Targeting Transcription Factor NF-kappa B by Dual Functional Oligodeoxynucleotide Complex for Inhibition of Neuroinflammation

Hu, Jing

11 September 2015

No description available.

Pharmaceuticals

neuroinflammation

NF-kappa B decoy

GS24 aptamer

ICAM-1

VCAM-1

Interaktion von Leukozyten mit endothelialen Adhäsionsmolekülen und ihre Inhibition durch Expression von konkurrierenden Fusionsproteinen / Interactions of leukocytes with endothelial adhesion molecules and the inhibition by expression of competing fusion proeins

Marheineke, Sabine

25 April 2002

No description available.

570 Biowissenschaften, Biologie

Mathematics and Computer Science

VCAM-1

Adhäsionsmoleküle

Zytoskelettverankerung

Oberflächenrezeptoren

Endothel

Transmigration

VCAM-1

adhesion moelecules

cytoskeletal anchorage

surface receptors

endothelium

transmigration

42.15 Zellbiologie

WHC 700 Zellrezeptoren

Zellrezeptoren

Membranrezeptoren

Zelluläre Kommunikation

Selenabhängige Glutathionperoxidasen als Mediatoren und Ziele der intrazellulären Redoxregulation : Identifizierung der GI-GPx als Ziel für Nrf2 und der PHGPx ... / Selenium-dependent glutathione peroxidases as mediators and targets of intracellular redox regulation

Banning, Antje

January 2005

Das 1817 erstmals schriftlich erwähnte Selen galt lange Zeit nur als toxisch und sogar als procancerogen, bis es 1957 von Schwarz und Foltz als essentielles Spurenelement erkannt wurde, dessen biologische Funktionen in Säugern durch Selenoproteine vermittelt werden. Die Familie der Glutathionperoxidasen nimmt hierbei eine wichtige Stellung ein. Für diese sind konkrete Funktionen und die dazugehörigen molekularen Mechanismen, welche über die von ihnen katalysierte Hydroperoxidreduktion und damit verbundene antioxidative Kapazität hinausgehen, bislang nur unzureichend beschrieben worden. <br><br> Die Funktion der gastrointestinalen Glutathionperoxidase (GI-GPx) wird als Barriere gegen eine Hydroperoxidabsorption im Gastrointestinaltrakt definiert. Neuen Erkenntnissen zufolge wird die GI-GPx aber auch in verschiedenen Tumoren verstärkt exprimiert, was weitere, bis dato unbekannte, Funktionen dieses Enzymes wahrscheinlich macht.<br> Um mögliche neue Funktionen der GI-GPx, vor allem während der Cancerogenese, abzuleiten, wurde hier die transkriptionale Regulation der GI-GPx detaillierter untersucht. Die Sequenzanalyse des humanen GI-GPx-Promotors ergab das Vorhandensein von zwei möglichen "antioxidant response elements" (ARE), bei welchen es sich um Erkennungssequenzen des Transkriptionsfaktors Nrf2 handelt. Die meisten der bekannten Nrf2-Zielgene gehören in die Gruppe der Phase-II-Enzyme und verfügen über antioxidative und/oder detoxifizierende Eigenschaften. Sowohl auf Promotorebene als auch auf mRNA- und Proteinebene konnte die Expression der GI-GPx durch typische, in der Nahrung enthaltene, Nrf2-Aktivatoren wie z.B. Sulforaphan oder Curcumin induziert werden. Eine direkte Beteiligung von Nrf2 wurde durch Cotransfektion von Nrf2 selbst bzw. von Keap1, das Nrf2 im Cytoplasma festhält, demonstriert. Somit konnte die GI-GPx eindeutig als Nrf2-Zielgen identifiziert werden. Ob sich die GI-GPx in die Gruppe der antiinflammatorischen und anticancerogenen Phase-II-Enzyme einordnen lässt, bleibt noch zu untersuchen. <br><br> Die Phospholipidhydroperoxid Glutathionperoxidase (PHGPx) nimmt aufgrund ihres breiten Substratspektrums, ihrer hohen Lipophilie und ihrer Fähigkeit, Thiole zu modifizieren, eine Sonderstellung innerhalb der Familie der Glutathionperoxidasen ein. Mit Hilfe eines PHGPx-überexprimierenden Zellmodells wurden deshalb Beeinflussungen des zellulären Redoxstatus und daraus resultierende Veränderungen in der Aktivität redoxsensitiver Transkriptionsfaktorsysteme und in der Expression atheroskleroserelevanter Adhäsionsmoleküle untersucht. Als Transkriptionsfaktoren wurden NF-kB und Nrf2 ausgewählt. Die Bindung von NF-kB an sein entsprechendes responsives Element in der DNA erfordert das Vorhandensein freier Thiole, wohingegen Nrf2 durch Thiolmodifikation von Keap1 freigesetzt wird und in den Kern transloziert. Eine erhöhte Aktivität der PHGPx resultierte in einer Erhöhung des Verhältnisses von GSH zu GSSG, andererseits aber in einer verminderten Markierbarkeit freier Proteinthiole. PHGPx-Überexpression reduzierte die IL-1-induzierte NF-kB-Aktivität, die sich in einer verminderten NF-kB-DNA-Bindefähigkeit und Transaktivierungsaktivität ausdrückte. Auch war die Proliferationsrate der Zellen vermindert. Die Expression des NF-kB-regulierten vaskulären Zelladhäsionsmoleküls, VCAM-1, war ebenfalls deutlich verringert. Umgekehrt war in PHGPx-überexprimierenden Zellen eine erhöhte Nrf2-Aktivität und Expression der Nrf2-abhängigen Hämoxygenase-1 zu verzeichnen. Letzte kann für die meisten der beobachteten Effekte verantwortlich gemacht werden.<br><br> Die hier dargestellten Ergebnisse verdeutlichen, dass eine Modifizierung von Proteinthiolen als wichtige Determinante für die Regulation der Expression und Funktion von Glutathionperoxidasen angesehen werden kann. Entgegen früheren Vermutungen, welche oxidative Vorgänge generell mit pathologischen Veränderungen assoziierten, scheint ein moderater oxidativer Stress, bedingt durch eine transiente Thiolmodifikation, durchaus günstige Auswirkungen zu haben, da, wie hier dargelegt, verschiedene, miteinander interagierende, cytoprotektive Mechanismen ausgelöst werden. Hieran wird deutlich, dass sich "antioxidative Wirkung" oder "oxidativer Stress" keineswegs nur auf "gute" oder "schlechte" Vorgänge beschränken lassen, sondern im Zusammenhang mit den beeinflussten (patho)physiologischen Prozessen und dem Ausmaß der "Störung" des physiologischen Redoxgleichgewichtes betrachtet werden müssen. / Selenium was discovered in 1817 by the Swedish chemist Berzelius and was for a long time considered as being toxic and even procarcinogenic. In 1957, however, Schwarz and Foltz realized that selenium is an essential trace element which elicits its biological functions in mammals as a structural component of selenoproteins among which the family of glutathione peroxidases plays a dominant role. Glutathione peroxidases reduce hydroperoxides to the corresponding alcohols and contribute to the antioxidative capacity of a cell. However, other functions of glutathione peroxidases and the according molecular mechanisms have hardly been described.>br><br> The gastrointestinal glutathione peroxidase (GI-GPx) is believed to build a barrier against the absorption of foodborne hydroperoxides. In addition, GI-GPx expression is increased in different tumors. This indicates further, still unknown, functions of this enzyme.<br> In order to elucidate new possible functions of GI-GPx, especially during carcinogenesis, the transcriptional regulation of GI-GPx was analyzed in more detail. An analysis of the GI-GPx promoter sequence revealed the presence of two putative "antioxidant response elements" (ARE) which are recognition sites for the transcription factor Nrf2. Most of the known Nrf2 target genes either belong to the group of phase-II detoxification enzymes or possess antioxidative and/or detoxifying properties. On promoter level as well as on mRNA- and protein level the expression of GI-GPx was induced by typical Nrf2-activating compounds such as sulforaphane or curcumin that are contained in the diet. A direct involvement of Nrf2 was demonstrated by cotransfection of Nrf2 itself or by cotransfection of Keap1 which retains Nrf2 in the cytosol. Thus, the GI-GPx gene was unequivocally identified as a new target for Nrf2. Whether GI-GPx also belongs in the category of antiinflammatory and anticarcinogenic enzymes remains to be elucidated.<br><br> The phospholipid hydroperoxide glutathione peroxidase (PHGPx) is exceptional among the glutathione peroxidases because of its broad range of substrates, its high lipophilicity, and its ability to modify protein thiols. With PHGPx-overexpressing cells, the influence of PHGPx on the cellular redox state and on resulting changes in the activity of redox-sensitive transcription factors and on the expression of proatherogenic adhesion molecules was analyzed. For this, the redox-sensitive transcription factors NF-kB and Nrf2 were chosen. NF-kB requires free thiols for being able to bind to its responsive element within the DNA, whereas Nrf2 is released from Keap1 and translocates to the nucleus upon a modification of protein thiols. PHGPx-overexpression resulted in an increase in the ratio of GSH to GSSG, in a reduced amount of intracellular protein thiols, and in a diminished proliferation rate. Furthermore, PHGPx-overexpressing cells displayed a reduced IL-1-dependent NF-kB activity as was assessed by a reduced NF-kB DNA-binding ability and activity of a NF-kB-driven reporter gene. In addition, the expression of the NF-kB-dependent vascular cell adhesion molecule (VCAM-1) was also inhibited by overexpression of PHGPx. On the other hand, PHGPx-overexpressing cells displayed an increased activity of Nrf2 that was accompanied by an increased expression of the Nrf2-dependent heme oxygenase-1. Heme oxygenase-1 most likely is responsible for most of the aforementioned effects.<br><br> The data presented here show that a modification of protein thiols can be regarded as an important determinant for the regulation and for the functions of glutathione peroxidases. In contrast to the previous assumption that oxidative processes are always linked to pathologic changes, a moderate oxidative stress seems to have beneficial effects, because it triggers different cytoprotective mechanisms. It can be concluded that the terms "antioxidative effect" or "oxidative stress" cannot simply be restricted to "good" or "bad" processes, but need to be seen in context with the modulated (patho)physiological processes and the degree of "disturbance" of the physiologic redox balance.

Selen

Transkriptionsfaktor

Selenoprotein

Glutathionperoxidase

GI-GPx, PHGPx

Redoxregulation

Nrf2

NF-kB

VCAM-1

selenium

selenoprotein

glutathione peroxidase

GI-GPx

PHGPx

redox regulation

transcription factor

NF-kB

Nrf2

VCAM-1

Life sciences

Identification de nouveaux agents de contraste pour la détection par IRM à haut champ de biomarqueurs dans l'ischémie cérébrale / Identification of new contrast agent for the detection of biomarkers of brain ischemia with MRI

Frechou, Magalie

27 January 2012

Ce travail de thèse s'inscrit dans le cadre d'une collaboration avec le groupe Guerbet. Il visait à caractériser la lésion qui fait suite à un accident vasculaire cérébral (AVC) ischémique en imagerie par résonance magnétique (IRM) grâce à des agents de contraste novateurs. Guerbet et leurs collaborateurs ont développés des USPIO ciblés (ultrasmall superparamagnetic iron oxide), particules de fer couplées à des peptides reconnaissant spécifiquement un biomarqueur. Dans un modèle d’ischémie cérébrale avec reperfusion réalisé chez la souris, nous avons recherché la capacité de ces agents à caractériser la lésion d’une part en terme de type de mort cellulaire par le ciblage de la phosphatidylsérine (PS), marqueur cellulaire externalisé au cours de l’apoptose, et d’autre part en terme de déficit vasculaire par le ciblage de VCAM-1, molécule d’adhésion impliquée dans le processus inflammatoire. En ce qui concerne l’apoptose, nous avons tout d’abord montré par immunohistochimie l’expression de caspase-3 active, marqueur apoptotique, dès 6 heures et jusqu’à 72 heures après l’ischémie. Cependant, en IRM, l’utilisation d’USPIO ciblant la PS (le P03234 et le P03675) n’a pas permis la détection du phénomène apoptotique. Actuellement d’autres agents de contraste de ce type sont en cours de développement chez Guerbet. En ce qui concerne l’inflammation vasculaire, l’étude de l’expression de VCAM-1 par immunohistochimie a montré l’apparition d’un marquage dès 6 heures après l’ischémie avec un maximum à 24 heures. L’utilisation d’un USPIO-VCAM-1 (le P03011) a permis de mettre en évidence sur les images IRM des zones d’hypointensités dans la lésion, ce qui correspond à la présence de particules de fer. L'analyse histologique de ces cerveaux a montré une colocalisation de l’USPIO avec sa cible VCAM-1, ce qui établit la preuve de concept. Ces travaux ont permis mettre en évidence la capacité d’USPIO développés par Guerbet à cibler des marqueurs biologiques, notamment VCAM-1, à la suite d’une ischémie cérébrale. Ceci suggère que ce type d’agent de contraste pourrait être un bon outil clinique pour la caractérisation de la lésion ischémique chez les patients victimes d’AVC. / This work is a collaboration with Guerbet group. It aimed to characterize the lesion that follows an ischemic stroke with magnetic resonance imaging (MRI) by innovative contrast agents. Guerbet developped targeted USPIO (ultrasmall superparamagnetic iron oxide), which are iron particles coupled to peptides which specifically bind a biomarker. In a mouse model of cerebral ischemia-reperfusion, we studied the capacity of these agents to characterize the lesion on the one hand in terms of cellular death by targeting phosphatidylserin (PS), a cellular marker externalized during apoptosis, and on the other hand in terms of vascular deficit by targeting VCAM-1, an adhesion molecule implied in the inflammatory process. Concerning apoptosis, we showed by immunohistochemistry the expression of active caspase-3, an apoptotic marker, between 6 and 72 hours after ischemia. Nevertheless on MRI, the use of USPIO targeting PS (both P03234 and P03675) did not allow us to detect the apoptotic phenomenon. Currently, other PS-targeted contrast agents are developed by Guerbet. Concerning vascular inflammation, the study of VCAM-1 by immunohistochemistry showed an up-regulated expression 6 hours after ischaemia which reached a maximum at 24 hours. VCAM-1-USPIO (P03011) induced a decrease of the MRI signal appearing as hypointense foci in the lesion, which correspond to iron particles. The histological analysis of these brains showed a colocalisation of the USPIO with its target VCAM-1, which establishes the proof of concept. This work showed the capacity of USPIO developed by Guerbet to target biological markers, particularly VCAM-1, following cerebral ischemia. This suggests that this kind of contrast agent could be a good clinical tool to characterize the ischemic lesion in patients suffering from stroke.

Accidents vasculaires cérébraux

Apoptose

Phosphatidylsérine

Ischémie cérébrale

Inflammation

Stroke

Apoptosis

Phosphatidylserin

Cerebral ischemia

Inflammation

An Evaluation of Induced Shear Stress on Endothelial Cellular Adhesion Molecules

Crabb, Edward B

01 January 2019

The pathophysiology of atherosclerotic cardiovascular disease (CVD) is highlighted by vascular dysfunction and low-grade vascular inflammation. Furthermore, the site-specific distribution of atherosclerosis throughout the arterial vasculature is primarily determined by local hemodynamic force. Therefore, this dissertation outlines three experiments designed to investigate the role of acute mental and physical (i.e., aerobic exercise), and vascular wall shear stress (SS) on the inflammatory aspects of atherosclerosis. Chapter 2 examines the effect of acute laboratory-induced mental stress on intracellular pro-inflammatory signaling pathways in peripheral blood mononuclear cells. Chapter 3 investigates the impact of acute laboratory-induced mental stress and maximal aerobic exercise on the concentration of soluble VCAM-1 (sVCAM-1) and CX3CL1/fractalkine (sCX3CL1) in human serum. Lastly, Chapter 4 examines the role of short- (30 min) and long-term (24 hr) low-to-negative oscillating SS (LOSS) and high laminar SS (HLSS) on the expression and secretion (i.e., cleavage) of cell-membrane VCAM-1 and CX3CL1 by human umbilical vein endothelial cell cultures in vitro. Together, these experiments provide evidence that acute psychological stress, maximal aerobic exercise, and HLSS influence vascular inflammation and adhesive properties of the vessel wall. More specifically, the results from Chapter 2 provide evidence that acute mental stress promotes the immune-cell mediated synthesis of pro-inflammatory cytokines in circulation. In addition, Chapter 3 and Chapter 4 demonstrate that the elevations in blood flow and hemodynamic force associated with maximal aerobic exercise, and unidirectional high SS may have the capacity to alter the expression of endothelial-bound cellular adhesion molecules, in part by eliciting their release from the vessel wall.

shear stress

cellular adhesion molecules

VCAM-1

CX3CL1/fractalkine

HUVEC

Cell Biology

Cellular and Molecular Physiology

Exercise Physiology

Exercise Science

Regulation of leukocyte integrin adhesiveness

Hedman, Håkan

January 1995

<p>Diss. (sammanfattning) Umeå : Umeå universitet, 1996, härtill 6 uppsatser</p> / digitalisering@umu

Lymphocytes

Cell Adhesion

Integrins

LFA-1

VLA-4

ICAM-1

VCAM-1

Microvesicles

Protein Kinases

Protein Phosphatases

Alterations in intercellular adhesion molecule 1 (ICAM-1) and vascular cell adhesion molecule 1 (VCAM-1) in human endothelial cells

Habas, Khaled S.A., Shang, Lijun

09 December 2018

Yes / Alterations of Endothelial cells (ECs) play a critical role in different pathogenesis of many serious human diseases, and dysfunction of the vascular endothelium is an indicator for human disorders. Endothelial dysfunction is considered to be an early indicator for atherosclerosis, which is characterised by overexpression of adhesion molecules, including intercellular adhesion molecule-1 (ICAM-1) and vascular cell adhesion molecule-1 (VCAM-1). Hydrogen peroxide (H2O2) released via neutrophils is an important mediator of endothelial cell function. Ambient production of superoxide anion (O2−) and subsequently H2O2 at low levels is critical for regulating endothelial cell functions and proliferation. In this study, we investigated the effects of H2O2 on the expression of adhesion molecules VCAM-1 and ICAM-1 in cultured human umbilical vein endothelial cells (HUVECs). Intracellular superoxide anion production was detected by using p-Nitro Blue Tetrazolium (NBT) assay. Our results showed that administration of 100μM of H2O2 on HUVECs for 2, 6, 12 and 24 h induced a time-dependent increase in ICAM-1 and VCAM-1 mRNA and protein expression levels with a significant increase observed from 6 h. HUVECs exposed to H2O2 exhibit increased O2−, suggesting that H2O2 induced oxidative stress may be a reasonable for atherosclerosis. This increase can be reduced by the flavonoid, N-acetyl cysteine (NAC). The modulation of endothelial cell function through this mechanism may underlie the contribution of H2O2 to the development of vascular disease.

Intercellular adhesion molecule 1(CAM-1)

Hydrogen peroxide (H2O2)

Ativação endotelial na granulomatose com poliangeíte (granulomatose de Wegener) / Endothelial activation in granulomatosis with polyangiits

Dourado, Letícia Barbosa Kawano

24 February 2015

INTRODUÇÃO: Eventos vasculares e imunológicos são centrais na patogênese da granulomatose com poliangeíte (GPA). Moléculas de adesão celular tem papel fundamental no recrutamento de células inflamatórias do sangue para os tecidos. Diferentes leitos vasculares apresentam particularidades na expressão de moléculas de adesão celular explicando talvez parte da especificidade da GPA por determinados órgãos. A elevação no nível sérico de moléculas de adesão celular e aumento da expressão destas em amostras de biópsia renal já foram demonstrados em pacientes com vasculite ANCA associada. No entanto, o fenômeno ainda não foi estudado in situ no pulmão. OBJETIVO: O objetivo deste estudo foi analisar o padrão de expressão endotelial pulmonar de três moléculas de adesão celular na GPA, in situ: molécula de adesão intercelular 1 (ICAM-1), molécula e adesão vascular 1 (VCAM-1) e E-selectina. MÉTODOS: Examinou-se a expressão endotelial de ICAM-1, VCAM-1, E-selectina usando marcação imuno-histoquímica em secções de pulmão fixadas e parafinadas de lesões de GPA (n = 8 casos, 90 secções transversais de vasos analisados). Foram também analisados controles positivos: amostras de pulmão de doença intersticial associada à esclerodermia (SScl) (n = 8 casos, 96 secções transversais de vasos analisados) e controles negativos (n = 9 casos, 90 secções transversais de vasos analisados). A quantificação imuno-histoquímica foi realizada no aumento de 400x usando a técnica de point-counting. RESULTADOS: ICAM-1: A expressão endotelial mediana de ICAM-1 esteve aumentada de forma semelhante na GPA e na SScl (81% and 73%, respectivamente; p = 0.97). A comparação com o grupo controle (26.3%) revelou diferença estatisticamente significativa entre controle e GPA (p <0.001) quanto entre controle e SScl (p = 0.017). VCAM-1: A expressão mediana de VCAM-1 esteve significativamente aumentada na GPA se comparada a SScl (79.5% vs 41.4%; p = 0.012), no entanto, a expressão endotelial de VCAM-1 nos controles também esteve moderadamente aumentada (49.8%) e não houve diferença estatística entre SScl e controles ( p = 0.549) ou entre GPA e controles (p = 0.242). E-selectina: A expressão endotelial mediana de E-selectina esteve aumentada de forma semelhante na GPA e SScl (100% e 88.2%, respectivamente; p = 0.272). A comparação com o grupo controle (13.8%) revelou diferença estatisticamente significativa entre controle e GPA (p < 0.001) e controle e SScl (p = 0.045). CONCLUSÃO: Esses achados evidenciam o fenômeno de ativação endotelial pulmonar in situ em lesões de GPA. O perfil de expressão de moléculas de adesão parece ter particularidades em diferentes doenças a exemplo da maior expressão de VCAM-1 na GPA em relação à SScl. Essas observações contribuem para o conhecimento fisiopatogênico na GPA. / INTRODUCTION: Vascular and immunologic processes are central to the pathogenesis of granulomatosis with polyangiitis (GPA). Endothelial cellular adhesion molecules have a central role in recruiting leukocytes to sites of inflammation. Moreover, different vascular beds are phenotypically and functionally distinct with regard to expression of cellular adhesion molecules. They have been shown to be elevated in sera and in renal biopsies of patients with active ANCA-associated vasculitis. Despite of that, the expression of cellular adhesion molecules has not been studied in situ in the lungs. OBJECTIVE: Within this context, the aim of this study was to analyze the in situ pulmonary endothelial immunohistochemical pattern of expression of three cellular adhesion molecules in GPA: intercellular adhesion molecule 1 (ICAM-1), vascular cell adhesion molecule 1 (VCAM-1) and E-selectin . METHODS: For such, we examined formalin-fixed, paraffin-embedded sections of lung lesions of GPA (n = 8 cases, 90 transverse sections of pulmonary vessels), negative controls which were obtained from autopsies ( n = 9 cases, 90 transverse sections of pulmonary vessels analyzed) and positive controls which were cases of interstitial lung disease associated with systemic sclerosis (SScl) (n = 8 cases, 96 transverse sections of pulmonary vessels). The quantification of the immunohistochemical staining was performed at x400 magnification using the technique of point-counting, previously described. RESULTS: ICAM-1: Median endothelial expression of ICAM-1 was similarly enhanced in GPA and SScl (81% and 73%, respectively; p = 0.97). When compared to controls (26.3%), both GPA (p <0.001) and SScl (p = 0.017) had significantly higher endothelial expression of ICAM-1. VCAM-1: Median endothelial expression of VCAM-1 was significantly enhanced in GPA when compared to SScl (79.5% vs 41.4%; p = 0.012), however the endothelial expression of VCAM-1 in the controls was also moderately enhanced (49.8%) and no statistically significant difference was found between SScl and controls ( p = 0.549) or between GPA and controls (p = 0.242). E-selectin: Median endothelial expression of E-selectin was similarly enhanced in GPA and SScl (100% and 88.2%), respectively; p = 0.272. When compared to controls (13.8%), both GPA (p < 0.001) and SScl (p = 0.045) had significantly higher endothelial expression of E-selectin. CONCLUSION: These observations are evidence of in situ pulmonary endothelial activation in lesions of GPA. The profile of expression of cellular adhesion molecules seems to be particular for each disease state and timing as evidenced by the enhanced expression of VCAM-1 in GPA when compared to SScl. These observations add information to the pathogenetic knowledge of GPA

Cell adhesion molecules

Cell adhesion molecules vascular VCAM-1

E-selectin

Endotélio vascular

Endothelium

Granulomatose com poliangeíte

Granulomatose de Wegener

Granulomatosis with polyangiitis

Moléculas de adesão celular

Selectina-E

Wegener granulomatosis

Ativação endotelial na granulomatose com poliangeíte (granulomatose de Wegener) / Endothelial activation in granulomatosis with polyangiits

Letícia Barbosa Kawano Dourado

24 February 2015

INTRODUÇÃO: Eventos vasculares e imunológicos são centrais na patogênese da granulomatose com poliangeíte (GPA). Moléculas de adesão celular tem papel fundamental no recrutamento de células inflamatórias do sangue para os tecidos. Diferentes leitos vasculares apresentam particularidades na expressão de moléculas de adesão celular explicando talvez parte da especificidade da GPA por determinados órgãos. A elevação no nível sérico de moléculas de adesão celular e aumento da expressão destas em amostras de biópsia renal já foram demonstrados em pacientes com vasculite ANCA associada. No entanto, o fenômeno ainda não foi estudado in situ no pulmão. OBJETIVO: O objetivo deste estudo foi analisar o padrão de expressão endotelial pulmonar de três moléculas de adesão celular na GPA, in situ: molécula de adesão intercelular 1 (ICAM-1), molécula e adesão vascular 1 (VCAM-1) e E-selectina. MÉTODOS: Examinou-se a expressão endotelial de ICAM-1, VCAM-1, E-selectina usando marcação imuno-histoquímica em secções de pulmão fixadas e parafinadas de lesões de GPA (n = 8 casos, 90 secções transversais de vasos analisados). Foram também analisados controles positivos: amostras de pulmão de doença intersticial associada à esclerodermia (SScl) (n = 8 casos, 96 secções transversais de vasos analisados) e controles negativos (n = 9 casos, 90 secções transversais de vasos analisados). A quantificação imuno-histoquímica foi realizada no aumento de 400x usando a técnica de point-counting. RESULTADOS: ICAM-1: A expressão endotelial mediana de ICAM-1 esteve aumentada de forma semelhante na GPA e na SScl (81% and 73%, respectivamente; p = 0.97). A comparação com o grupo controle (26.3%) revelou diferença estatisticamente significativa entre controle e GPA (p <0.001) quanto entre controle e SScl (p = 0.017). VCAM-1: A expressão mediana de VCAM-1 esteve significativamente aumentada na GPA se comparada a SScl (79.5% vs 41.4%; p = 0.012), no entanto, a expressão endotelial de VCAM-1 nos controles também esteve moderadamente aumentada (49.8%) e não houve diferença estatística entre SScl e controles ( p = 0.549) ou entre GPA e controles (p = 0.242). E-selectina: A expressão endotelial mediana de E-selectina esteve aumentada de forma semelhante na GPA e SScl (100% e 88.2%, respectivamente; p = 0.272). A comparação com o grupo controle (13.8%) revelou diferença estatisticamente significativa entre controle e GPA (p < 0.001) e controle e SScl (p = 0.045). CONCLUSÃO: Esses achados evidenciam o fenômeno de ativação endotelial pulmonar in situ em lesões de GPA. O perfil de expressão de moléculas de adesão parece ter particularidades em diferentes doenças a exemplo da maior expressão de VCAM-1 na GPA em relação à SScl. Essas observações contribuem para o conhecimento fisiopatogênico na GPA. / INTRODUCTION: Vascular and immunologic processes are central to the pathogenesis of granulomatosis with polyangiitis (GPA). Endothelial cellular adhesion molecules have a central role in recruiting leukocytes to sites of inflammation. Moreover, different vascular beds are phenotypically and functionally distinct with regard to expression of cellular adhesion molecules. They have been shown to be elevated in sera and in renal biopsies of patients with active ANCA-associated vasculitis. Despite of that, the expression of cellular adhesion molecules has not been studied in situ in the lungs. OBJECTIVE: Within this context, the aim of this study was to analyze the in situ pulmonary endothelial immunohistochemical pattern of expression of three cellular adhesion molecules in GPA: intercellular adhesion molecule 1 (ICAM-1), vascular cell adhesion molecule 1 (VCAM-1) and E-selectin . METHODS: For such, we examined formalin-fixed, paraffin-embedded sections of lung lesions of GPA (n = 8 cases, 90 transverse sections of pulmonary vessels), negative controls which were obtained from autopsies ( n = 9 cases, 90 transverse sections of pulmonary vessels analyzed) and positive controls which were cases of interstitial lung disease associated with systemic sclerosis (SScl) (n = 8 cases, 96 transverse sections of pulmonary vessels). The quantification of the immunohistochemical staining was performed at x400 magnification using the technique of point-counting, previously described. RESULTS: ICAM-1: Median endothelial expression of ICAM-1 was similarly enhanced in GPA and SScl (81% and 73%, respectively; p = 0.97). When compared to controls (26.3%), both GPA (p <0.001) and SScl (p = 0.017) had significantly higher endothelial expression of ICAM-1. VCAM-1: Median endothelial expression of VCAM-1 was significantly enhanced in GPA when compared to SScl (79.5% vs 41.4%; p = 0.012), however the endothelial expression of VCAM-1 in the controls was also moderately enhanced (49.8%) and no statistically significant difference was found between SScl and controls ( p = 0.549) or between GPA and controls (p = 0.242). E-selectin: Median endothelial expression of E-selectin was similarly enhanced in GPA and SScl (100% and 88.2%), respectively; p = 0.272. When compared to controls (13.8%), both GPA (p < 0.001) and SScl (p = 0.045) had significantly higher endothelial expression of E-selectin. CONCLUSION: These observations are evidence of in situ pulmonary endothelial activation in lesions of GPA. The profile of expression of cellular adhesion molecules seems to be particular for each disease state and timing as evidenced by the enhanced expression of VCAM-1 in GPA when compared to SScl. These observations add information to the pathogenetic knowledge of GPA

Endotélio vascular

Granulomatose com poliangeíte

Granulomatose de Wegener

Moléculas de adesão celular

Selectina-E

Cell adhesion molecules

Cell adhesion molecules vascular VCAM-1

E-selectin

Endothelium

Granulomatosis with polyangiitis

Wegener granulomatosis

Rôle de la phospholipase A2 de type V dans le recrutement de leucocytes au foyer inflammatoire

Lapointe, Stéphanie

08 1900

Les phospholipases A2 sécrétées (sPLA2) font partie d’une grande famille d’enzymes impliquées dans la synthèse d’écosanoïdes, de chimiokines et dans l’expression de molécules d’adhérence. Ce groupe comprend dix isoformes différentes (sPLA2-IB, -IIA, -IIC, -IID, -IIE, -IIF, -III, -V, -X et XII) dont la majorité sont surexprimées en présence de molécules pro-inflammatoires telles que l’interleukine-1β (IL-1 β) et le lipopolysaccharide bactérien (LPS). La sPLA2-IIA fut longtemps considérée comme la principale sPLA2 associée à l’inflammation. Toutefois, un nombre grandissant d’études suggère l’implication d’autres isoformes dans la réponse inflammatoire. Étant donné la similarité structurelle des différentes isoformes de sPLA2, la majorité des inhibiteurs présentement disponibles sont non spécifiques et bloquent simultanément plus d’une sPLA2. De ce fait, encore peu de choses sont connues quant au rôle précis de chacune des sPLA2 dans la réponse inflammatoire. Ayant accès à des souris génétiquement modifiées n’exprimant pas la sPLA2-V (sPLA2-V-/-), nous avons donc investigué le rôle spécifique de la sPLA2-V dans le recrutement leucocytaire induit par le LPS, ainsi que sa capacité à moduler l’expression de certaines molécules d’adhérence. Pour ce faire, nous avons utilisé le modèle inflammatoire de la poche d’air sous-cutanée. L’administration de LPS dans la poche d’air de souris contrôles (WT) entraîne un recrutement leucocytaire important. Cet appel de cellules inflammatoires est cependant significativement diminué chez les souris sPLA2-V-/-. De plus, l’expression des molécules d’adhérence VCAM-1 et ICAM-1 est également diminuée chez les souris sPLA2-V-/- comparativement aux souris WT. Nos résultats démontrent donc le rôle important de la sPLA2-V dans le recrutement leucocytaire et l’expression de molécules d’adhérence induits par le LPS, confirmant ainsi l’implication de cette enzyme dans le processus inflammatoire. / Secretory phospholipases A2 (sPLA2s) are well known for their contribution in the biosynthesis of inflammatory eicosanoids. These enzymes also participate in the inflammatory process by regulating chemokine production and protein expression of adhesion molecules. The majority of sPLA2 isoforms are up-regulated by proinflammatory stimuli such as bacterial lipopolysaccharide (LPS), which predominantly increases the expression of group V sPLA2 (sPLA2-V). Furthermore, it has recently been shown that sPLA2-V is a critical messenger in the regulation of cell migration during allergic airway responsiveness. Herein, we investigated the effect of sPLA2-V on LPS-mediated leukocyte recruitment and its capacity to modulate adhesion molecule expression. We conducted our study in the murine air pouch model, using sPLA2-V null mice (sPLA2-V-/-) and control wild-type (WT) littermates. We observed that LPS (1 μg/mL)-mediated leukocyte migration in sPLA2-V-/- was attenuated by 52 and 86% after 6 and 12 hours of treatment, respectively, as compared to WT mice. In WT mice, treatment with the cell-permeable sPLA2 inhibitor (12-epi-scalaradial; SLD) reduced LPS-mediated leukocyte recruitment by 67%, but had no additional inhibitory effect in sPLA2-V-/- mice. Protein analyses from the air pouch skin were carried out upon LPS-challenge, and the expression of intercellular adhesion molecule (ICAM)-1 and vascular cell adhesion molecule (VCAM)-1 were both significantly reduced in sPLA2-V-/- mice as compared to control WT mice. Together, our data demonstrate the role of sPLA2-V in LPS-induced ICAM-1 and VCAM-1 protein overexpression and leukocyte recruitment, supporting the contribution of sPLA2-V in the development of inflammatory innate immune responses.

Leucocytes

sPLA2 -V

lipopolysaccharide

Inflammation

12-épi-scalaradial

Leukocytes

vascular cell adhesion molecule-1

intercellular adhesion molecule-1

inflammation