Estabelecimento de um modelo experimental de neurotuberculose / Establishment of an experimental model of neurotuberculosis

Zucchi, Fabíola Cristina Ribeiro

11 June 2007

A tuberculose (TB) é um grave problema de saúde pública. Somente no ano de 2004, cerca de 9 milhões de pessoas desenvolveram TB ativa e mais de 2 milhões de pessoas morreram da doença. O desenvolvimento de novos modelos experimentais de TB seriam de grande utilidade para para elucidar mecanismos fisiopatológicos da doença e testar esquemas terapêuticos para a prevenção e contenção da doença. Além disso, o desenvolvimento de novas vacinas torna-se indispensável como ferramenta de prevenção e controle da TB. A TB no sistema nervoso central (SNC), assim como em outros tecidos do organismo, promove a ativação de células inflamatórias. No SNC a micróglia desempenha este papel, sendo capaz de produzir ou ser influenciada por mediadores solúveis. Vários mediadores estão envolvidos nos mecanismos moleculares decorrentes da infecção e inflamação causados pela TB, entre eles: NFB, iNOS e VEGF. A ativação do NFB, um fator de transcrição citoplasmático que sob estímulo migra para o núcleo celular, tem íntima relação com a indução da iNOS e de VEGF. A resistência intracelular a patógenos, inclusive ao Mycobacterium tuberculosis, parece estar associada a expressão de iNOS em macrófagos. O óxido nítrico (NO) tem papel importante na comunicação intercelular, estimulando a síntese de mediadores inflamatórios, como as citocinas, e regulando sua própria produção endógena. Estas citocinas por sua vez também podem induzir a atividade do NFB e a expressão da iNOS e VEGF. O VEGF é um potente ativador de permeabilidade vascular e de angiogênese, envolvido na ruptura da barreira hemato-encefálica. Neste estudo, mostramos a caracterização morfológica e imuno-histoquímica de um modelo murino de TB no SNC, com a indução da doença pela inoculação de BCG. Com este modelo experimental obtivemos importantes resultados que podem esclarecer mecanismos envolvidos na fisiopatologia da neuro-TB humana. A indução de meningite e tuberculomas foi possível através da inoculação de 104 cfu de BCG no cerebelo de camundongos, por estereotaxia, e esta indução foi dependente do tempo. A confirmação do diagnóstico foi feita pela detecção de bacilos álcool-ácido resistentes (BAAR), nas lesões tuberculosas. Observamos, ao longo do tempo (1 a 6 dias; 1, 2, 4 e 8 semanas) o recrutamento de diferentes populações gliais (micróglia e astrócitos) no sítio de injeção. Houve aumento de produção e ativação NFB nas lesões tuberculosas, caracterizada pela translocação da molécula do citoplasma para o núcleo celular. Houve expressão de iNOS restrita às lesões tuberculosas, além do aumento de expressão de VEGF nestas lesões. Além disso, camundongos imunizados com a vacina gênica hsp65, contra a TB, não expressam VEGF em suas lesões. Esta vacina parece conferir um efeito protetor em nosso modelo experimental, reduzindo a expressão de VEGF, e consequentemente reduzindo seu efeito angiogênico decorrente do processo inflamatório. O recrutamento glial, e a produção de mediadores solúveis (NFB, iNOS e VEGF) pelo hospedeiro, em resposta à invasão do patógeno no SNC, parecem estar envolvidos na fisiopatologia da neurotuberculose, como demonstrado neste modelo experimental. Nosso modelo permitirá investigar fatores possivelmente responsáveis pelo desenvolvimento e manutenção de lesões tuberculosas no SNC. O objetivo final seria elucidar a fisiopatologia desta grave doença e compreender eventos moleculares envolvidos na produção de lesões. O conhecimento gerado poderá permitir o delineamento de terapias específicas e efetivas. / Tuberculosis (TB) is a serious public health problem; in 2004, 9 million people developed active TB and the disease killed 2 million patients. Development of experimental models and new vaccines are essential both to elucidate physiopathological mechanisms and to control the disease. This infection in the central nervous system (CNS), as in other tissues of the organism, activates inflammatory cells. In CNS, this role is performed by the microglia, which is capable of producing or be influenced by soluble mediators. Several mediators are involved in the molecular mechanisms of the infection and inflammation by mycobacteria , such as NFB, iNOS and VEGF. NFB activation, a cytoplasmic transcriptional factor that migrates to the cellular nucleus under stimuli, is involved with the iNOS and VEGF induction of expression. The intracellular resistance to Mycobacterium tuberculosis has been associated with iNOS expression in macrophage cells. Nitric oxide (NO) is crucial in intercellular communication, modulating the synthesis of mediators of inflammation, such as cytokines, and modulation itself. These cytokines induces NFB activity, and induces iNOS and VEGF expression. VEGF is a potent activator of vascular permeability and of angiogenesis and it is a factor involved in the breakdown of the blood brain-barrier in tuberculous meningitis. In this study, we showed the morphologic and immunohistochemistry characterization of an experimental model of TB in the CNS, with inoculation of BCG in mice. In this model we elicited important outcome that can elucidate mechanisms involved in the physiopathology of human neuron-TB. Induction of meningitis and tuberculomas were possible with stereotaxic inoculation of 104 cfu of BCG in mice cerebellum, in a time-dependent way. Diagnostic was confirmed by detection of alcohol-acid resistant bacilli (BAAR), in tuberculous lesions. We observed, the time-course (1 to 6 days; 1, 2, 4 e 8 weeks) of the recruitment of different glial populations (microglia and astrocytes) in the injection site. There was increased production and activation of NFB in the tuberculous lesions, it was characterized by its nuclear translocation from cytoplasm. There was iNOS expression only in the tuberculous lesions, and expression increased of VEGF in these lesions. Furthermore, mice immunizated with vaccine DNA-hsp65 there was no expression of VEGF in its lesions. This vaccine seems confer a protector effect in our experimental model, reducing the expression of VEGF, and then reducing its angiogenic effect derived from inflammatory process. Glial recruitment, and the soluble mediators production (NFB, iNOS e VEGF) by the host, producing in response to invasion of the pathogen in the CNS, has been involved in the pathophysiology of the neuro-TB, such as demonstrated in this experimental model. Our model will allow investigate possible factors responsible for the development and maintenance of tuberculous lesions in the CNS. The final aim is to elucidate the physiopathology of this serious illness and understand the molecular events involved in the production of the lesions. The knowledge created may permit to pave the way to delineate specific and effective therapies.

central nervous system

granuloma

granuloma

iNOS (inducible nitric oxide synthase).

iNOS (oxido nitrico sintase induzida)

microglia

microglia

NFkB (fator nuclear kB)

NFkB (nuclear factor kB)

sistema nervoso central

tuberculose

tuberculosis

Modulating the p53 response to DNA damage by applying different perturbations types

Cristiano, Elena

01 November 2016

Der Tumorsuppressor p53 spielt eine wichtige Rolle bei der Aufrechterhaltung der zellulären Homöostase und verhindert die Bildung und Entwicklung von Krebs. Frühere Studien auf Einzelzellebene haben gezeigt, der p53 nach dem Auftreten von DNS Schäden in einer Serie gleichförmiger Pulse im Kern akkumuliert. Um den Einfluss von Temperatur, dem Zustand des NFκB Weges oder dem Vorhandensein von Wachstumsfaktoren auf die p53 Dynamiken nach DNS-Schäden zu untersuchen, wurden in dieser Arbeit A549 und MCF10A p53 Reporter-Zelllinien verwendet. Um Daten mit hoher zeitlicher und räumlicher Auflösung auf Einzelzellebene zu erhalten, wurde Zeitraffer-Fluoreszenzmikroskopie verwendet. Überraschenderweise zeigten A549 Zellen, die mit γ-Strahlung behandelt wurden, eine höhere p53 Akkumulation und ein verlängertes Zeitintervall zwischen den p53 Pulsen, wenn sie bei 30°C inkubiert wurden im Vergleich zu Zellen unter physiologischen Bedingungen. Hingegen zeigten Zellen bei 40°C eine höhere p53 Pulsfrequenz. Außerdem wurde die p53 Zielgen-Expression durch die Änderungen in der Dynamik beeinflusst. In den beiden Zelllinien, A549 und MCF10A, wurde die p53 Dynamik durch Inhibierung des NFκB Signalweges verändert, nicht aber durch dessen Aktivierung mittels TNF. So verlängert die Inhibierung des NFkB Signalweges das Zeitintervall zwischen p53 Pulsen, was sich auch in der Expression von p53 Zielgenen wiederspiegelt. Weiterhin konnte in MCF10A Zellen durch Experimente mit verschiedenen Medien-Bedingungen gezeigt werden, dass p53 Dynamiken vor allem durch die Anwesenheit von EGF und Hydrocortison geprägt werden. So führt EGF zu einem pulsierenden p53 Verhalten, während Hydrocortison alleine die p53 Antwort vollständig aufhebt.. Diese Studie macht deutlich, wie wichtig es ist, das Verhältnis von zellulärem Zustand und p53 Antwort systematisch zu untersuchen, um Krebstherapien wirksamer zu machen / The tumor suppressor p53 plays important roles in maintaining cellular homeostasis and in preventing the formation and development of cancer. Previous studies on p53 activation after DNA damage have reported that it shows a series of regular discrete pulses of protein accumulation over time at the single cell level. In this work A549 and MCF10A p53 reporters cell line were used to investigate how p53 dynamics after DNA damage were affected by changes in temperature, by changes in the state of the NFκB pathway and changes in the provided growth factors. Time-lapse florescent microscopy was used to obtain single cell data with high temporal and special resolution at the single cell level. Surprisingly A549 cells treated with γ-irradiation showed higher level of p53 accumulation and increased time between p53 pulses when imaged at 30°C than cells imaged under physiological conditions. Cells imaged at 40°C showed instead higher p53 pulse frequency. P53 target gene expression was also affected by these changes in dynamics. In both A549 and MCF10A cells, p53 dynamics were changed by NFκB pathways inhibition but not activation via TNFα. Upon inhibition of the NFκB pathway the timing between p53 pulses was increased leading to changes also in p53 target genes expression. In MCF10A cells experiments done under different medium conditions proved that p53 dynamic in this cell line was shaped mainly by the presence of EGF and hydrocortisone that are usual components of the media. EGF leads to a more pulsatile p53 behavior while hydrocortisone completely abrogates the p53 response. These discoveries pointed out the need to study more systematically the relationship between the p53 response to a given stress and the cellular state in order to make cancer therapies more effective.

p53

NFkB

DNS-Schäden

Einzelzellebene Dynamik

Zeitraffer-Fluoreszenzmikroskopie

p53

NFkB

DNA damage

single cell dynamic

Time lapse Live fluorescent microscopy

570 Biowissenschaften, Biologie

32 Biologie

WE 2200

ddc:570

Estabelecimento de um modelo experimental de neurotuberculose / Establishment of an experimental model of neurotuberculosis

Fabíola Cristina Ribeiro Zucchi

11 June 2007

A tuberculose (TB) é um grave problema de saúde pública. Somente no ano de 2004, cerca de 9 milhões de pessoas desenvolveram TB ativa e mais de 2 milhões de pessoas morreram da doença. O desenvolvimento de novos modelos experimentais de TB seriam de grande utilidade para para elucidar mecanismos fisiopatológicos da doença e testar esquemas terapêuticos para a prevenção e contenção da doença. Além disso, o desenvolvimento de novas vacinas torna-se indispensável como ferramenta de prevenção e controle da TB. A TB no sistema nervoso central (SNC), assim como em outros tecidos do organismo, promove a ativação de células inflamatórias. No SNC a micróglia desempenha este papel, sendo capaz de produzir ou ser influenciada por mediadores solúveis. Vários mediadores estão envolvidos nos mecanismos moleculares decorrentes da infecção e inflamação causados pela TB, entre eles: NFB, iNOS e VEGF. A ativação do NFB, um fator de transcrição citoplasmático que sob estímulo migra para o núcleo celular, tem íntima relação com a indução da iNOS e de VEGF. A resistência intracelular a patógenos, inclusive ao Mycobacterium tuberculosis, parece estar associada a expressão de iNOS em macrófagos. O óxido nítrico (NO) tem papel importante na comunicação intercelular, estimulando a síntese de mediadores inflamatórios, como as citocinas, e regulando sua própria produção endógena. Estas citocinas por sua vez também podem induzir a atividade do NFB e a expressão da iNOS e VEGF. O VEGF é um potente ativador de permeabilidade vascular e de angiogênese, envolvido na ruptura da barreira hemato-encefálica. Neste estudo, mostramos a caracterização morfológica e imuno-histoquímica de um modelo murino de TB no SNC, com a indução da doença pela inoculação de BCG. Com este modelo experimental obtivemos importantes resultados que podem esclarecer mecanismos envolvidos na fisiopatologia da neuro-TB humana. A indução de meningite e tuberculomas foi possível através da inoculação de 104 cfu de BCG no cerebelo de camundongos, por estereotaxia, e esta indução foi dependente do tempo. A confirmação do diagnóstico foi feita pela detecção de bacilos álcool-ácido resistentes (BAAR), nas lesões tuberculosas. Observamos, ao longo do tempo (1 a 6 dias; 1, 2, 4 e 8 semanas) o recrutamento de diferentes populações gliais (micróglia e astrócitos) no sítio de injeção. Houve aumento de produção e ativação NFB nas lesões tuberculosas, caracterizada pela translocação da molécula do citoplasma para o núcleo celular. Houve expressão de iNOS restrita às lesões tuberculosas, além do aumento de expressão de VEGF nestas lesões. Além disso, camundongos imunizados com a vacina gênica hsp65, contra a TB, não expressam VEGF em suas lesões. Esta vacina parece conferir um efeito protetor em nosso modelo experimental, reduzindo a expressão de VEGF, e consequentemente reduzindo seu efeito angiogênico decorrente do processo inflamatório. O recrutamento glial, e a produção de mediadores solúveis (NFB, iNOS e VEGF) pelo hospedeiro, em resposta à invasão do patógeno no SNC, parecem estar envolvidos na fisiopatologia da neurotuberculose, como demonstrado neste modelo experimental. Nosso modelo permitirá investigar fatores possivelmente responsáveis pelo desenvolvimento e manutenção de lesões tuberculosas no SNC. O objetivo final seria elucidar a fisiopatologia desta grave doença e compreender eventos moleculares envolvidos na produção de lesões. O conhecimento gerado poderá permitir o delineamento de terapias específicas e efetivas. / Tuberculosis (TB) is a serious public health problem; in 2004, 9 million people developed active TB and the disease killed 2 million patients. Development of experimental models and new vaccines are essential both to elucidate physiopathological mechanisms and to control the disease. This infection in the central nervous system (CNS), as in other tissues of the organism, activates inflammatory cells. In CNS, this role is performed by the microglia, which is capable of producing or be influenced by soluble mediators. Several mediators are involved in the molecular mechanisms of the infection and inflammation by mycobacteria , such as NFB, iNOS and VEGF. NFB activation, a cytoplasmic transcriptional factor that migrates to the cellular nucleus under stimuli, is involved with the iNOS and VEGF induction of expression. The intracellular resistance to Mycobacterium tuberculosis has been associated with iNOS expression in macrophage cells. Nitric oxide (NO) is crucial in intercellular communication, modulating the synthesis of mediators of inflammation, such as cytokines, and modulation itself. These cytokines induces NFB activity, and induces iNOS and VEGF expression. VEGF is a potent activator of vascular permeability and of angiogenesis and it is a factor involved in the breakdown of the blood brain-barrier in tuberculous meningitis. In this study, we showed the morphologic and immunohistochemistry characterization of an experimental model of TB in the CNS, with inoculation of BCG in mice. In this model we elicited important outcome that can elucidate mechanisms involved in the physiopathology of human neuron-TB. Induction of meningitis and tuberculomas were possible with stereotaxic inoculation of 104 cfu of BCG in mice cerebellum, in a time-dependent way. Diagnostic was confirmed by detection of alcohol-acid resistant bacilli (BAAR), in tuberculous lesions. We observed, the time-course (1 to 6 days; 1, 2, 4 e 8 weeks) of the recruitment of different glial populations (microglia and astrocytes) in the injection site. There was increased production and activation of NFB in the tuberculous lesions, it was characterized by its nuclear translocation from cytoplasm. There was iNOS expression only in the tuberculous lesions, and expression increased of VEGF in these lesions. Furthermore, mice immunizated with vaccine DNA-hsp65 there was no expression of VEGF in its lesions. This vaccine seems confer a protector effect in our experimental model, reducing the expression of VEGF, and then reducing its angiogenic effect derived from inflammatory process. Glial recruitment, and the soluble mediators production (NFB, iNOS e VEGF) by the host, producing in response to invasion of the pathogen in the CNS, has been involved in the pathophysiology of the neuro-TB, such as demonstrated in this experimental model. Our model will allow investigate possible factors responsible for the development and maintenance of tuberculous lesions in the CNS. The final aim is to elucidate the physiopathology of this serious illness and understand the molecular events involved in the production of the lesions. The knowledge created may permit to pave the way to delineate specific and effective therapies.

granuloma

iNOS (oxido nitrico sintase induzida)

microglia

NFkB (fator nuclear kB)

sistema nervoso central

tuberculose

central nervous system

granuloma

iNOS (inducible nitric oxide synthase).

microglia

NFkB (nuclear factor kB)

tuberculosis

Analyse der Regulationsmechanismen des humanen Tumorsuppressor Gens H-REV107-1

Reich, Steffen

03 July 2006

H-REV107-1 wird in normalen Geweben ubiquitär exprimiert, während die Expression in humanen Mamma-, Ovarial-, und Lungentumoren unterdrückt ist. H-REV107-1 hemmt das Tumorwachstum in vitro und in vivo. Die Expression und Regulation des H-REV107-1 Gens wurde in verschiedenen, humanen Zelllinien untersucht. In Tumor Zelllinien wird die H-REV107-1 Expression durch IFNgamma induziert Eine Korrelation der H-REV107-1 und der IRF1 Expression nach Induktion mit IFNgamma wurde gezeigt. H-rev107-1 konnte nach konditionaler IRF1 Expression, Proteinsynthese-unabhängig, nachgewiesen werden und ist ein direktes Zielgen von IRF1. Die H-rev107-1 Expression ließ sich durch Unterdrückung des MEK/ERK Signalwegs mit dem MEK1 Inhibitor PD98059 aktivieren. Dies bedeutet, dass H-REV107-1 durch mindestens zwei verschiedene Signalwege, IFNgamma und MEK/ERK, reguliert wird. Der in vitro amplifizierte H-REV107-1 Promoter enthält keine TATA-Box, sondern ein Initiator Element sowie, in dem für eine TATA-Box definierten Abstand, eine ATF2 Bindungsstelle. Die Inkubation von transient transfizierten Zellen mit TNF alpha, cAMP und IFN gamma steigerte die Luciferase Aktivität. Mit Hilfe von Deletions- und Mutationskonstrukten wurden die regulatorischen Bereiche des Promoters bestimmt. Eine Mutation der cRel-Bindungsstelle, potentiell über NFkappaB reguliert, resultierte in einer Luciferase Aktivität von nur 9% des Wildtyp Promoters. Die Mutation der CREB/ATF2 Bindungsstelle reduzierte die Luciferase Aktivität auf 37%. Die Ko-Transfektion eines NFkappaB Suppressor reduzierte die Luciferase Aktivität um 53%. Diese Ergebnisse legen nahe, dass NFkappaB und ATF2 die H-REV107-1 Expression positiv regulieren. In einem EMSA wurde die Bindung von ATF2 an die CREB/ATF-2 Bindungsstelle gezeigt. Die Ergebnisse lassen vermuten, dass H-REV107-1 durch eine IFNgamma induzierte, möglicherweise PKR vermittelte, Signalkette von den Faktoren IRF1 und ATF2 direkt, sowie von NFkappaB indirekt, reguliert wird. / The H-REV107-1 class II tumor suppressor gene is ubiquitously expressed in normal tissues and down regulated in human breast, ovarian and lung tumors. H-REV107-1 has the capacity to suppress growth of tumor cells in vitro and in vivo. H-REV107-1 is up regulated after treatment with IFN gamma. A NIH3T3 cell line harboring an estrogen inducible IRF.1/hER fusion protein showed a protein synthesis independent up regulation of H-rev107-1 expression after induction of IRF-1. H-rev107-1 is a direct target of IRF-1. Inhibition of the MEK/ERK pathway, using the MEK1 inhibitor PD 98059, leads to a restored expression of H-rev107-1. Therefore, H-REV107-1 can be a target of the MEK/ERK-pathway. Thus, H-REV107-1 is regulated by at least two different pathways. To understand the regulatory mechanisms of the expression of the H-REV107-1 gene, the putative promoter region was analyzed in silico. The sequence was amplified and cloned. Induction of the promoter constructs with TNF alpha, cAMP and IFN gamma increased the luciferase activity. Several deletions constructs and constructs with putative transcription factor binding sites mutated were used to narrow down the important regulatory elements of the promoter. The mutations of a cRel binding site and a CREB/ATF-2 binding site decreased the luciferase activity by 91% and 63%, respectively. Co transfection of the full length promoter construct with a repressor of NFkappaB activation, reduced the luciferase activity to 47%. As a result of the investigation H-REV107-1 is directly regulated by IRF-1 and probably indirectly regulated by NFkappaB and the MEK/ERK signaling pathway. In an Electro Mobility Shift Assay (EMSA), the binding of ATF-2 to the CREB oligonucleotid was demonstrated by the use of a specific antibody. The ATF.2 binding site in the posititon –30 bp - 23 bp of the human, TATA-less H-REV107-1 promoter replaces the TATA-like element, which can be found in the H-rev107-1 promoter of rat and mouse.

H-REV107-1

ATF 2

IRF 1

NFkB

Tumorsuppressor

H-REV107-1

ATF 2

IRF 1

NFkB

tumor suppressor

570 Biologie

32 Biologie

XH 2104

XH 2118

XH 2121

ddc:570

Papel da hipóxia na ativação da imunidade inata e na progressão da doença renal crônica associada ao modelo de ablação renal de 5/6 / Role of hypoxia in the activation of innate immunity and in the progression of chronic kidney disease associated with the renal ablation model of 5/6

Rempel, Lisienny Campoli Tono

27 September 2018

A hipóxia tecidual tem sido apontada como importante fator na patogênese da Doença Renal Crônica (DRC). No entanto, faltam evidências diretas de que a exposição prolongada à hipóxia tecidual inicie ou agrave a DRC. Nós testamos essa hipótese expondo cronicamente ratos normais e ratos com nefrectomia de 5/6 (Nx) à hipóxia. Além disso, investigamos se tal efeito da hipóxia envolveria a ativação da imunidade inata. Ratos Munich-Wistar machos adultos foram submetidos a Nx (n = 54) ou cirurgia simulada (Sham, n = 52). Vinte e seis ratos sham (S+nor) e 26 Nx (Nx+nor) permaneceram em normóxia, enquanto 26 ratos sham (S+hip) e 28 Nx (Nx+hip) foram mantidos em uma câmara de hipóxia normobárica (12% O2) por 8 semanas. Confirmamos a existência de hipóxia tecidual por imuno-histoquímica para Pimonidazol (Hypoxyprobe tm). A hipóxia foi confinada à área medular em S+nor e expandiu-se à área cortical em S+hip. A hipóxia não promoveu lesão renal nem elevação do conteúdo de IL-1beta ou TLR-4 em Sham. Em Nx, a hipóxia se estendeu para a área cortical, um processo que foi intensificado em Nx+hip, mas, inesperadamente, atenuou a hipertensão, a ativação da imunidade inata, a inflamação, a lesão renal e o estresse oxidativo. Em desacordo com os conceitos atuais, o presente estudo traz evidência de que a hipóxia pode exercer um efeito renoprotetor no modelo Nx, ao invés de atuar como um fator de lesão renal. Os mecanismos desse inesperado efeito benéfico não são claros, e podem envolver inibição da via do NF-kB, melhora do estresse oxidativo e limitação da produção de angiotensina II pelo tecido renal / Hypoxia is thought to influence the pathogenesis of chronic kidney disease (CKD), but direct evidence that prolonged exposure to tissue hypoxia initiates or aggravates CKD is lacking. We tested this hypothesis by chronically exposing normal rats and rats with 5/6 nephrectomy (Nx) to hypoxia. In addition, we investigated whether such effect of hypoxia would involve activation of innate immunity. Adult male Munich-Wistar rats underwent Nx (n=54) or sham surgery (sham, n=52). Twenty six sham (S+nor) and 26 Nx (Nx+nor) rats remained in normoxia, while 26 sham rats (S+hyp) and 28 Nx rats (Nx+hyp) were kept in a normobaric hypoxia chamber (12% O2) for 8 weeks. Hypoxia was confirmed by immunohistochemistry for Pimonidazole (Hypoxyprobe®). Hypoxia was confined to the medullar area in S+nor and spread to the cortical area in S+hyp. Exposure to hypoxia promoted no renal injury or elevation of the content of IL1beta or TLR-4 in Sham. In Nx, hypoxia extended to the cortical area, a process that was intensified in Nx+hyp but, unexpectedly, attenuated hypertension, inflammation, innate immunity activation, renal injury and oxidative stress. The present study, in disagreement with current concepts, shows evidence that hypoxia exerts a renoprotective effect in the Nx model, instead of acting as a factor of renal injury. The mechanisms for this unexpected beneficial effect are unclear, and may involve NF-kB inhibition, amelioration of oxidative stress and limitation of angiotensine II production by the renal tissue

5/6 ablation

Ablação renal de 5/6

Chronic kidney disease

Doença renal crônica

Hipóxia

Hypoxia

Imunidade inata

Innate immunity

NF-kB

NFkB pathway

Exploration of Zinc finger CCCH domain-containing protein 11A’s role in mammalian cell NFkB Pathway

Wang, Jianxiang

January 2019

ZC3H11A (ZC3) protein has been reported to be part of the TREX (TRanscription-EXport) nuclear export system for mammalian cells. According to our previous publication, ZC3 not only plays an unelucidated role in the TREX complex, but also supports the growth of several human nucleus replicating virus, such as influenza virus, adenovirus (HAdV), herpes simplex virus and HIV. We thought to further elucidate the role of ZC3 in immunological stress based on previous observations that ZC3 was upregulated in stress condition. Our previous experiment tested the effect of knocking out ZC3 in HeLa cell then stimulating the cells with IL-1β to induce immunological stress. It showed that IL-1β stimulated ZC3 knockout Hela cells produce more than double fold IL6 compared to IL-1β stimulated HeLa Cas 9 wild type. Since IL-6 is downstream of NFkB signalling pathway, we aimed to explore a possible role of ZC3 protein in mammalian cell’s NFkB pathway. Our primary results showed that NFkB pathway might be more upregulated in ZC3 KO cells than in wild type HeLa Cas9 cells. This up-regulation was found to be correlated to defective IkBα inhibitory mRNA biogenesis in knockout cells. Our results indicate that ZC3 might play a role in IkBα inhibitory mRNA biogenesis, process, and/or export. Further work is needed to describe the exact role of ZC3 in IKBα mRNA biogenesis.

ZC3H11A

NFkB

HeLa cells

Viral-host interaction

Cell and Molecular Biology

Cell- och molekylärbiologi

Övrig annan medicin och hälsovetenskap

Exploration of a mammary epithelial cell model for the study of inflammation and mechanisms of anti-inflammatory activity in medicinal plants

Al-Maalouf, Samar Wadih

05 January 2007

No description available.

Inflammation

Endotoxin

LPS

Mammary epithelial cells

NFkB

IL-6

nitric oxide

NO

iNOS

IKK

cell-cell interaction

ECM

extracellular matrix

medicinal plant

Centaurea ainetensis

Wedelolactone

Glutaredoxin Regulation of Pro-Inflammatory Responses in a Model of Diabetic Retinopathy

Shelton, Melissa D.

January 2009

No description available.

Cellular Biology

Molecular Biology

Pharmacology

NFkB

IKK

Glutaredoxin

Grx

diabetic retinopathy

Muller cells

rMC-1 cells

thiol disulfide oxidoreductase

diabetes

inflammation

ICAM-1

IL-6

cytokines

Glutathionylation

Redox regulation