilité vasculaire VEGF-A a révolutionné le traitement de l’OMD, mais est aussi associée à des effets secondaires non négligeables reliés à leur non-spécificité et à une compréhension incomplète des mécanismes régulant la perméabilité vasculaire. Un ciblage spécifique de l’endothélium permettant la récupération de la quiescence et la stabilité physiologique réduisant l’hyperperméabilité pourrait fournir un nouvel outil thérapeutique. La BMP9 (Bone morphogenetic protein 9), qui est mise en circulation par le foie, est connue comme facteur de quiescence et de stabilité vasculaire ainsi que pour son effet sur l’homéostasie du glucose. Ces aspects étant peu documentés dans un contexte diabétique, nous avons évalué les capacités de la BMP9 sur la stabilisation de l’endothélium rétinien et ses effets paracrines/autocrines sur la gluconéogenèse hépatique. Nous avons démontré que la signalisation canonique de la BMP9/Smad1,5,9 via son récepteur spécifique à l’endothélium Alk1, était déficiente dans un modèle murin de diabète, ce qui exacerbe l’hyperperméabilité endothéliale rétinienne. À l’inverse, la surexpression de la BMP9 par un modèle murin de livraison adénovirale récupère la perméabilité physiologique, associée principalement à un renforcement des jonctions interendothéliales en limitant l’action du VEGF. De plus, nous avons trouvé que la BMP9 améliore le contrôle glycémique chez les souris diabétiques par l’inhibition de la gluconéogenèse hépatique, via la voie non-canonique Alk3/FOXO1. Fondamentalement, ce travail met en évidence les mécanismes régissant la perméabilité endothéliale dans un contexte diabétique, fournissant une alternative thérapeutique contre l’OMD. La régulation de la perméabilité rétinienne par la BMP9 s’effectue à plusieurs niveaux, indirectement par le contrôle glycémique, et directement par la solidification jonctionnelle de la barrière endothéliale rétinienne, réhabilitant ainsi la quiescence et la stabilité de l'endothélium physiologique. / A quiescent retinal vascular endothelium is essential for the supply and maintenance of tissue homeostasis to ensure proper visual function. Chronic hyperglycemia in diabetes can lead to multiple complications related to several structural and functional changes in the endothelium, characterized by unstable and hyperpermeable vessels resulting in an inadequately perfused retinal tissue. These alterations are encountered in the pathophysiology of diabetic macular edema (DME), which affects more than a quarter of diabetics. Inhibition of the vascular permeability factor VEGF-A has revolutionized the treatments of DME but is associated with non-negligible side effects related to their non-specific action combined with an incomplete understanding of the mechanisms regulating vascular permeability. Specific endothelial targeting aiming to recover quiescence and reducing hyperpermeability could provide new therapeutic tools for the treatment or prevention of DME. BMP9 (Bone morphogenetic protein 9), which is produced by the liver, is known as a vascular quiescence and stability factor as well as for its effects on glucose homeostasis. Since these aspects are poorly documented in a diabetic context, we investigated BMP9’s capabilities on endothelium stabilization and its paracrine/autocrine effects on hepatic gluconeogenesis. In our studies, we found that the canonical BMP9/Smad1,5,9 signaling, via its physiological Alk1 endothelium-specific receptor, was deficient in a murine model of diabetes, which exacerbates retinal endothelial hyperpermeability. In contrast, adenoviral overexpression of BMP9 recovers physiological permeability, which was primarily associated with the enhancement of interendothelial junctions by limiting the action of VEGF. In addition, we found that BMP9 improves glycemic control in diabetic mice by inhibition of hepatic gluconeogenesis via the non-canonical ALK3/FOXO1 pathway. Fundamentally, this work highlights new insights of the mechanisms governing endothelial permeability in a diabetic context, providing a therapeutic alternative against DME. Regulation of retinal permeability by BMP9 occurs on several levels, indirectly, through glycemic control, and directly through the junctional solidification of the hyperglycemic retinal endothelial barrier, thus rehabilitating the quiescence and stability of the physiological endothelium.

BMP9

VEGF

Diabète

Diabetes

Hyperglycémie

Hyperglycemia

Perméabilité vasculaire

Vascular permeability

Jonctions

Junctions

Oedème maculaire

Macular edema

Oedème maculaire

Macular edema

Heat shock protein 90, a potential biomarker for type I diabetes: mechanisms of release from pancreatic beta cells

Ocaña, Gail Jean

23 May 2016

Indiana University-Purdue University Indianapolis (IUPUI) / Heat shock protein (HSP) 90 is a molecular chaperone that regulates diverse cellular processes by facilitating activities of various protein clients. Recent studies have shown serum levels of the alpha cytoplasmic HSP90 isoform are elevated in newly diagnosed type I diabetic patients, thus distinguishing this protein as a potential biomarker for pre-clinical type I diabetes mellitus (TIDM). This phase of disease is known to be associated with various forms of beta cell stress, including endoplasmic reticulum stress, insulitis, and hyperglycemia. Therefore, to test the hypothesis that HSP90 is released by these cells in response to stress, human pancreatic beta cells were subjected to various forms of stress in vitro. Beta cells released HSP90 in response to stimulation with a combination of cytokines that included IL-1β, TNF-α, and IFN-γ, as well as an agonist of toll-like receptor 3. HSP90 release was not found to result from cellular increases in HSP90AA1 gene or HSP90 protein expression levels. Rather, cell stress and ensuing cytotoxicity mediated by c-Jun N-terminal kinase (JNK) appeared to play a role in HSP90 release. Beta cell HSP90 release was attenuated by pre-treatment with tauroursodeoxycholic acid (TUDCA), which has been shown previously to protect beta cells against JNK-mediated, cytokine-induced apoptosis. Experiments here confirmed TUDCA reduced beta cell JNK phosphorylation in response to cytokine stress. Furthermore pharmacological inhibition and siRNA-mediated knockdown of JNK in beta cells also attenuated HSP90 release in response to cytokine stress. Pharmacological inhibition of HSP90 chaperone function exacerbated islet cell stress during the development of TIDM in vivo; however, it did not affect the overall incidence of disease. Together, these data suggest extracellular HSP90 could serve as a biomarker for preclinical TIDM. This knowledge may be clinically relevant in optimizing treatments aimed at restoring beta cell mass. The goal of such treatments would be to halt the progression of at-risk patients to insulin dependence and lifelong TIDM.

17-DMAG

Beta cells

Biomarker

HSP90

NOD mouse

Type I diabetes

Heat shock proteins

Diabetes -- Diagnosis

Biochemical markers

Endoplasmic reticulum -- Pathophysiology

Hyperglycemia

Pancreatic beta cells

Cell adhesion molecules

Nové trendy v monitoraci a kontrole glykémie v perioperačním období. / New trends in perioperative monitoring and glycaemic control.

Lipš, Michal

January 2019

Glycaemic control in critically ill patients has been a topic of considerable attention for the past 20 years. In literature and at scientific meetings, there have been ongoing debates regarding the efficacy of glycaemic control in these patients with frequently entirely opposite opinions. These range from a strict invasive approach with target glycaemia 4-6 mmol/l to a liberal approach tolerating even values higher than 12 mmol/l. In the preview of this PhD thesis we have analysed so far published literature and describe the reasons for this inconsistency. According to the results of recent studies, the most significant efficacy of tight glycaemic control has been observed in cardiac surgical patients. If we consider the concept of tight glycaemic control as efficient strategy, there are three important questions remaining unanswered as follow. Does the specific algorithm-protocol play a key part in the concept of tight glycaemic control alongside the knowledge and skills of nursing staff in safe and efficient blood glucose control? What is the ideal timing of starting the strategy of tight glycaemic control (TGC) in cardiac surgical patient? And is there any benefit in outcome respect to mortality or morbidity? Do we have any more safe and efficient option or add-on to standard perioperative...

Differential Metabolic Effects in White and Brown Adipose Tissue by Conjugated Linoleic Acid Elicit Lipodystrophy-associated Hepatic Insulin Resistance

Stout, Michael B.

28 July 2011

No description available.

Nutrition

Physiology

brown adipose tissue

conjugated linoleic acid

diacylglycerol

hepatic steatosis

hyperglycemia

hyperinsulinemia

insulin resistance

liver

mice

protein kinase C epsilon

type-2 diabetes

white adipose tissue