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Investigation of inhibitors of polysialyltransferase as novel therapeutics for neuroblastoma. Development of in vitro assays to assess the functionality and selectivity of novel small-molecule inhibitors of polysialyltransferases for use in neuroblastoma therapySaeed, Rida F. January 2015 (has links)
Polysialic acid is aunique carbohydrate that decorates the surface of the neural cell adhesion molecule. Polysialic acidis an onco-developmental antigen, expressed in tumours principally of neuroendocrine origin, notably neuroblastoma,strongly correlating with invasion and metastasis. Polysialylation is regulated by two polysialyltransferase enzymes, PST(ST8SiaIV)and STX(ST8SiaII),withSTX dominant in cancer. Post-development polysialic acid expression is only found at low levels in the brain, thus this could be a novel target for cancer therapy. It is hypothesized that inhibition of polysialyltransferasecould lead to control of tumour dissemination and metastasis.The aims of this thesis were to develop tools and in vitro assays to screen novel polysialyltransferaseinhibitors. A panel of tumour cell lines were characterised in terms of growth parameters (using the MTT assay) and polysialic acid expression. This includes a pair of isogenic C6 rat glioma cells (C6-STX and C6-WT) and naturally polysialic acid expressing neuroblastoma cells(SH-SY5Y). Following this, an in vitro assay was validated to screen modulation of polysialic acid expression by removing pre-existing polysialic acid expression using endoneuraminidase N and evaluated the amount of re-expression of polysialic acid using immunocytochemistry. Then, a functional assay was developed and validated for invasion, the matrigel invasion assay. Cytidine monophosphate (tool compound) significantly reduced polysialic acidsurface expression and invasion. A panel of six novel polysialyltransferase inhibitors was screened for cytotoxicity, polysialic acidsurface expression and invasion. Of the potential polysialyltransferase inhibitorsevaluated, ICT3176 and ICT3172 were identified from virtual screening of Maybridge library and were emerged as the most promising inhibitors, demonstrating significant (p<0.05)reduction in cell-surface polysialic acidre-expression and invasion in polysialic acid expressing cells.Furthermore, the specificity of compounds for polysialyltransferase (α-2,8-sialyltransferase) over othermembers of the wider sialyltransferase family (α-2,3-and α-2,6-sialyltransferases) was confirmed using differential lectin staining. These results demonstrated that small molecule inhibitors as STX is possible and provides suitable in vitrocell based assays to discovery more potent derivatives.
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Characterization of the interaction between Basigin and the pattern recognition receptor TLR4Brown, Josephine Michelle 01 January 2016 (has links)
Toll-like receptors (TLRs) are a major group of pattern recognition receptors expressed on the surface of immune cells that recognize molecular patterns associated with all classes of pathogenic microorganisms. TLR4 recognizes the lipopolysaccharide component of Gram-negative bacterial cell walls and is the only TLR known to induce signaling through both the MyD88 and TRIF pathways. Basigin, a ubiquitous cell adhesion molecule, is a member of the immunoglobulin superfamily that has the ability to influence cell signaling mediated by the MyD88 and TRIF pathways, the same signaling pathways induced by the TLR4 receptor protein. Analysis of the Basigin protein sequence indicates the presence of a hydrophilic glutamate residue within the hydrophobic transmembrane domain, but no consensus binding sites for MyD88 or TRIF. The purpose of this study was to determine if Basigin uses TLR4 for signal transduction. It is hypothesized that Basigin interacts with TLR4 and that the glutamate residue plays a role in the interaction. Enzyme-linked immunosorbent binding assays were performed using endogenous TLR4 and recombinant Basigin proteins. These analyses demonstrated that binding of Basigin to TLR4 was significantly greater than that of the control protein and that the glutamate residue in the Basigin transmembrane domain does play a role in the interaction between Basigin and TLR4 as well as many hydrophobic residues in the Basigin transmembrane domain. The data suggest that Basigin interacts with TLR4 to influence signaling cascades using MyD88 and TRIF.
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HIV-1 Tat Protein-Induced VCAM-1 Expression in Human Pulmonary Artery Endothelial Cells and Its SignalingLiu, Kai, Chi, David S., Li, Chuanfu, Hall, H. Kenton, Milhorn, Denise M., Krishnaswamy, Guha 01 August 2005 (has links)
Expression of cell adhesion molecule in endothelial cells upon activation by human immunodeficiency virus (HIV) infection is associated with the development of atherosclerotic vasculopathy. We postulated that induction of vascular cell adhesion molecule-1 (VCAM-1) by HIV-1 Tat protein in endothelial cells might represent an early event that could culminate in inflammatory cell recruitment and vascular injury. We determined the role of HIV-1 Tat protein in VCAM-1 expression in human pulmonary artery endothelial cells (HPAEC). HIV-1 Tat protein treatment significantly increased cell-surface expression of VCAM-1 in HPAEC. Consistently, mRNA expression of VCAM-1 was also increased by HIV-1 Tat protein as measured by RT-PCR. HIV-1 Tat protein-induced VCAM-1 expression was abolished by the NF-κB inhibitor pyrrolidine dithiocarbamate (PDTC) and the p38 MAPK inhibitor SB-203580. Furthermore, HIV-1 Tat protein enhanced DNA binding activity of NF-κB, facilitated nuclear translocation of NF-κB subunit p65, and increased production of reactive oxygen species (ROS). Similarly to VCAM-1 expression, HIV-1 Tat protein-induced NF-κB activation and ROS generation were abrogated by PDTC and SB-203580. These data indicate that HIV-1 Tat protein is able to induce VCAM-1 expression in HPAEC, which may represent a pivotal early molecular event in HIV-induced vascular/pulmonary injury. These data also suggest that the molecular mechanism underlying the HIV-1 Tat protein-induced VCAM-1 expression may involve ROS generation, p38 MAPK activation, and NF-κB translocation, which are the characteristics of pulmonary endothelial cell activation.
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Alterations in intercellular adhesion molecule 1 (ICAM-1) and vascular cell adhesion molecule 1 (VCAM-1) in human endothelial cellsHabas, Khaled S.A., Shang, Lijun 09 December 2018 (has links)
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.
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Rôles de DICAM et ALCAM dans la migration des lymphocytes vers le système nerveux centralGrasmuck, Camille 04 1900 (has links)
La perturbation de la barrière hémo-encéphalique et la migration des lymphocytes de la périphérie vers le système nerveux central (SNC) sont des événements précoces dans la formation des lésions cérébrales de sclérose en plaques (SEP). Dans ce contexte, les lymphocytes passent au travers des barrières hémo-encéphalique ou hémo-méningée pour atteindre le SNC et sont des contributeurs importants dans l’inflammation et les dommages tissulaires. Pour migrer à travers les barrières du SNC, les lymphocytes pathogéniques expriment des molécules d’adhérence. Identifier les acteurs clés à la migration des lymphocytes pathogéniques en estimant la contribution des molécules d’adhérence dans ce processus est la prochaine étape pour le développement de thérapies pour traiter la SEP. L’objectif de ce projet est d’explorer le rôle de deux molécules d’adhérence que sont ALCAM (de l’anglais : activated leukocytes cell adhesion molecule) et DICAM (de l’anglais : dual immunoglobulin domain containing cell adhesion molecule) dans la migration des lymphocytes pathogéniques vers le SNC pendant la SEP. Notre objectif principal se subdivise en deux sous-objectifs. En premier, notre but est de caractériser le rôle d’ALCAM dans le passage des lymphocytes B à travers les barrières du SNC dans un contexte neuroinflammatoire. En second, nous explorons le rôle de DICAM dans la migration des lymphocytes T auxiliaires 17 (TH17) vers le SNC en neuroinflammation. Nous faisons l’hypothèse qu’ALCAM contribue à la migration des lymphocytes B vers le SNC et que DICAM est impliqué dans la migration des lymphocytes TH17 à travers la barrière hémo-encéphalique pendant la SEP. Ces molécules d’adhérence seraient alors impliquées dans la pathogenèse de la SEP et seraient de potentielles cibles thérapeutiques pour traiter cette maladie.
Nous avons d’abord utilisé une combinaison de spectrométrie de masse, PCR quantitative, cytométrie de flux et microscopie afin d’explorer l’expression de chacune de ses deux molécules d’adhérence sur les lymphocytes d’intérêt périphériques ex vivo ou différenciés in vitro. Des analyses en cytométrie en flux et microscopie nous ont permis de caractériser leur expression dans le sang périphérique et dans les lésions cérébrales de personnes atteintes de SEP. Ensuite, les expériences d’adhérence en flux et de migration in vitro effectuées en déplétant la molécule d’adhérence d’intérêt ont permis de mettre en évidence leur rôle dans différentes étapes de la migration des lymphocytes à travers les cellules endothéliales des barrières du SNC. Pour finir, le traitement de plusieurs modèles murins de SEP, appelés EAE (de l’anglais : experimental autoimmune encephalomyelitis), avec des anticorps bloquant anti-ALCAM ou anti-DICAM ont permis d’explorer le potentiel effet de tels traitements sur la sévérité de la maladie.
Dans la première étude, nos résultats montrent qu’ALCAM est préférentiellement exprimée par les lymphocytes B pro-inflammatoires, mémoires et effecteurs au potentiel pathogénique. En tant que molécule d’adhérence, ALCAM contribue à leur migration à travers les cellules endothéliales des barrières hémo-encéphalique et hémo-méningée chez la souris et l’humain. De plus, nos expériences ont permis de montrer que la fréquence de lymphocytes B ALCAM+ est augmentée dans le sang périphérique des personnes atteintes de SEP et ces cellules sont aussi présentes dans les lésions et les infiltrats méningées en SEP. Finalement, bloquer ALCAM in vivo réduit la sévérité de la maladie EAE en diminuant l’infiltration des lymphocytes B au SNC.
Dans la seconde étude, nous avons montré que parmi les sous-types de lymphocytes TH, DICAM est préférentiellement exprimée par les lymphocytes TH17. Dans les lésions de SEP, DICAM et son ligand αVβ3 co-localisent avec des marqueurs de cellules endothéliales suggérant que ces deux molécules pourraient être présentées à la lumière des vaisseaux aux lymphocytes TH17 circulants. Dans le sang périphérique, la fréquence de lymphocytes T CD4+ exprimant DICAM est augmentée chez les personnes atteintes de SEP et cette augmentation corrèle avec l’activité de la maladie. Nos expériences ont montré que DICAM est impliquée dans l’adhérence, l’arrêt et la diapédèse des lymphocytes TH17 à travers les cellules endothéliales de la barrière hémo-encéphalique in vitro et in vivo. Finalement, le traitement de souris EAE avec un anticorps bloquant DICAM permet de réduire la sévérité de la maladie et diminue la migration des lymphocytes TH17 vers le SNC.
Nos résultats indiquent un rôle d’ALCAM dans la migration des lymphocytes B et que DICAM, préférentiellement exprimé par les TH17, médie leur migration vers le SNC. Bloquer ALCAM ou DICAM sont deux stratégies permettant de réduire l’accès au SNC de différents sous-types de cellules pathogéniques pendant la neuroinflammation. Ainsi, elles sont toutes deux de potentielles cibles thérapeutiques pour réduire la sévérité et la progression de la SEP. / Disruption of the blood-brain barrier and migration of lymphocytes from the periphery to the central nervous system (CNS) are early events in lesion formation during multiple sclerosis (MS). Lymphocytes readily cross the blood-brain barrier (BBB) and the blood-meningeal barrier (BMB) to infiltrate the CNS and are important contributors to inflammation and tissue damage. To migrate through the brain barriers, pathogenic lymphocytes express adhesion molecules. Identifying key players in lymphocyte migration by understanding the role of adhesion molecules is the next step to develop novel therapies to treat MS. The objective of this project is to explore the role of two distinct adhesion molecules ALCAM (activated leukocytes cell adhesion molecule) and DICAM (dual immunoglobulin domain containing cell adhesion molecule) in pathogenic lymphocytes migration to the CNS during MS. This thesis subdivides in two main objectives. First, we aim to characterize ALCAM role in B lymphocyte migration to the CNS during neuroinflammation. Second, we aim to explore DICAM role in T helper 17 (TH17) lymphocytes migration to the CNS in neuroinflammation. We hypothesized that ALCAM plays a role in B lymphocytes migration to the CNS during MS and that DICAM is involved in TH17 lymphocytes migration through the blood-brain barrier during MS. Those adhesion molecules might be involved in MS pathogenesis and therefore could become new therapeutic targets to treat MS.
We first used mass spectrometry, quantitative PCR, flow cytometry and confocal microscopy to explore expression profiles of ALCAM and DICAM by peripheral lymphocytes subpopulations ex vivo and differentiated in vitro. Flow cytometry and confocal microscopy analysis also revealed how those adhesion molecules are expressed by lymphocytes in peripheral blood and brain lesions of people living with MS. Then, we performed flow adhesion and migration assay of lymphocytes depleted for the adhesion molecule of interest allowing us to address their role in multitstep migration process through brain barriers endothelial cells. Finally, using five distinct murine experimental autoimmune encephalomyelitis models (EAE), we explored how blocking ALCAM or DICAM in vivo could affect lymphocytes migration to the SNC and disease severity.
In the first manuscript, we described that ALCAM is preferentially expressed by B lymphocytes with memory, pro-inflammatory and effector phenotypes. Functionally, ALCAM is involved in B lymphocyte migration through both the BBB and the BMB in mouse and human. Interestingly, we showed that ALCAM expressing B lymphocytes are increased in peripheral blood of people living with MS and they are recovered in meningeal and parenchymal MS lesions. Last, blocking ALCAM in vivo alleviates EAE severity by reducing B lymphocyte infiltration to the CNS.
In the second manuscript, we showed that TH17 lymphocytes preferentially express DICAM and can adhere both to DICAM and its ligand αVβ3. Moreover, DICAM and αVβ3 are both overexpressed by inflamed brain endothelial cells. In MS lesions, we described that both molecules colocalize with endothelial cell markers suggesting that it could be presented to the vessel lumen to the circulating TH17 lymphocytes. In peripheral blood, we showed that DICAM+ memory CD4+ T lymphocytes frequency is increased in people living with MS and it correlates with active form of the disease. Then, we described DICAM as a player in TH17 lymphocyte adhesion, arrest and migration through BBB endothelial cells in vitro and in vivo. Last, we showed that treating mice with a neutralizing DICAM antibody in several distinct models of EAE, reduced disease severity and TH17 cell migration to the SNC.
Our data provide evidence of the role of ALCAM in memory B lymphocyte migration and that DICAM is preferentially expressed by TH17 cells and mediate their migration to the CNS during neuroinflammation. Collectively, our findings indicate that blocking ALCAM or DICAM are two ways to restrict different pathogenic cells access to the CNS during neuroinflammation and thus potentially to reduce the severity and worsening of a disease like MS.
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Rôle de la phospholipase A2 de type V dans le recrutement de leucocytes au foyer inflammatoireLapointe, Stéphanie 08 1900 (has links)
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.
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Inhibition of Retinoic Acid Receptors Results in Defasciculation of the Trigeminal Nerve in Xenopus laevisThompson, Jeremy 09 May 2013 (has links)
The anatomy of the cranial peripheral nervous system has been studied for over a century, yet surprisingly little is known about how the nerves are guided to their targets. The study of the development of these nerves has important implications for our understanding of craniofacial anomalies and possible treatments for both injury and genetic disorders of nerve development such as Goldenhar-Gorlin syndrome. We have discovered that retinoic acid (RA) may play a role in the development of the trigeminal nerve. Inhibition of retinoic acid receptors (RAR) results in trigeminal nerves that become unbundled or defasciculated in the eye region. To further understand how RA is affecting trigeminal development we searched for genes downregulated in response to RAR inhibition by the inhibitor BMS-453 and have identified neurotrophin-3 (NT-3), activated leukocyte cell adhesion molecule (ALCAM) and Semaphorin 4B (Sema4B). We have analyzed the expression patterns of Sema4B and NT-3 by in situ hybridization and have found NT-3 expression in the eye and Sema4B in the embryonic target of the trigeminal nerve, lens of the eye and in the pharyngeal arches. ALCAM has been analyzed via qRT-PCR and its transcription is downregulated just prior to the observed defasciculation phenotype. The pattern of expression of these genes combined with known expression of NT-3 receptors allows us to suggest a model whereby RA signaling regulates Sema4B, ALCAM and NT-3, which support the survival, guidance and fasciculation of the trigeminal nerve. This work has the potential to better understanding of the complex nature of cranial nervous system development.
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Rôle de la phospholipase A2 de type V dans le recrutement de leucocytes au foyer inflammatoireLapointe, Stéphanie 08 1900 (has links)
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.
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Prognostic Role of a Multimarker Analysis of Circulating Tumor Cells in Advanced Gastric and Gastroesophageal AdenocarcinomasKubisch, Ilja, de Albuquerque, Andreia, Schuppan, Detlef, Kaul, Sepp, Schaich, Markus, Stölzel, Ulrich 20 May 2020 (has links)
Objective: We aimed to assess the prognostic value of circulating tumor cells (CTC) in patients with advanced gastric and gastroesophageal adenocarcinomas. Methods: The presence of CTC was evaluated in 62 patients with advanced gastric and gastroesophageal adenocarcinomas before systemic therapy and at follow-up through immunomagnetic enrichment for mucin 1- and epithelial cell adhesion molecule (EpCAM)-positive cells, followed by real-time RT-PCR of the tumor-associated genes KRT19 , MUC1 , EPCAM , CEACAM5 and BIRC5 . Results: The patients were stratified into groups according to CTC detection (CTC negative: with all marker genes negative; CTC positive: with at least 1 of the marker genes positive). Patients who were CTC positive at baseline had a significantly shorter median progression-free survival (PFS; 3.5 months, 95% CI: 2.9–4.2) and overall survival (OS; 5.8 months, 95% CI: 4.5–7.0) than patients lacking CTC (PFS 10.7 months, 95% CI: 6.9–14.4, p < 0.001; OS 13.3 months, 95% CI: 8.0–18.6, p = 0.003). Alterations in the marker profile during the course of chemotherapy were not predictive of clinical outcome or response to therapy. Yet, a favorable clinical response depended significantly on CTC negativity (p = 0.03). Conclusion: Our data suggest that the presence of CTC is a major predictor of outcome in patients with gastric and gastroesophageal malignancies.
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ALCAM : cell adhesion molecule or tight junction? The characterization of its role in the context of neuroinflammationLécuyer, Marc-André 08 1900 (has links)
But : La perte de l’intégrité de la barrière hémo-encéphalique (BHE) est l’une des caractéristiques principales de la sclérose en plaques. Cette augmentation de la perméabilité est associée à une désorganisation des molécules de jonction serrée et à une augmentation de l’expression de molécules d’adhérence essentielles à l’extravasation des cellules immunitaires. Identifier de nouvelles molécules impliquées dans ce processus est donc crucial pour le développement de nouvelles thérapies contre la sclérose en plaques visant à promouvoir l’intégrité de la BHE et à diminuer la migration des leucocytes dans le système nerveux central (SNC) au cours du processus neuro-inflammatoire. Dans cette étude, le rôle spécifique de la molécule d’adhérence ALCAM, qui est exprimé à la surface des cellules endothéliales de la BHE (CE-BHE) et de certains sous-types de leucocytes, a été évalué.
Méthodologie : À l’aide d’une analyse protéomique exhaustive, notre laboratoire a identifié ALCAM comme étant une molécule d’adhérence surexprimée par les CE-BHE mises en culture dans un milieu pro-inflammatoire. Dans le but d’étudier le rôle spécifique d’ALCAM durant la diapédèse leucocytaire, nous avons induit chez des souris de type sauvages et des souris ALCAM déficientes l’encéphalite auto-immune expérimentale (EAE), le modèle animal de la sclérose en plaques. Le rôle d’ALCAM a aussi été étudié à l’aide d’un système d’adhérence sous flux laminaire. Cet appareil, qui imite un capillaire cérébral, permet de suivre en temps réel le mouvement des leucocytes, soumis à une pression physiologique, dans un tube couvert à sa base par des CE-BHE.
Résultats : En utilisant ce système d’adhérence, j’ai pu démontrer que des anticorps dirigés contre ALCAM réduisent de façon significative le roulement et l’adhérence de monocytes CD14+ humains à la surface de CE-BHE. Par ailleurs, ces anticorps préviennent de façon marquée la diminution de la vitesse moyenne des cellules au cours de l’expérience. Par le fait même, j’ai aussi observé une réduction significative de l’extravasation des monocytes traités avec de l’anti-ALCAM au travers de CE-BHE dans un modèle statique de migration. Subséquemment, j’ai démontré que ces monocytes migrent plus rapidement et en plus grand nombre au travers d’une barrière constituée de cellules endothéliales méningées à comparer à des CE-BHE. Bien que des observations similaires ont été effectuées en utilisant des lymphocytes T CD4+ humains ex vivo, j’ai été incapable de reproduire ces résultats à l’aide de cellules Th1 et Th17 réactivées in vitro.
Par opposition à nos données in vitro, j’ai découvert que les souris déficientes en ALCAM développent une EAE active plus sévère que celle observée chez des souris de type sauvages. Cette EAE est par ailleurs associée à une infiltration périvasculaire de lymphocytes T pro-inflammatoires et de monocytes/macrophages de type M1 plus marqué chez les souris ALCAM déficientes. L’induction d’une EAE par transfert adoptif, dans laquelle des cellules immunitaires de type sauvage réactivées par du MOG sont injectées à des souris déficientes en ALCAM, suggère que la pathophysiologie observée durant l’EAE active serait liée à l’absence d’ALCAM au niveau de la BHE. Une caractérisation de la barrière des souris ALCAM déficientes non immunisées a par la suite révélé une réduction de l’expression de certaines molécules de jonction serrée. Une analyse plus poussée a par ailleurs démontré qu’ALCAM est lié indirectement à des molécules de jonction serrée des CE-BHE, ce qui expliquerait l’augmentation de la perméabilité de celle-ci chez les souris déficientes en ALCAM. Une analyse de la perméabilité intercellulaire de la BHE effectuée in vitro a d’autre part corrélé ces résultats.
Conclusion : Collectivement, nos données prouvent qu’ALCAM joue un rôle prépondérant dans la diapédèse des monocytes, mais pas des lymphocytes Th1 et Th17 au travers de la BHE. Par ailleurs, nos résultats suggèrent qu’ALCAM remplit une fonction biologique cruciale favorisant le maintien de l’intégrité de la BHE en agissant comme molécule adaptatrice intermédiaire entre les molécules de jonction serrées et le cytosquelette. De cette façon, l’absence d’ALCAM au niveau des CE-BHE promeut indirectement le recrutement de leucocytes pro-inflammatoires dans le SNC des souris atteintes de l’EAE en augmentant la perméabilité des vaisseaux sanguins de la BHE. / Aim: The loss of blood-brain barrier (BBB) integrity is a hallmark of multiple sclerosis. It is associated with a disorganization of junctional molecules and an upregulation of cell adhesion molecules essential for immune cell transmigration. Identifying novel key players involved in this process is thus crucial for the development of MS therapies aimed at promoting BBB integrity and decreasing leukocytes trafficking into the central nervous system (CNS) during neuroinflammation. In this study, the specific role of the adhesion molecule ALCAM, found on BBB endothelial cells (BBB-ECs) and subsets of leukocytes, was assessed.
Methods: We first identified ALCAM as an important molecule upregulated during inflammation in a proteomic screen of in vitro cultured primary human BBB-ECs. In order to study the effects of ALCAM on leukocyte transmigration, both active and passive experimental autoimmune encephalomyelitis (EAE) was induced in ALCAM KO and WT animals. The specific role of ALCAM during leukocyte transmigration was also assessed using a modified adhesion assay under sheer-stress, in which leukocytes flow across a capillary-like channel lined with a monolayer of BBB-ECs under physiological pressure.
Results: Using the modified adhesion assay, we demonstrated that anti-ALCAM blocking antibodies significantly reduce the rolling and the adhesion of human CD14+ monocytes interacting with primary human BBB-ECs, as well as prevent their overall decrease in velocity. Concurrently, we also observed a significant reduction in the migration of ex vivo CD14+ monocytes, across a monolayer of human BBB-ECs. These monocytes also migrated more rapidly and in higher number across meningeal endothelial cells, as compared to BBB-ECs. While similar observations were made using ex vivo CD4+ T lymphocytes, we failed to reproduce these results using in vitro activated Th1 and Th17 cells. In opposition to our in vitro data, ALCAM KO mice developed a more severe active EAE associated with a significant increase in perivascular infiltration of pro-inflammatory lymphocytes (Th1/Th17) and M1 monocytes/macrophages, as compared to WT controls. In addition, EAE transfer experiments, in which ALCAM KO mice received WT MOG-reactivated splenocytes, suggested that the pathophysiology observed in active EAE was linked to the absence of ALCAM on BBB-ECs. Phenotypic characterization of un-immunized ALCAM KO mice revealed a reduced expression of BBB junctional proteins. Further analysis showed that ALCAM is indirectly associated with tight junction molecules of the BBB-ECs, which explains the increased CNS parenchymal blood vessel in vivo permeability in ALCAM KO animals. Correlating with these data, primary culture of mouse brain BBB-ECs was shown to possess a lower TEER and an increased permeability coefficient.
Conclusion: Collectively, our data provide evidence of the implication of ALCAM in monocyte transmigration, but not Th1 or Th17 lymphocyte diapedesis across CNS endothelium. Our results also point to a biologically crucial function of ALCAM in maintaining BBB integrity by acting as an adaptor molecule between tight junctions and the cytoskeleton. As such, the absence of ALCAM at the level of BBB-ECs indirectly promotes the recruitment of pro-inflammatory leukocytes in the CNS of EAE animals by increasing the BBB vessels permeability.
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