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Onkolytische Virotherapie : Virus-vermittelte Expression von MCP-1 oder ß-Galaktosidase in Vaccinia-Virus-kolonisierten Tumoren führt zu einer erhöhten Tumorregression / Oncolytic virotherapy : The virus encoded coexpression MCPI and beta galactosidase in vaccinia virus colonized tumor xenografts resulted in enhanced tumor rejectionSeubert, Carolin January 2010 (has links) (PDF)
Ungeachtet der enormen Entwicklung in Krebsdiagnostik und -Therapie in den letzten Jahren, sind vollständige Heilungsaussichten weiterhin gering und die aktuellen Behandlungsmethoden oftmals mit schwerwiegenden Nebeneffekten verbunden. Aufgrund dessen sind alternative Behandlungsmethoden unbedingt erforderlich und führten zu einer zunehmenden Bedeutung des Vaccinia-Virus als onkolytisches Virus in der Krebstherapie. In der vorliegenden Arbeit wurden zwei mögliche Therapieansätze zur Verstärkung der onkolytischen Effekte in humanen Tumormodellen untersucht. Die Kombination einer gene-directed enzyme prodrug Therapie (GDEPT) mit dem onkolytischen Vaccinia-Virus GLV 1h68 sollte zur Selektivitätssteigerung eines ß-Galaktosidase-aktivierbaren, cytotoxisch-aktiven Drugs führen. Darüber hinaus diente das für MCP-1 codierende Vaccinia-Virus GLV-1h80, zielend auf eine Cytokin-vermittelten Immuntherapie, als Vektor zur spezifischen Beeinflussung des intratumoralen Chemokin-Netzwerks. Im Zuge der GDEPT wurde in dieser Arbeit ein, durch enzymatische Deglykosylierug aktivierbares Prodrug, basierend auf dem cytotoxischem Antibiotikum Duocarmycin SA verwendet. Durch eine Infektion mit GLV-1h68 und einer resultierenden Expression des aktivierenden Enzyms ß-Galaktosidase, sollte eine Umwandlung des Prodrugs in ein cytotoxisches Drug erfolgen. In vitro Infektionsstudien zeigten ein nahezu identisches Replikationsverhalten des Vaccinia-Virus GLV-1h68 und des als Kontrollvirus dienenden rVACV GLV-1h43 in humanen GI-101A-Brustkrebszellen. Die Expression der beiden Reporter-Gene Ruc-GFP sowie ß-Galaktosidase konnten auf Protein-Ebene und mittels RT-PCR nach Infektion mit GLV-1h68 nachgewiesen werden. GLV-1h43-Infektion von GI-101A-Zellen führte zu GFP-Expression, jedoch nicht zur Expression des Enzyms ß Galaktosidase. Untersuchung der Enzym-Aktivität in Zelllysaten und Zellkultur-Überständen zeigten nach Infektion mit GLV 1h68 steigende Menge zellulär assoziierter und freier ß-Galaktosidase. Des Weiteren wurde durch Koinkubation von GI-101A-Zellen mit Virus-freien, ß Galaktosidase-haltigen Zelllysaten bzw. –überständen und Prodrug eine Aktivierung des Prodrugs durch das Virus codierte Enzym nachgewiesen. Diese Koinkubation führte zur Abtötung der Zellen. Nach Inkubation mit Proben mock- oder GLV 1h43-infizierter Zellen konnte keiner Veränderung der Proliferationsrate von GI-101A-Zellen gefunden werden. Kombinierte Behandlung von GI 101A-Zellen mit Viren des Stammes GLV 1h68 und Prodrug führte zu starken Synergieeffekten bei der Abtötung der Zellen und wies einen Bystander Effekt der Kombinationstherapie nach. Dieser konnte in 4 weiteren humanen und 2 Hunde-Brustkrebszellen bestätigt werden. Der erzielte Bystander-Effekt zeigt, dass es nach Virus-induzierter ß-Galaktosidase-Expression in GLV 1h68-infizierten Zellen zu einer enzymatischen Spaltung des Prodrugs in das cytotoxische seco-Analogon des Antibiotikums Duocarmycin SA kommt. Durch die Membrangängigkeit des Drugs konnte auch in angrenzenden uninfizierten Zellen eine Wirkung erzielt werden. Anhand von Expressionsanalysen an Apoptose-assoziierten Proteinen, wie PARP und Caspasen, wurde eine Wirkung des Prodrugs über den intrinsischen Apoptose-Signalweg nachgewiesen. In athymischen Nude-Mäusen durchgeführte Replikationsanalysen und X-Gal-Färbungen GLV 1h68 infizierter Tumore nach Prodrug-Behandlung zeigten, dass GLV-1h68 ungeachtet der simultanen Behandlung mit Prodrug im Tumorgewebe repliziert und es nicht zur Anreicherung lacZ-negativer Virusmutanten kommt. Es konnten, durch Prodrug-Behandlung und einer simultanen Expression aktiver ß Galaktosidase, starke synergistische Effekte und eine signifikante Steigerung der Tumorregression erzielt werden. Da die Kombinationstherapie zu keinerlei Unterschieden in Gewicht und Gesundheitszustand behandelter Versuchstiere führte, konnte eine systemische Toxizität außerhalb des Tumorgewebes ausgeschlossen werden. Verschiedene Zelllinien weisen Unterschiede in ihrer Sensitivität gegenüber der onkolytischen Aktivität von Vaccinia-Virus GLV-1h68 auf. Während einige Zelllinien trotz Virus-Behandlung unverändertes Proliferationsverhalten zeigen (non- oder poor-responder), führt diese Behandlung in anderen Zelllinien zu einer vollständigen Tumorregression (responder). In Anbetracht dieser Unterschiede wurden in dieser Arbeit die Effekte einer induzierten Expression des murinen Chemokins MCP-1 in GI-101A-Tumoren (responder) und HT29-CBG-Tumoren (poor-responder) untersucht. MCP-1 zeichnet sich durch seine chemotaktischen Eigenschaften gegenüber mononukleärer Zellen aus und führt zu pleiotropen Tumor-Effekten. Replikationsstudien am Virus GLV-1h80 und des als Kontrollvirus dienenden rVACV GLV-1h68 zeigten, dass aus der Expression des Fremd-Gens mcp-1 sowohl in vitro als auch in vivo keinerlei negativen Effekte auf das Replikationsverhalten in humanen GI-101A- und HT29-CBG-Zellen resultieren. Durch Real-time Monitoring der GFP-Expression im Tumorgewebe lebender Tiere konnte zunächst eine mit dem Infektionsverlauf zunehmende Signalstärke beobachtet werden, welche dann 42 dpi an Intensität verlor. Toxizität und schädliche Nebeneffekte durch Infektion mit den beiden rVACV konnten anhand der viralen Titer in den Organen der Maus ausgeschlossen werden. Die Titer wiesen auf eine ausschließlich auf das Tumorgewebe begrenzte Replikation der Viren nach Injektion in Tumor-tragende Tiere hin. Die Expression des Chemokins MCP-1 wurde sowohl auf transkriptioneller als auch auf translationeller Ebene in GLV-1h80-inifzierten Zellen und im Tumorgewebe GLV 1h80-injizierter Mäuse nachgewiesen. Nach Infektion mit GLV-1h80 konnte eine mit dem Infektionsverlauf zunehmende MCP-1-Expression gezeigt werden. Dabei wurde zudem deutlich, dass nicht nur eine GLV-1h80-Infektion in vivo zu einer Zunahme der intratumoralen MCP-1-Expression führte, sondern eine Vaccinia-Virus-Infektion allein einen Anstieg des Chemokins zu bewirken vermag. Eine Quantifizierung durch ELISA machte Konzentrationsunterschiede von MCP-1 zwischen den Tumormodellen GI-101A und HT29-CBG deutlich. Sowohl in vitro als auch in vivo führte ein GLV-1h80-Infektion zu deutlich niedrigeren Konzentrationen im HT29-CBG-Kolon-Adenokarzinommodell. Ein Nachweis murinen MCP-1 in Blutseren Tumor-tragender Tiere zeigte eine für therapeutische Effekte erwünschte systemische Freisetzung des intratumoral durch die Infektion mit GLV-1h80 gebildeten Chemokins MCP-1. Durch immunhistologische Untersuchungen GLV-1h80-infizierter Zellen und Tumoren konnte diese, mit dem Infektionsverlauf zunehmende MCP-1-Expression bestätigt werden. Die funktionelle Aktivität des rekombinanten Proteins wurde anhand TNF-α-spezifischer ELISA-Analysen überprüft. Dabei zeigte sich eine erhöhte Expression dieses proinflammatorischen Cytokins in GI-101A-Tumoren nach Infektion mit GLV-1h80. Dagegen konnte keine Steigerung der Expression im HT29-CBG-Tumorgewebe nachgewiesen werden. Ein Nachweis des durch proinflammatorische Immunzellen exprimierten Oberlflächenproteins CD14 zeigte ebenfalls einen Anstieg nach Infektion mit GLV-1h80. Auch diese veränderte Expression blieb im poor-Responder-Modell HT29-CBG aus. Die steigende intratumorale Expression der beiden Proteine in GI-101A-Tumoren nach GLV 1h80-Infektion lässt auf eine Zunahme pro-inflammatorischer Immunzellen, basierend auf einer Virus-induzierten MCP-1-Expression schließen. Ein Monitoring der Tumorprogression nach Implantation von GI 101A-Zellen und Injektion der rVACV GLV-1h80 und GLV-1h68 bzw. einer PBS-Injektion führte nach einer anfänglichen Zunahme des Tumorwachstums schließlich bei beiden Viren zu einer Tumorregression. Jedoch konnte durch die GLV-1h80-vermittelte MCP-1-Expression eine Verstärkung der onkolytischen Effekte erzielt werden, welche sich durch eine signifikante Abnahme des Tumorvolumens zeigte. Im HT29-CBG-Modell führten die therapeutischen Effekte durch rVACV GLV-1h80 zwar zu keiner Regression des Tumors, jedoch zeigte sich auch in diesem humanen Tumormodell eine Verstärkung der onkolytischen Effekte nach GLV-1h80-Infektion im Vergleich zu einer GLV 1h68-Behandlung. Durch die GLV-1h80-induzierte Expression des Chemokins MCP-1 konnte somit eine Hemmung des Tumorwachstums auch im poor-Responder-Modell HT29-CBG erzielt werden. Sowohl die Verwendung eines ß-Galaktosidase-aktivierbaren Prodrugs im Zuge einer GDEPT, als auch die Beeinflussung des intratumoralen Chemokin-Netzwerks durch Expression des Chemokins MCP-1 führten in dieser Arbeit zu positiven Synergismus-Effekten in der onkolytischen Virustherapie. Durch künftige Konstruktion eines rVACV, welches sowohl die Expression des Chemokins MCP-1, als auch des prodrug-aktivierenden Enzyms ß-Galaktosidase im Tumorgewebe induziert, könnte in Kombination mit einer Prodrug-Behandlung eine zusätzliche Verstärkung der Effekte erzielt und möglicherweise eine erfolgreiche Virustherapie in bisher schwach ansprechenden poor- bzw. non-Responder-Modellen ermöglicht werden. / Irrespective of enormous developments in cancer diagnostics and therapy in the last few years, complete recovery from cancer still occurs rarely. Moreover, conventional therapy is attendant on unspecific side effects. Consequently, novel, well-tolerated and more efficient therapies are required in order to reduce the number of cancer-related deaths. Among several strategies to improve currently applied treatments, the use of oncolytic viruses may turn out to be a highly promising therapeutic approach. In this thesis two different therapeutic approaches were investigated to enhance oncolytic effects of vaccinia virus in human xenografts. First, the lacZ-carrying oncolytic vaccinia virus GLV-1h68 was used in combination with a ß-galactosidase activatable prodrug to increase selectivity of a cytotoxic drug. Second, based on a cytokine-mediated immunotherapy, MCP-1-encoding vaccinia virus GLV-1h80 was used as a vector with a specific impact on the intratumoral chemokine network. In the first approach, an enzymatic activatable prodrug, based on a cytotoxic seco-analogue of the antibiotic duocarmycin SA was used for gene-directed enzyme prodrug therapy (GDEPT). An activation of the cytotoxic prodrug was to be achieved by infection with GLV 1h68 and the resulting expression of the prodrug activating enzyme ß-galactosidase. Cell culture experiments revealed a comparable replication rate of GLV-1h68 and of the control virus strain GLV-1h43 lacking the lacZ gene insert. Expression of the reporter genes Ruc-GFP and ß-galactosidase after infection of GI-101A cells with GLV-1h68 was proven on the protein level and by RT-PCR. Infection of cells with GLV-1h43 resulted in GFP-expression only, confirming the absence of lacZ in GLV-1h43. Analysis of ß-galactosidase concentrations in cell lysates and supernatants revealed an increase of the enzyme during infection of GLV 1h68. Activation of the prodrug by the virus-encoded enzyme was achieved by co incubation of GI-101A-cells with virus-depleted, ß-galactosidase-containing cell lysates or supernatants and prodrug. This co-incubation resulted in killing of GI-101A cells. Conversely, incubation with samples obtained from mock- or GLV-1h43-infected cells and prodrug did not change overall survival of GI-101A-cells. In order to find out whether an additional effect could be achieved in neighboring uninfected cells, called bystander effect, GLV-1h68-infected cells were treated with prodrug. This experiment demonstrated strong synergistic effects in terms of cell killing. Similar results were obtained with 4 other human and with 2 canine breast cancer cell lines. The achieved bystander effect reveiled that upon GLV-1h68 infection the virus-mediated ß-galactosidase-expression resulted in enzymatic cleavage of the prodrug and release of the cytotoxic drug. Furthermore it proved the ability of the activated drug to penetrate cell membranes. Expression analysis on apoptosis-associated proteins, e.g. PARP and caspases, revealed induction of apoptosis via the intrinsic pathway after prodrug activation in GLV-1h68-infected cells. In vivo replication analysis and X-Gal staining of GLV 1h68-infected tumors revealed that GLV-1h68 can replicate within tumor tissue and no enrichment of mutants in lacZ occured, regardless of simultaneous prodrug treatment. Thus, prodrug treatment and expression of ß galactosidase resulted in synergistic effects leading to significantly enhanced tumor regression. Since no sign of malaise or weight loss was observed in prodrug-treated mice when compared to the respective control mice, we concluded that no toxic side effects occurred and active ß-galactosidase released from the tumor was negligible. Different human cell lines reveal varied sensitivity to the oncolytic activity of vaccinia virus GLV-1h68, some cell lines continue growth (non- or poor-responder), while others show complete regression (responder). Considering these differences, the second aspect of this thesis was the analysis of the chemokine MCP-1 in GI-101A-xenografts (responder) and in the poor-responding HT29-CBG tumors. MCP-1 is characterized by chemotactic properties against mononuclear cells and has pleiotropic effects on cancer. Replication studies on GLV 1h80 and the control virus strain GLV-1h68 revealed that expression of the inserted mcp-1-gene had no negative effects on viral replication in vitro as well as in vivo in human GI-101A- or HT-29 CBG-cells. Real-time monitoring of GFP-expression in tumors of infected mice showed increasing amounts of GFP in tumors during the infection process until 21 dpi, followed by a decrease in intensity to 42 dpi. By determining the viral titers in organs of infected mice, toxicity and harmful side effects resulting from infection with both virus strains were excluded. The viral titers demonstrate, that viral replication occurs exclusively in tumor tissue. Expression of MCP-1 in GLV-1h80-infected cells and tumors was detected on transcriptional as well as on translational level. The concentration of the chemokine increased during infection of GLV-1h80. Additionally, the increase of intratumoral MCP-1-concentrations was not only limited on GLV-1h80-infected tumors. On the contrary, vaccinia virus infection itself resulted in increasing amounts of this chemokine. Quantifying MCP-1-expression by ELISA assay revealed differences in concentrations between tumors derived from GI-101A and HT-29-CBG cells. In case of the HT-29-CBG coloncarcinoma, infection with GLV-1h80 resulted in lower concentrations of MCP 1 in vitro as well as in vivo. Confirmation of murine MCP-1 in blood samples of tumor-bearing mice revealed a systemic release of intratumoral MCP-1 predicated on the infection with GLV-1h80. This systemic release is required for therapeutic effects. The increased expression of MCP-1 in GLV-1h80-infected cells and tumors during infection was verified by immunohistochemical analysis. Functional activity of the recombinant protein was checked by a TNF-α-specific ELISA assay, demonstrating increased expression of this proinflammatory cytokine in GI-101A tumors after infection with GLV-1h80. In contrast, no increase was observed in HT-29 CBG tumors. Likewise, the quantification of proinflammatory expressed surface protein CD14 showed higher concentrations in GI-101A-tumors after GLV-1h80-infection. Again, this increase was missing in xenografts of poor-responder HT-29-CBG. The increased expression of these two proteins in GI-101A xenografts after GLV-1h80-infection suggested an accumulation of proinflammatory immune cells, resulting from virus-mediated MCP 1-expression. Moreover, monitoring of tumor progression after implantation of GI-101A cells revealed an initially swelling of the tumors, followed by enhanced tumor regression after infection with GLV-1h80, as well as after GLV 1h68-infection. However, GLV-1h80-mediated MCP-1 expression resulted in an enhancement of oncolytic effects, followed by significant reduced tumor volumes compared to GLV-1h68-colonized tumors. In case of HT-29-CBG tumors MCP-1 induced indeed no regression of tumors. However, even in this poor-responding tumors oncolytic effects could be amplified by GLV 1h80 infection. Hence, inhibition of tumor growth in poor-responder model HT-29-CBG could be achieved by GLV-1h80-induced expression of the chemokine MCP-1. Taken together, both, the use of a ß galactosidase activatable prodrug in GDEPT and the modulation of the intratumoral chemokine network by expression of MCP-1 resulted in positive synergistic effects during oncolytic virus therapy. Future construction of a recombinant VACV, co expressing the prodrug-activating enzyme ß galactosidase as well as MCP-1 in tumor tissue has the potential to induce even stronger synergistic effects and might also lead to a more efficient treatment of up to now poor- or non-responding tumors.
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Studie vlivu imunologických adjuvans na experimentální léčbu nádorů indukovaných HPV pomocí rekombinantních VACV a DNA vakcín / Study of the effect of immunological sdjuvants on experimental treatment of HPV-induced tumors by recombinant VACV and DNA vaccinesGabriel, Pavel January 2014 (has links)
1 ABSTRACT The success of cancer vaccines depends on factors associated with the vaccine, which define the main parameters of effective immune responses such as its size and quality, as well as on factors related with the host, represented by the immunosuppressive mechanisms that allow the tumor to escape recognition by the immune system or negatively influence the function of effector T-cells. Attenuated, non-replicating viruses are at present preferred as VACV for safety reasons. A problem may arise concerning their lack of immunogenicity. Through the deletions of non-essential genes, vaccination vectors are therefore developed based on attenuated rVACV capable of replication, which induce a strong immune response. Genes of various immunological adjuvants (e.g., genes for cytokines and costimulatory molecules) are inserted into the vectors for the purpose of eliminating the influence of the immunosuppressive mechanisms of tumors. The first part of the work describes our study of the influence of vCCI on biological properties of rVACV derived from the Prague strain. Testing of vCCI deletion and insertion mutants expressing tumor associated protein HPV16 E7 has shown that secreted vCCI attenuated the virus in vivo, which correlated with reduced levels of the corresponding CC chemokines in the blood compared...
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Induced pluripotent stem cell modeling of malariaNah, Shirley 22 January 2016 (has links)
Malaria is one of the oldest parasitic diseases known to man, and the disease has played a role in shaping civilizations and the success of human populations over many centuries. While the malaria is well studied, it still remains a worldwide killer--claiming about 600,000 lives annually with children under the age of five representing a disproportionate population of those lethally infected. Malaria is caused by the protozoan parasite Plasmodium, which is introduced to the human body through the bite of a female Anopheles mosquito. The most lethal form of the disease is carried by the parasite Plasmodium falciparum, while the most widespread form of malaria is caused by Plasmodium vivax, the latter of which has a specific mode of entry and life cycle that makes it difficult to eradicate. The entry of P. vivax into human reticulocytes is based on the presence of the Duffy antigen chemokine receptor (DARC), which is uniquely absent in two-thirds of the Black population and populations of immediate African descent making it rare in the African region while endemic in Western and Asian countries. Inability to culture the parasite P. vivax in vitro and exhaustible tissue samples makes an accurate model of P. vivax malaria difficult to maintain ex vivo.
The current study focuses on overcoming those limitations by modeling the mode of entry of P. vivax into patient-specific, induced pluripotent stem cell (iPSC)-derived erythrocyte-lineage cells by showing firstly that DARC is a measurable marker of susceptibility in vitro via FACS analysis, and that secondly, P. vivax cell culture limitations can be bypassed by creating a lentivirus designed to specifically infect DARC-expressing cells. To demonstrate the potency of this system, we show that a virus expressing the conserved region of the Duffy binding ligand, Duffy binding protein II (DBPII), can selectively infect peripheral blood mononuclear cells (PBMCs) that express DARC. Moreover, our current study focuses on the development of an iPSC-based disease model using patient samples derived from DARC expressing patients (DARC+) and DARC negative Sickle Cell Disease (SCD) patients (DARC-). We show that DARC+ iPSC-derived erythroid lineage cells express a transient population of DARC-expressing cells via FACS analysis, and we explore different protocols to stabilize this unique population. We hypothesize that DARC is a stage-specific marker for erythrocyte maturation, and we believe that any subset of cells expressing DARC consists of more mature erythrocyte-lineage cells. This study then, provides a novel platform by which to study malaria infection in a patient-specific manner while bypassing the limitations of culturing P. vivax in an in vitro culture system, as well as introducing a new way to measure erythrocyte maturation. Successful establishment of such a disease model has great implications for in-depth drug screenings for novel therapeutics that target the blood stage of the parasitic disease that were previously difficult to validate due to the limitations of currently existing models.
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Perfil de secreção e expressão de quimiocinas e citocinas na urticária crônica / Profile of chemokine and cytokine secretion and expression in chronic idiopathic urticariaSantos, Juliana Cristina dos 20 August 2010 (has links)
INTRODUÇÃO: A urticária crônica é caracterizada pelo aparecimento de placas eritêmato-edematosas, pruriginosas, que perduram por mais de seis semanas. A etiologia é desconhecida na maioria dos pacientes sendo definida como idiopática (UCI). A desregulação imunológica na UCI pode ser devido a distúrbios na produção de citocinas e quimiocinas. OBJETIVOS: Avaliar o perfil citocinas e quimiocinas em pacientes submetidos ao teste de soro autólogo (ASST) avaliando os soros, a expressão de RNAm e a expressão intracelular de células mononucleares do sangue periférico (CMN) induzidas por estímulos policlonais. METODOLOGIA: Pacientes com UCI (n=37) foram selecionados do Ambulatório de Dermatologia do HC-FMUSP e submetidos ao ASST. O grupo controle foi constituído por indivíduos saudáveis (n=33). Os níveis séricos de citocinas e quimiocinas foram determinados por citometria de fluxo ou por ELISA e a expressão de RNAm de citocinas foi determinada por Real-Time PCR. RESULTADOS: Uma elevação dos níveis séricos de TNF-, IL-6, IL-1, IL-12p70 e IL-10 foi detectada nos pacientes com UCI comparados ao grupo controle, independente da resposta ao ASST. A secreção in vitro de citocinas por CMN estimuladas por fitohemaglutinina (PHA) mostrou aumento da produção de IL-2 nos pacientes com UCI e de IL-17A e IL-10 no grupo ASST positivo em relação ao grupo controle. A expressão de RNAm para IL-10 em CMN, foi diminuída no grupo ASST negativo comparado ao grupo controle. Além disto, um aumento da capacidade linfoproliferativa ao mitógeno Pokeweed foi observado nos pacientes ASST positivo em relação aos indivíduos controles. Os níveis séricos de CXCL8, CCL2, CXCL10 e CXCL9 foram encontrados elevados nos pacientes com UCI em relação aos controles. A secreção de quimiocinas in vitro, foi observado aumento dos níveis basais de CCL2 pelas CMN dos pacientes em relação aos controles, que se elevaram em resposta a enterotoxina A de Staphylococcus aureus (SEA). Já o estímulo com PHA promoveu aumento na produção de CXCL8 e CCL5 pelas CMN dos pacientes. A expressão intracelular de CXCL8 foi detectada principalmente nas células CD14+. A intensidade média de fluorescência (MFI) e a porcentagem da expressão de CXCL8 em CD14+ nos níveis basais e estimulados com SEA encontram-se diminuídos nos pacientes com UCI comparado ao grupo controle. A expressão intracelular de CCL2 em células CD14+ mostrou uma queda na porcentagem dos níveis basais somente nos pacientes ASST negativo em relação ao grupo controle. Além disto, em condições basais de cultura houve um aumento na porcentagem da expressão de CCR5 em células T CD8+ de pacientes com UCI, em função do aumento no grupo ASST positivo. CONCLUSÕES: Os resultados enfatizam o conceito de desequilíbrio imunológico na UCI, independente da resposta ao ASST, evidenciado pelo aumento na secreção de quimiocinas e citocinas pró-inflamatórias. Estes dados sugerem que na UCI, os linfócitos e monócitos estão ativados, os quais podem contribuir para a imunopatogênese da doença / INTRODUCTION: Chronic urticaria is skin disorder characterized by recurrent and transitory itchy weals occurring regularly for more than 6 weeks. The aetiology is not identified in most patients being considered as idiopathic (CIU). The immunological dysregulation in CIU could be due to a disturbed cytokines and chemokines production. OBJECTIVES: To evaluate the pattern of cytokine and chemokine in CIU patients who undergone autologous serum skin test (ASST), assessing sera, mRNA expression and intracellular expression of peripheral blood mononuclear cells (PBMC) through the secretion upon induced by policlonal stimuli. METHODS: CIU patients (n=37) were selected from the Dermatological Outpatient Clinic of the Hospital das Clínicas de São Paulo (HC-FMUSP) and submitted to the ASST. The control group consisted of healthy subjects (n=33). Cytokine and chemokine levels were assessed by flow cytometer and ELISA and mRNA expression was analyzed by Real-Time PCR. RESULTS: Elevated levels of TNF-, IL-6, IL-1, IL-12p70 and IL-10 were observed in sera from CIU patients compared to healthy control group. CIU patients also showed increased IL-2 production by PBMC stimulated with phytohemagglutinin (PHA). Moreover, it was observed higher IL-17A and IL-10 levels in the ASST+ group compared to control group. The IL-10 mRNA expression was diminished in the ASST- group compared to control group. Furthermore, an increased lymphoproliferative response to Pokeweed mitogen was observed in the ASST+ patients compared to healthy subjects. Seric levels of CXCL8, CCL2, CXCL10 and CXCL9 were higher in CIU patients. Regarding the in vitro chemokines secretion, it was detected higher basal levels of CCL2 in CIU patients, which was increased by Staphylococcus aureus enterotoxin A (SEA). Stimulation with PHA increased the CXCL8 and CCL5 production by CIU mononuclear cells. The main source of CXCL8 was the CD14+ cells. CIU CD14+ cells showed decreased mean fluorescence intensity and percentage of CXCL8 expression with and without SEA stimuli. The percentage of CD14+ producing CCL2 was lower in ASST- patients compared to healthy control subjects. Furthermore, in the absence of stimuli the percentage of CCR5-expressing CD8+ T cells was higher in CIU patients, mainly due to an increased expression by the ASST+ group. CONCLUSIONS: These results indicate an immunological dysregulation in CIU, without association to ASST response, which was evidenced by the increased production of pro-inflammatory cytokines and chemokines. The data suggest a higher activation of monocytes and lymphocytes in CIU, which may contribute to its immunopathogenesis
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Influência de materiais odontológicos na capacidade de resposta de fibroblastos cultivados de polpa dental humana / Influence of dental materials on the response capability of cultured fibroblasts from human dental pulpMódena, Karin Cristina da Silva 13 April 2012 (has links)
O presente trabalho tem como objetivo investigar a influência de materiais utilizados na prática odontológica (Single Bond, HEMA, Vitrebond, Ketac Molar e Dycal) na resposta inflamatória de fibroblastos cultivados de polpa dental humana de dentes permanentes em relação à expressão e produção de mediadores da inflamação. As culturas primárias de fibroblastos foram estabelecidas a partir do tecido pulpar de terceiros molares hígidos. Após a quarta passagem, os fibroblastos foram estimulados pelos materiais e pelos materiais seguidos por LPS de E. coli pelos tempos de 6 e 24 horas. Os testes utilizados foram: MTT, Trypan Blue, Análise de Griess, PCR quantitativo e ELISA. Os dados foram analisados estatisticamente aplicando-se o teste ANOVA a 1 critério e pós-teste de Tukey e ANOVA a 2 critérios e teste de correção de Bonferroni (p<0,05). Os materiais SB10 (Single Bond 1:100) e DY (Dycal) afetaram a viabilidade celular com diminuição do metabolismo. Os materiais SB1 (Single Bond 1:1.000), SB10 (Single Bond 1:100) e VB (Vitrebond) seguidos de LPS de E. coli diminuíram o metabolismo celular de maneira estatisticamente significativa. Os níveis de óxido nítrico produzidos foram diminuídos quando os fibroblastos foram estimulados pelo KM (Ketac Molar). A expressão gênica para pró-colágeno tipo I foi diminuída quando os fibroblastos foram estimulados pelos materiais SB10 (Single Bond 1:100), SB (Single Bond polimerizado) e DY (Dycal). Para o SDF-1_/CXCL12 houve um aumento da expressão para o grupo estimulado apenas por LPS de E. coli, SB10 (Single Bond 1:100) e DY (Dycal). Para o IL-6 notou-se uma diminuição significativa para o grupo estimulado por H1000 (HEMA 1000 nM) e um aumento para o grupo SB10 (Single Bond 1:100). A expressão gênica de IL- 8/CXCL8 diminuiu para os fibroblastos estimulados pelas três concentrações de HEMA e de Single Bond, VB (Vitrebond) e DY (Dycal) no período de 6 horas e houve um aumento para os materiais SB10 (Single Bond 1:100) e VB (Vitrebond) no período de 24 horas. Houve diminuição na secreção de SDF-1_/CXCL12 para as três concentrações de HEMA e DY (Dycal) e uma tendência de diminuição para os demais materiais testados. A produção de IL-6 foi aumentada para os materiais VB (Vitrebond) e KM (Ketac Molar). A produção de IL- 8/CXCL8 foi aumentada para SB1 (Single Bond 1:1.000), VB (Vitrebond) e KM (Ketac Molar) e diminuída para SB10 (Single Bond 1:100) e DY (Dycal). O Single Bond e o HEMA, em várias concentrações, diminuíram a expressão e produção de moléculas envolvidas no processo inflamatório e, por causa de seu efeito citotóxico, devem ser vistos com cautela quando em íntimo contato com o órgão pulpar. O hidróxido de cálcio causou intensa morte celular e não estimulou a produção dos mediadores da inflamação avaliados neste trabalho, mas esse evento parece ser fundamental para o processo de reparo do tecido pulpar e formação de barreira mineralizada. Os cimentos de ionômeros de vidro utilizados aumentaram a produção de quimiocinas relacionadas ao processo inflamatório, portanto, esses materiais, embora não tenham causado morte de grande número celular, devem ser utilizados com restrições. / The aim of the present study is to investigate the influence of dental materials (Single Bond, HEMA, Vitrebond, Ketac Molar e Dycal) in the inflammatory response of human dental pulp fibroblasts from permanent teeth in relation to inflammatory mediators expression. and production. Primary cultures were established from third molars pulp tissue. After the fourth passage, the fibroblasts were stimulated only by materials and also by the materials followed by LPS from E. coli for 6 and 24 hours. Data were statistically analyzed using Oneway ANOVA and Tukey post-test and Two-way ANOVA followed by Bonferroni post-test (p<0.05). SB10 (Single Bond 1: 100) and DY (Dycal) affected cell viability and consequently decreased cell metabolism. SB1 (Single Bond 1:1,000), SB10 (Single Bond 1:100) and VB (Vitrebond) followed by LPS E. coli decreased cell metabolism. Nitric oxide levels were reduced when fibroblasts were stimulated by KM (Ketac Molar). Pro-collagen type I expression was reduced when fibroblasts were stimulated by SB10 (Single Bond 1:100), SB (polymerized Single Bond) and DY (Dycal). SDF-1_/CXCL12 expression was increased for the group stimulated only by LPS from E. coli, SB10 (Single Bond 1:100) and DY (Dycal). IL-6 expression had a significant decrease in the group stimulated by H1000 (HEMA 1000 nM) and an increase for SB10 (Single Bond 1:100) group. The expression of IL-8/CXCL8 decreased when fibroblasts were stimulated by the three concentrations of HEMA and of Single Bond, VB (Vitrebond) and DY (Dycal) at 6 hours and increased for SB10 (Single Bond 1:100) and VB (Vitrebond) at 24 hours. There was decrease in SDF-1_/CXCL12 production for the three concentrations of HEMA and DY (Dycal) and a declining trend for the other materials tested. The production of IL-6 was increased by VB (Vitrebond) and KM (Ketac Molar). The production of IL-8/CXCL8 increased by SB1 (Single Bond 1:1,000), VB (Vitrebond) and KM (Ketac Molar) and decreased by SB10 (Single Bond 1:100) and DY (Dycal). Single Bond and HEMA, in different concentrations, decreased the production and the expression of molecules involved in the inflammatory process and, because of its cytotoxic, should be viewed with caution when in intimate contact with the pulp tissue. Calcium hydroxide caused intense cell death and did not stimulate the production of inflammatory mediators evaluated, but this event seems to be essential to the pulp tissue repair process and mineralized barrier formation. The glass ionomer cements used increased the production of chemokines related to the inflammatory process, therefore, these materials, although they have not caused death of many cells, must be used with restrictions.
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Characterization of HIV-1 integrase nuclear translocation and chemokine receptor internalization for development of new class of anti-AIDS drugs. / CUHK electronic theses & dissertations collectionJanuary 2011 (has links)
Translocation of viral integrase into nucleus is a critical precondition of integration during the life cycle of HIV, a causative agent of Acquired Immunodeficiency Syndromes (AIDS). It has been considered as an important target for the drug development to treat AIDS. In order to understand the detailed mechanisms of integrase-host cell protein complex interactions, we cloned HIV-1 integrase-EGFP into pTRE2hyg as visible tag to monitor the translocation process. When transiently transfected this vector into Tet-off ready HeLa cells, the EGFP: integrase is mainly localized in the nucleus. It has been hypothesized that any drugs that can inhibit the translocation process are novel class of drugs for AIDS treatment. More than 30000 synthetic compounds and 80000 natural products were screened by virtual screening. A total of 34 compounds were obtained and screened for their ability to block the nuclear entry of HIV-1 integrase by monitoring the EGFP fluorescence in the cells by high-throughput live cell imaging. Eight synthetic compounds (DW-IN4, DW-IN5, DW-IN6, DW-IN9, DW-IN15, DW-IN16, DW-IN17, DW-IN21) and one natural product (DW-IN719) were found to block integrase translocation significantly. According to our screening result, six compounds (INNB-1, INNB-2, INNB-3, INNB-4, INNB-5, INNB-6) were designed and synthesized. INNB-1 and INNB-2 had significant inhibition on integrase nuclear translocation. DW-IN6, DWIN719, INNB-1, INNB-2, INNB-3 and INNB-4, showed significant inhibition on P24 production in live virus assay. DW-IN6, INNB-1, INNB-2, INNB-3 and INNB-4 showed significant syncitia formation inhibition in live virus assay. Six compounds (KM7, KM8, KM14, KM30, KM37, KM79) from Kunming were screened as integrase nuclear translocation inhibitors. Using similar cell imaging techniques, we have cloned the GFP-tagged chemokine receptor CXCR4 using the lentivirus transfection system. CXCR4 receptor is a critical co-receptor in CD4 positive lymphocytes mediating the fusion of HIV into the CD4 positive cells. CXCR4-GFP was over-expressed in 293T cells and the results showed that GFP:CXCR4 receptor is expressed at the plasma membrane of the cells. These cells have been used to monitor the blockage of CXCR4 receptor internalization for drug development. Four compounds (KX128, KX166, KX171, KX180) from Kunming showed CXCR4 internalization blockage in imaging assay. The interaction of these compounds with CXCR4 was predicted by molecular docking. KX128 showed significant HIV inhibition in live virus assays. / Gu, Wangang. / Advisers: Pang Chui Shaw; David Chi Cheong Wan. / Source: Dissertation Abstracts International, Volume: 73-06, Section: B, page: . / Thesis (Ph.D.)--Chinese University of Hong Kong, 2011. / Includes bibliographical references (leaves 165-179). / Electronic reproduction. Hong Kong : Chinese University of Hong Kong, [2012] System requirements: Adobe Acrobat Reader. Available via World Wide Web. / Electronic reproduction. [Ann Arbor, MI] : ProQuest Information and Learning, [201-] System requirements: Adobe Acrobat Reader. Available via World Wide Web. / Abstract also in Chinese.
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Impact d’un gain de fonction de Cxcr4 sur le développement et la compartimentalisation périphérique des lymphocytes / Impact of a gain-of-Cxcr4-function in lymphocyte development and peripheral traffickingBiajoux, Vincent 30 September 2013 (has links)
Le syndrome WHIM (SW) est un déficit immuno-hématologique rare causé principalement par des mutations autosomales dominantes du gène CXCR4 qui entrainent une troncation du domaine C-terminal (C-Ter) du récepteur. Les formes mutantes de CXCR4 associées au SW génèrent des altérations de la désensibilisation et de l’internalisation du récepteur en réponse à CXCL12, qui se traduisent par une hypersensibilité à l’action chimiotactique du ligand. CXCR4 est un récepteur de chimiokine exprimé sur les leucocytes dont le rôle dans l’hématopoïèse et le trafic leucocytaire à l’état basal suggère que la lympho-neutropénie des patients atteints du SW est due à des défauts de production et/ou de domiciliation périphérique des leucocytes causés par le gain de fonction de CXCR4. Néanmoins, la validation de cette hypothèse est difficile chez les patients. En générant une souche de souris (Cxcr4+/1013), porteuse d’une mutation rapportée chez une famille de patients par une stratégie de knock-in, nous avons mis en évidence le rôle du domaine C-Ter de Cxcr4 dans le développement, la domiciliation périphérique des lymphocytes et l’immunité adaptative à médiation humorale.Les principaux résultats issus de notre travail, obtenus en combinant des approches biochimiques, fonctionnelles, de reconstitution de l’hématopoïèse par compétition, de transferts adoptifs et d’injection d’anticorps anti-CD45 in vivo, sont : 1) La mutation Cxcr41013 tronquant le domaine C-Ter se comporte différemment en terme de signalisation, selon qu’elle soit présente à l’état hétérozygote ou homozygote, et perturbe respectivement les transitions double-négatif (DN) 2-DN3 et proB-preB de la lymphopoïèse dans le thymus et la moelle osseuse (MO). Au contraire, elle ne génère pas d’effets sur le développement des cellules NK et la myélopoïèse ; 2) La lymphopénie qui touche les lymphocytes B (LB) et T (LT) est un processus intrinsèque aux cellules porteuses de la mutation Cxcr41013 et suit un modèle allèle-dose-dépendant ; 3) Le défaut de désensibilisation de Cxcr41013 empêche le relargage des lymphocytes NK et B immatures de la MO et celui des LB et LT matures des ganglions lymphatiques dans le sang. A l’inverse, le gain de fonction exacerbe la migration des LB recirculants et LT matures et leur rétention dans le parenchyme médullaire ; et 4) malgré l’absence de follicules primaires dans les ganglions lymphatiques, les souris mutantes sont capables de mettre en place une réponse immunitaire humorale efficace et spécifique d’un antigène T-dépendant, comme en témoigne l’augmentation des LB du centre germinatif et des plasmocytes ayant effectué une commutation isotypique. En conclusion, nous démontrons que la signalisation fine médiée par Cxcr4 est nécessaire pour le développement, la compartimentalisation périphérique et la fonction des lymphocytes. / The WHIM Syndrome (WS) is a rare combined immuno-hematological disorder caused by inherited heterozygous autosomal dominant mutations in CXCR4, which result in most cases in the distal truncation of the receptor’s Carboxyl-terminal tail (C-Tail). Mutants of CXCR4 associated with WS display impaired desensitization and internalization of the receptor upon CXCL12 exposure, leading to enhanced migratory response. Because CXCR4 is expressed on leukocytes, we hypothesized that circulating pan-leukopenia could arise from altered CXCR4-mediated signalling that would skew tissue distribution and differentiation of leukocytes. This assumption was obviously difficult to address in patients. By generating a knock-in mouse strain (Cxcr4+/1013) that harbors a WS-linked gain-of-Cxcr4-function mutation, we establish that the C-tail domain in Cxcr4-mediated signalling is a pivotal regulator of lymphocyte development, peripheral trafficking and humoral immunity. The essential findings of our work, obtained by combining biochemical, bone marrow (BM)-mixed chimeras, in vivo labelling, adoptive co-transfers and functional approaches, are: 1) the C-tail truncating Cxcr41013 mutation caused differential signalling capacities depending on its heterozygous versus homozygous status and inhibited double-negative (DN) 2-to-DN3 and pro-B-to-pre-B developmental transitions during lymphopoiesis. In contrast, it had no effect on NK lymphopoiesis and granulopoiesis; 2) the resulting circulating B and T lymphopenia was due to hematopoietic cell-intrinsic defects and followed a mutated allele dose-dependent pattern; 3) impaired Cxcr41013 desensitization prevented the release of immature BM NK and B cells and mature lymph node (LN) B and T lymphocytes into the blood. Conversely, it forced homing and retention of mature recirculating B and T cells in the BM parenchyma; and 4) despite the absence of primary B-cell follicles in LNs, mutant mice produced efficient humoral responses upon immunization as illustrated by increased antigen-specific germinal center B cells and isotype-switched plasma cells. Collectively, our findings demonstrate that fine-tuning of Cxcr4 signal strength is required for optimal trafficking, egress and fitness of lymphocytes.
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Etude du rôle du récepteur de chimiokine CX3CR1 dans la mobilisation monocytaire induite par chimiothérapie / Role of chemokine receptor CX3CR1 in the monocytes mobilization induced by chemotherapyJacquelin, Sébastien 13 March 2013 (has links)
Les chimiokines (CKs) jouent un rôle important dans l’orchestration de la réponse immunitaireen contrôlant notamment la mobilisation des cellules immunitaires. Les cellules myéloïdes et, enparticulier, les monocytes sont impliquées dans le processus inflammatoire et notamment dansle développement des cancers. En effet, les cellules dérivées des monocytes ou macrophagesassociés aux tumeurs sont fortement représentés dans le micro environnement tumoral et sontsouvent associés à un mauvais pronostic. La caractérisation des mécanismes aboutissant aurecrutement des monocytes dans la tumeur représentent donc un enjeu majeur pourl’optimisation des protocoles thérapeutiques anti-cancéreux. Chez la souris, deux populationsmonocytaires sont caractérisées sur la base de l’expression différentielle des récepteurs auxchimiokines CCR2 et CX3CR1 et interviennent dans leur recrutement et leur différenciation enmacrophages dans les tissus, les monocytes inflammatoires (CCR2+, CX3CR1low) et les monocytesdits résidents (CCR2-, CX3CR1high). L’objectif principal de mon projet de recherche a été de mieuxcomprendre les mécanismes contrôlant la mobilisation des monocytes suite à un traitementchimiothérapeutique. J’ai entrepris d’étudier le rôle des récepteurs aux chimiokines, enparticulier CX3CR1, dans la reconstitution monocytaire après traitement chimiothérapeutiquepar le cyclophosphamide (CP), un agent alkylant reconnu pour son activité myélosuppressive. LeCP provoque un renouvellement des monocytes et une forte infiltration de la tumeur par les LTspécifiques de la tumeur (issus d’un transfert adoptif) associés à la réactivation de la réponseimmune anti-tumorale. Cependant, les LTs spécifiques de l’antigène de la tumeur se localisentpréférentiellement dans des zones riches en cellules dendritiques associées à la tumeur (TuDCs)et sont piégés par ces dernières. Ces interactions diminuent potentiellement le nombre decontacts entre les LT et les cellules tumorales suggérant un rôle pro tumoral des TuDCs. Letraitement au CP provoque une déplétion des cellules myéloïdes suivie d’une reconstitutionmassive des réservoirs de monocytes (moelle osseuse et rate). Au cours de la reconstitutionmonocytaire, l’expression de CX3CR1 diminue et est corrélée à une diminution de l’adhérence exvivo des cellules médullaires. Nous avons mis en évidence une mobilisation accrue desmonocytes inflammatoires au sein des souris CX3CR1- /- comparée aux souris WT et CCR2-/-.L’imagerie in vivo de la moelle osseuse au sein de souris CX3CR1-/- ou à l’aide d’un antagonistede CX3CR1 nous a permis de montrer un rôle spécifique de CX3CR1 dans le « crawling » sur lescellules endothéliales et le confinement des cellules monocytaires au niveau des sinus et duparenchyme médullaire. Nous suggérons qu’au cours de la mobilisation cellulaire induite par leCP le récepteur CX3CR1 contrôle la rétention médullaire des monocytes. Nous pensons que lamodulation du taux de mobilisation cellulaire au cours de la reconstitution induite par CP et/oule ciblage de CX3CR1 pourrait, par augmentation du pool de cellules myéloïdes leucocytairesd’un hôte, contribuer à l’amélioration des réponses cellulaires à la suite d’une lésion tissulaireou d’un dysfonctionnement des défenses immunitaires. De plus, le ciblage de CX3CR1 pourraittrouver des applications dans le domaine de la greffe de HSCs. / Chemokines orchestrate immune response especially by leucocytes mobilization. Myeloidcells, notably monocytes, are involved in inflammation and cancer development. Indeedmonocyte-derived cells and macrophages are strongly represented in tumourmicroenvironment and are associated with a bad prognosis. Characterization of mechanismsleading to monocytes recruitment within the tumor is thus a major issue in anti-cancertherapeutic protocols optimization. Based on the differential expression of chemokinereceptors CCR2 and CX3CR1, two populations of monocytes, inflammatory monocytes(CCR2+, CX3CR1low) and resident monocytes (CCR2-, CX3CR1high) have been characterized inmice which are involved in monocytes recruitment and differentiation into macrophages.The main objective of my work was to better understand the mechanisms of monocytesmobilization following chemotherapeutic treatment. I started to study the role of chemokinereceptors with a focus on CX3CR1 in monocytes reconstitution following cyclophosphamide(CP) treatment. CP is an alkylant agent known for its myelosuppressive properties. Thischemotherapeutic agent induces a transitory anti tumour immune response associated witha monocyte renewal and a strong infiltration of the tumour by adoptively transferred Tlymphocytes. However, antigen-specific T cells are trapped by tumour-associated dendriticcells (TuDCs). This potentially decreases interactions between T lymphocytes and tumourcells suggesting an immunosuppressive role of TuDCs. CP induces a strong depletion ofmyeloid cells followed by a massive reconstitution of bone marrow and spleen monocytesreservoirs. CX3CR1 expression on bone marrow monocytes is decreased duringreconstitution and correlated with a decreasing adhesion of these cells to CX3CL1 ex vivo.We highlighted an increased mobilization of inflammatory monocytes in CX3CR1-/- micecompared to WT and CCR2-/-. Intra vital imaging of bone marrow within CX3CR1-/- mice orwith the help of a CX3CR1 antagonist allowed us to show a specific role of CX3CR1 in thelumen crawling and confinement of monocyte-derived cells in both sinusoid andparenchyma of the bone marrow. We suggest that CX3CR1 controls the release of bonemarrow monocytes during CP-induced mobilization. We think that modulating the rate ofcellular mobilization, by increasing the host’s leukocyte pool during CP inducedreconstitution and/or targeting CX3CR1, could contribute to improve cellular responsefollowing tissue damage or immune cell dysfunction. Furthermore, targeting CX3CR1couldprovide applications in the stem cell transplantation domain.
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CXCL10 and its receptor CXCR3 promote non-alcoholic steatohepatitis through mediating inflammatory cytokines and autophagy.January 2014 (has links)
研究背景及實驗目的: 非酒精性脂肪性肝炎(NASH)使得肥胖和2 型糖尿病變得複雜,肝臟炎症的持續產生是其主要的發病機理。CXCL10 是一種促進炎症的細胞因數,其在肥胖和2 型糖尿病中的表達顯著升高。CXCL10 以及其受體CXCR3 是否在NASH 的發生發展中起作用尚不清楚。在本研究中,我們探索了CXCL10 以及其受體CXCR3 在脂肪性肝炎中的功能, 並評估了CXCL10 在NASH 中的臨床價值。 / 實驗方法:CXCL10 基因敲除鼠,CXCR3 敲除鼠以及野生型C57BL/6 小鼠給予蛋氨酸膽鹼缺乏食(MCD)4 周或者8 周。CXCL10 的信號通路以及下游靶點通過細胞因數分析,cDNA array, 蛋白DNA 結合實驗,自噬溶酶體系統分析進行檢測。為了闡明CXCL10 抑制對NASH 的預防治療作用,我們給MCD 餵養的小鼠注射抗CXCL10 抗體。用不同濃度的CXCL10 抗體以及CXCR3 抑制劑NIBR2130 幹預MCD 培養的肝細胞株AML-12。臨床研究中,我們收集了147個非酒精性脂肪肝患者以及73 個健康對照的血清,用酶聯免疫吸附試驗檢測血清中CXCL10 的水準。 / 結果:野生型小鼠給予MCD 餵養後,CXCL10 以及CXCR3 的表達升高,並出現脂肪性肝炎的表現。然而,MCD 飼養的CXCL10 以及CXCR3 基因敲除鼠中,脂肪性肝炎明顯減輕。CXCL10 通過促炎細胞因數的產生以及NK-κB 信號通路促進MCD 飼養的小鼠NASH 的發生。CXCL10 通過促進脂質合成的基因SREBP-1c, ChREBP 和 SCD-1 引起脂肪變性,並通過CYP2E1 以及 C/EBPβ 的上調引起氧化應激。值得注意的是,自噬的損傷在CXCL10 以及CXCR3 導致的脂肪性肝炎的進展中起重要作用。 MCD 飼養的野生型小鼠中p62 以及LC3-II 表達明顯高於CXCL10 以及CXCR3 基因敲除鼠。通過抗CXCL10 抗體中和CXCL10 可以減輕MCD 食引起的小鼠脂肪性肝炎以及MCD 培養液引起的AML-12 細胞損傷。高選擇性的CXCR3 抑制劑NIBR2130 也可以抑制MCD 引起的肝細胞損傷。我們進一步研究了CXCL10 的臨床應用價值,發現NASH 患者血清以及肝臟中CXCL10 的水準明顯升高。更重要的是,血液中CXCL10 的水準與肝小葉炎症程度有關,是NASH 的獨立危險因素。 / 結論:我們的研究首次發現CXCL10 以及其受體CXCR3 通過促進炎症,脂質聚集,氧化應激以及自噬缺乏在NASH 的發病中起重要作用。抑制CXCL10 或者CXCR3 為NASH 患者的治療提供了新的方法。CXCL10 可作為NASH 患者非侵入性診斷的標誌物。 / Background and aims: Non-alcoholic steatoheaptitis (NASH) complicates obesity and type 2 diabetes, while recruitment and perpetuation of liver inflammation is central to its pathogenesis. Expression of C-X-C motif chemokine 10 (CXCL10), a proinflammatory cytokine, correlates positively with obesity and type 2 diabetes. Whether CXCL10 and its receptor CXCR3 play a role in NASH is unknown. In this study, we investigated the functional significance of CXCL10 and its receptor CXCR3 in steatoheaptitis. Moreover, the clinical impact of CXCL10 in NASH was examined. / Methods: Gene-deleted CXCL10 (CXCL10-/-), CXCL10 receptor CXCR3 (CXCR3-/-) and C57BL/6 wildtype (WT) mice were fed methionine and choline-deficient (MCD) diet for 4 or 8 weeks. Cytokine profiling assay, cDNA array, protein-DNA binding activity assay and autophagosome-lysosome system analysis of CXCL10 signaling and downstream targets were performed. In other experiments, we injected neutralizing anti-CXCL10 monoclonal antibodies (mAb) into MCD diet-fed WT mice, while AML-12 cells were cultured in MCD medium in the presence of anti-CXCL10 mAb or CXCR3 inhibitor (NIBR2130) for 24 hours. Human serum was obtained from 147 patients with biopsy-proven non-alcoholic fatty liver disease and 73 controls. Circulating CXCL10 levels were determined by enzyme-linked immunosorbent assay. / Results: MCD-fed WT mice developed steatohepatitis with higher hepatic CXCL10 and CXCR3 expression. CXCL10-/- and CXCR3-/- mice were refractory to MCDinduced steatohepatitis. In WT mice with steatohepatitis, but not in CXCL10-/- mice, CXCL10 was associated with the induction of pro-inflammatory chemokines and cytokines, as well as activation of nuclear factor-κB (NF-κB) signaling. CXCL10 expression was linked to steatosis through lipogenic factors, including liver X receptors and its downstream targets (SREBP-1c, ChREBP and SCD-1), and also to oxidative stress (up-regulation of CYP2E1 and C/EBPβ). In particular, autophagy deficiency was involved in CXCL10- and CXCR3-induced steatohepatitis as indicated by p62 and LC3-I/II protein accumulation in MCD-fed WT mice than in CXCL10-/- and CXCR3-/- mice. Moreover, the impaired autophagic function was related to the reduction of lysosomal function in CXCL10- or CXCR3-induced NASH. Blockade of CXCL10 by anti-CXCL10 mAb protected against MCD-induced steatohepatitis in vivo and against MCD-mediated injury to AML-12 cells in vitro. The highly selective CXCR3 antagonist NIBR2130 also inhibited MCD-induced injury in AML-12 hepatocytes. We further investigated the clinical impact of CXCL10 and found circulating and hepatic CXCL10 levels were significantly higher in human NASH. Importantly, circulating CXCL10 level was correlated with the degree of lobular inflammation and was an independent risk factor for NASH patients. / Conclusions: We demonstrate for the first time that CXCL10 and its receptor CXCR3 plays a pivotal role in the pathogenesis of NASH by promoting inflammation, fatty acid accumulation, oxidative stress and autophagy deficiency. Blockade of CXCL10 or CXCR3 is a potential novel approach for NASH intervention. CXCL10 is a noninvasive biomarker for NASH patients. / Detailed summary in vernacular field only. / Detailed summary in vernacular field only. / Detailed summary in vernacular field only. / Detailed summary in vernacular field only. / Zhang, Xiang. / Thesis (Ph.D.) Chinese University of Hong Kong, 2014. / Includes bibliographical references (leaves 145-167). / Abstracts also in Chinese.
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Effects of stromal cell-derived factor-1 and its peptide analog on cord blood hematopoietic stem cell trafficking and homing. / 基質細胞衍生因子-1及其肽類似物對臍血造血幹細胞歸巢和販運的影響 / CUHK electronic theses & dissertations collection / Ji zhi xi bao yan sheng yin zi-1 ji qi shan lei si wu dui qi xue zao xue gan xi bao gui chao he fan yun de ying xiangJanuary 2010 (has links)
Homing of hematopoietic stem cells (HSC) to their bone marrow (BM) niches is crucial to clinical stem cell transplantation. However, the molecular mechanism controlling this process remains not fully understood. In this study, we aimed to explore novel regulators of HSC homing through investigating downstream signals and effector molecules of the stromal cell-derived factor-1 (SDF-1)/CXCR4 axis. We further characterized specific functions of targeted regulators by in vitro and in vivo migration/homing assays on human cord blood (CB) CD34+ hematopoietic stem/progenitor cells. / In summary, we have provided the first transcriptome profile of CB CD34 + cells downstream of the SDF-1/CXCR4 axis. We also reported the first evidence that HSC homing was regulated by the tetraspanin CD9. By comparing the homing-related responses of CD34+ to SDF-1 and CTCE-0214, we identified RGS13 as another potential regulator of HSC homing. It is anticipated that strategies for modulating the expressions and functions of CD9 and RGS13 might improve HSC homing to their hematopoietic niches. / To investigate the transcriptional regulation provided by the SDF-1/CXCR4 axis, we performed the first differential transcriptome profiling of human CB CD34+ cells in response to a short-term exposure of SDF-1, and identified a panel of genes with putative homing functions. We demonstrated that CD9, a member of the tetraspanin family proteins, was expressed in CD34 +CD38-/lo and CD34+CD38+ cells. CD9 levels were enhanced by SDF-1, which simultaneously downregulated CXCR4 membrane expression. Using specific inhibitors and activators, we demonstrated that CD9 expressions were modulated via the CXCR4, G-protein, PKC, PLC, ERK and JAK2 signals. Pretreatment of CD34+ cells with anti-CD9 mAb ALB6 significantly inhibited SDF-1-mediated transendothelial migration and calcium mobilization, whereas adhesion to fibronectin and endothelial cells were enhanced. Infusion of CD34+ cells pretreated with ALB6 significantly impaired their homing to bone marrow and spleen of sublethally irradiated NOD/SCID mice. There also appeared a preferential homing/retaining of untreated CD34+CD9+ cells to these niches. Our results indicate that CD9, as a downstream member of SDF-1/CXCR4 signals might possess specific and important functions in HSC homing. / We first investigated the effects of SDF-1 and its analog, CTCE-0214 (a small cyclized peptide analog of the SDF-1 terminal regions), on homing-related properties (chemotaxis, transwell migration, adhesion and actin polymerization) of CB CD34+ cells. Our results demonstrated that both SDF-1 and CTCE-0214 induced a robust actin polymerization response and improved adhesion of CD34+ cells to fibronectin. Unlike SDF-1, CTCE-0214 did not induce a chemotactic response when added to the lower chamber of the transwell system. Addition of CTCE-0214 to the upper chamber significantly improved migration of CD34+ cells to a SDF-1 gradient, but there was no preferential enhancement in the migration of specific colony-forming unit (CFU) progenitors or the more primitive CD34+CD38 -/lo subpopulation. Pre-exposure of CD34+ cells to CTCE-0214 for 4 hours promoted cell migration, whereas SDF-1 pretreatment retarded migration. To dissect the molecular mechanisms leading to the observed functional differences mediated by SDF-1 and CTCE-0214, we investigated whether the two compounds differentially regulated the expression of several known regulators of HSC migration. Flow cytometric analysis revealed that the cell surface expression of CD26, CD44, CD49d, CD49e and CD164 was not changed by either compounds. Exposure to SDF-1, but not CTCE-0214, decreased membrane expression of CXCR4 on CD34+ cells. Addition of CTCE-0214 to the upper chamber inhibited the SDF-1-induced CXCR4 downregulation in both migrated and non-migrated cell population in the transwell setting. Notably, SDF-1 and CTCE-0214 had an opposite effect on the expression level of regulator of G-protein signaling 13 (RGS13), a negative regulator of chemokine-induced responses. Treatment of CD34+ with SDF-1 for 4 hours resulted in a significant increase in RGS13 expression, whereas CTCE-0214 induced a time-dependent decrease in RGS13 expression. Our results provide the first evidence that SDF-1 and CTCE-0214 differentially regulate migration of CD34 + cells, and we speculate that this might be attributed to their differential regulation of CXCR4 and RGS13 expression. / Leung, Kam Tong. / Adviser: Karen Kwai Har Li. / Source: Dissertation Abstracts International, Volume: 73-06, Section: B, page: . / Thesis (Ph.D.)--Chinese University of Hong Kong, 2010. / Includes bibliographical references (leaves 146-167). / Electronic reproduction. Hong Kong : Chinese University of Hong Kong, [2012] System requirements: Adobe Acrobat Reader. Available via World Wide Web. / Electronic reproduction. [Ann Arbor, MI] : ProQuest Information and Learning, [201-] System requirements: Adobe Acrobat Reader. Available via World Wide Web. / Abstract also in Chinese.
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