Altered expression of inflammasome components in inflammatory bowel disease

Forsskåhl, Sophia Katarina

January 2019

The inflammasome complex is a multiprotein complex that may play a role in the pathogenesis of inflammatory bowel disease (IBD) by secreting the inflammatory cytokines interleukin (IL)-1β and IL-18, and inducing pyroptosis, as a response to signals through several inflammasome sensors. This study looked at the expression of several inflammasome components in the ileum and colon of patients suffering from IBD. The inflammasome sensors NLRP1, NLRP3, AIM2 and pyrin were upregulated in whole intestinal tissue of IBD patients, particularly in the colon. NLRP6 expression was increased in the colon of Crohn's disease patients, but not ulcerative colitis patients relative to colon of controls, and was reduced in the ileum of Crohn's disease patients compared to control ileum. Expression of caspase-1 and IL-1β, but not IL-18, were also increased in ileum and colon tissue from Crohn's patients. To identify the cell type where inflammasome expression was altered in Crohn’s disease, transcription of inflammasome subunits in intestinal tissue enriched for epithelial cells or lamina propria (LP) cells was analysed. These analyses indicated that LP cells have greater expression of the inflammasome sensors NLRP1, NLRP3, AIM2 and pyrin relative to epithelial cells, both during disease and in control tissue. Moreover, LP cells from Crohn’s patients have higher expression level of NLRP1, AIM2 and pyrin than LP cells from controls. In contrast the inflammasome sensor NLRP6 was more highly expressed by epithelial cells relative to LP cells in general, and NLRP6 expression in LP cells from IBD patients was lower than that observed in LP cells from controls. The observed differential expression of inflammasome components in controls versus IBD intestine and in different cellular fractions of intestinal tissue highlight the importance of understanding the role of the inflammasome in IBD and hints at the possibility of targeting the inflammasome pathway as a future treatment strategy.

IBD

Inflammatory Bowel Disease

Inflammasome

NLRP1

NLRP3

NLRP6

AIM2

MEFV

Pyrin

Caspase-1

Caspase-4

Caspase-5

IL-1B

IL-18

GSDMD

ASC

Inflammatorisk tarmsjukdom

Inflammasom

Immunology

Immunologi

Einfluß des Cyclooxygenase-2-Inhibitors NS-398 auf Proliferation und Apoptose von Ovarialkarzinomzellinien

Fürstenberg, Antje

06 January 2005

Mehrere Studien haben gezeigt, daß die Cyclooxygenase-2 (COX-2) eine bedeutende Rolle sowohl bei Entstehung als auch Progression maligner Tumoren spielt. COX-2-Inhibitoren werden bereits in klinischen Studien zur Krebstherapie getestet. COX-2 ist die induzierbare Isoform der Cyclooxygenase - dem Schlüsselenzym der Synthese von Prostaglandinen und anderen Eicosanoiden. Im Tier- und Zellkulturmodell konnten COX-Hemmer anti-Tumor-Effekte hervorrufen. Es ist jedoch unklar, ob diese Effekte durch Hemmung des COX-Enzyms oder durch COX-unabhängige Mechanismen vermittelt werden. Wir untersuchten daher die Auswirkung der COX-Inhibition zum einen durch den selektiven COX-2-Hemmer NS-398 sowie zum anderen durch COX-Isoform-spezifische RNA-Interferenz (RNAi) in zwei humanen Ovarialkarzinomzellinien (OVCAR-3 und SKOV-3). OVCAR-3 zeigte eine konstitutive COX-1-Expression und eine durch IL-1beta induzierbare COX-2-Expression. SKOV-3 war COX-1- und COX-2-negativ. IL-1beta führte bei OVCAR-3 zu einer vermehrten Produktion von Prostaglandin E2 (PGE2), die durch eine gegen die COX-2 gerichtete siRNA gehemmt werden konnte, wohingegen COX-1-siRNA keinen Effekt hatte. Das deutet darauf hin, daß die COX-2 die Hauptquelle von PGE2 in OVCAR-3 ist. 1mikroM NS-398 waren ausreichend, um die PGE2-Produktion und somit auch die COX-2 in OVCAR-3 zu inhibieren. Höhere Konzentrationen NS-398 (>10mikroM) hatten einen antiproliferativen Effekt. Auch in der COX-2-negativen Zellinie SKOV-3 trat diese Wachstumshemmung auf; sie war nicht durch exogene Zufuhr von PGE2 (10mikroM) reversibel. Durchflußzytometrische Zellzyklusanalyse ergab, daß der Wachstumshemmung in beiden Zellinien ein G0/G1-Zellzyklusarrest zugrunde liegt. Dagegen führten weder COX-1- noch COX-2-Ausschaltung durch RNAi zu ähnlichen Auswirkungen auf Proliferation bzw. Zellzyklus. Diese Ergebnisse zeigen, dass ein COX-2-unabhängiger Mechanismus für den durch NS-398 induzierten G0/G1-Arrest verantwortlich ist. / Several studies have provided evidence that the enzyme Cyclooxygenase-2 (COX-2) plays an important role in tumor development and progression. COX-2-inhibitors are already evaluated in clinical trials as cancer therapeutics. COX-2 is the inducible isoform of cyclooxygenase - the rate-limiting enzyme in the synthesis of prostaglandins and other eicosanoids. COX-inhibitors cause antitumor effects in animal models and in cell culture experiments. However, it is not clear, whether these effects are due to inhibition of the COX-enzyme or mediated via a COX-independent mechanism. We therefore investigated the effects of COX inhibition by the selective COX-2-inhibitor NS-398, as well as by COX-isoform specific RNA interference (RNAi) in the human ovarian carcinoma cell lines OVCAR-3 and SKOV-3. OVCAR-3 cells showed a constitutive expression of COX-1, and an inducible COX-2 expression. COX-2 was induced through stimulation with Interleukin-1beta, leading to production of high levels of Prostaglandin E2 (PGE2). SKOV-3 cells were negative for both COX isoforms. Selective COX-2-suppression by RNAi reduced PGE2 production in OVCAR-3, whereas COX-1-siRNA had no effect on PGE2 synthesis. Thus, COX-2 is the main source of PGE2 in OVCAR-3 cells. In these cells, 1microM NS-398 was sufficient to completely inhibit PGE2-synthesis - and thus the activity of the COX-2 enzyme. Increasing amounts of NS-398 (>10microM) had an antiproliferative effect. This growth inhibition was also observed in the COX-negative cell line SKOV-3, it could not be reverted by exogenous addition of PGE2 (10microM). Flowcytometric analysis of the cell cycle revealed that this growth inhibition was based on a G0/G1-cell-cycle-arrest. In contrast, suppression of COX-1 or COX-2 by RNAi had no effect on proliferation or cell cycle progression. These results suggest that a COX-independent mechanism is responsible for the G0/G1-arrest induced by NS-398.

Cyclooxygenase-2

Apoptose

Zellkultur

COX-2

COX-2-Inhibitoren

NSAID

NS-398

Ovarialkarzinom

Proliferation

G1-Arrest

RNA-Interferenz

RNAi

siRNA

Interleukin-1beta

IL-1beta

IL-1b

apoptosis

Cyclooxygenase-2

COX-2

COX-2-Inhibitors

NSAID

NS-398

ovarian carcinoma

proliferation

G1-arrest

RNA-interference

RNAi

siRNA

Interleukin-1beta

IL-1beta

IL-1b

610 Medizin

33 Medizin

ddc:610