Rôle de la Nicotinamide Phosphoribosyl Transférase dans la régulation de la réponse immune

Gallí, Mara

12 November 2010

Les recherches menées au sein de notre laboratoire ont montré que la Nicotinamide Phosphoribosyltransférase (Nampt) est surexprimée lors de l’activation de plusieurs cellules immunes. Cette surexpression est surprenante si l’on considère que cette enzyme intervient dans le métabolisme de base de toute cellule (immune et non immune) en participant à la synthèse du cofacteur NAD. Au cours de ce travail, nous avons essayé de comprendre quelle est la contribution de cette enzyme aux fonctions immunes. Puisque les souris génétiquement invalidées pour le gène de la Nampt meurent à un stade embryonnaire précoce nous avons invalidé ce gène de façon conditionnelle uniquement dans les lymphocytes T et B. Nos résultats suggèrent que la délétion de la Nampt dans les cellules T et B compromet leur survie. De plus, nous avons testé l’effet d’un inhibiteur spécifique de la Nampt sur la sécrétion de TNF par des macrophages et des cellules dendritiques. Nos résultats montrent que l’inhibition de la Nampt s’accompagne d’une diminution du taux de NAD intracellulaire et, parallèlement, d’une réduction de la quantité de TNF synthétisé. De même, nous avons montré qu’en augmentant le taux de NAD cellulaire il est possible d’augmenter la quantité de TNF produit, ce qui laisse supposer que la capacité de la cellule à synthétiser du TNF serait directement liée à son contenu en NAD. Cette régulation semble impliquer une étape post-transcriptionnelle puisque l’ARNm du TNF ne paraît pas être affecté par ces traitements. Puisque le taux de NAD peut influencer directement l’activité d’enzymes NAD-dépendantes, et en particulier l’activité des enzymes de la famille des sirtuines, nous nous sommes demandés si une sirtuine était impliquée dans la synthèse du TNF. Une approche pharmacologique et une approche génétique nous ont permis de montrer que SIRT6 serait capable d’augmenter la production de TNF à une étape traductionnelle. Cette conclusion semble être confirmée par le fait que des cellules dendritiques dérivées de souris invalidées pour le gène SIRT6 produisent moins de TNF en réponse à un stimulus microbien par rapport à des cellules sauvages. En conclusion nos observations suggèrent la Nampt, en affectant le niveau intracellulaire de NAD, joue un rôle important dans le contrôle de la production du TNF par les cellules de système immunitaire

contrôle post-transcriptionnel

inflammation

nicotinamide phosphoribosyl transférase

NAD

TNF

Inflammation does not precede or accompany the induction of perneoplastic lesions in the colon of 2-amino-1-methyl-6-phenylimidazo[4,5-b]pyridine-fed rats

Scholtka, Bettina, Kühnel, Dana, Taugner, Felicitas, Steinberg, Pablo

January 2009

Heterocyclic aromatic amines (HCAs) are formed in meat cooked at high temperatures for a long time or over an open flame. In this context 2-amino-1-methyl-6-phenylimidazo[4,5-b]pyridine (PhIP), the most abundant HCA in cooked meat, has been suggested to be involved in colon and prostate carcinogenesis. In the latter case it has been reported that: (1) roughly 50% of Fischer F344 male rats treated with PhIP develop carcinomas in the ventral prostate lobe at 1 year of age; (2) inflammation precedes prostatic intraepithelial neoplasia in PhIP-fed rats; (3) inflammation specifically occurs in the ventral prostate lobe of PhIP-fed rats. To test whether PhIP by itself leads to inflammation in the colon and whether a human-relevant concentration of PhIP is able to induce preneoplastic lesions in the colon, male F344 rats were fed 0.1 or 100 ppm PhIP for up to 10 months and thereafter the colon tissue was analyzed histochemically. In none of the experimental groups signs of acute or chronic colonic inflammation were observed. 0.1 ppm PhIP leads to the development of hyperplastic and dysplastic lesions in the colon of single animals, but the incidence of these lesions does not reach a statistical significance. In contrast, in rats fed 100 ppm PhIP for 10 months hyperplastic and dysplastic colonic lesions were induced in a statistically significant number of animals. It is concluded that: (1) the induction of preneoplastic lesions in rat colon by PhIP is not preceded or accompanied by an inflammatory process; (2) a human-relevant concentration of PhIP alone is not sufficient to initiate colon carcinogenesis in rats.

Colorectal cancer

Heterocyclic aromatic amines

Inflammation

Natural sciences and mathematics

Inhibition by PGE₂ of glucagon-induced increase in phosphoenolpyruvate carboxykinase mRNA and acceleration of mRNA degradation in cultured rat hepatocytes

Püschel, Gerhard, Christ, Bruno

January 1994

In cultured rat hepatocytes the key gluconeogenic enzyme phosphoenolpyruvate carboxykinase (PCK) is known to be induced by glucagon via an elevation of cAMP. Prostaglandin E₂ has been shown to antagonize the glucagon-activated cAMP formation, glycogen phosphorylase activity and glucose output in hepatocytes. It was the purpose of the current investigation to study the potential of PGE₂ to inhibit the glucagon-induced expression of PCK on the level of mRNA and enzyme activity. PCK mRNA and enzyme activity were increased by 0.1 nM glucagon to a maximum after 2 h and 4 h, respectively. This increase was completely inhibited if 10 μM PGE2 was added concomitantly with glucagon. This inhibition by PGE₂ of glucagon-induced PCK activity was abolished by pertussis toxin treatment. When added at the maximum of PCK mRNA at 2 h, PGE₂ accelerated the decay of mRNA and reduced enzyme activity. This effect was not reversed by pertussis toxin treatment. Since in liver PGE₂ is derived from Kupffer cells, which play a key role in the local inflammatory response, the present data imply that during inflammation PGE₂ may reduce the hepatic gluconeogenic capacity via a Gᵢ-linked signal chain.

Prostaglandin E₂

Glucagon

Phosphoenolpyruvate carboxykinase

Inflammation

mRNA degradation

Life sciences

Clinical, epidemiological and immunological aspects of Lyme borreliosis with special focus on the role of the complement system

Henningsson, Anna J

January 2011

Lyme borreliosis (LB) is the most common vector-borne disease in the Northern Hemisphere. The infection is caused by spirochetes belonging to the Borrelia burgdorferi sensu lato complex, and it is transmitted to humans by ticks. LB is associated with several clinical manifestations, of which erythema migrans (EM) and neuroborreliosis (NB) are the most common inEurope. The course of the disease is usually benign, but can vary between individuals. The underlying pathogenic mechanisms are not fully understood, but the prognosis is probably determined by a complex interplay between the bacteria and the host’s immune response. Previous studies have indicated that a strong initial T helper (Th) 1-response followed by a Th2 response is beneficial for the clinical outcome in LB. The aims of this thesis were to follow the incidence of NB inJönköping County,Sweden, over time, to search for clinical and laboratory markers associated with the risk of developing long-lasting post-treatment symptoms, and to explore the role of the complement system as well as the relative balance between Th-associated cytokine/chemokine responses in LB. The number of NB cases, diagnosed by cerebrospinal fluid (CSF) analysis, increased from 5 to 10/100,000 inhabitants/year in Jönköping County during 2000-2005. Post-treatment symptoms persisting more than 6 months occurred in 13 %, and were associated with higher age, longer-lasting symptoms prior to treatment, higher levels of Borrelia-specific IgG in CSF, and reported symptoms of radiculitis. Facial palsy, headache and fever were frequent manifestations in children, whereas unspecific muscle and joint pain were the most commonly reported symptoms in older patients. Complement activation occurred both locally in the skin in EM and in CSF of NB patients. However, no activation could be detected in blood in NB patients. Elevated levels of C1q, C4 and C3a in CSF, along with correlation between C1q and C3a levels, suggest complement activation via the classical pathway locally in the central nervous system in NB. In vitro experiments with two clinical Borrelia isolates revealed that B. garinii LU59 induced higher complement activation in human plasma compared to B. afzelii K78 that recruited more of complement regulator factor H. To elucidate the role of complement in the phagocytosis process, experiments were performed using whole blood from healthy donors incubated with fluorescence-labelled spirochetes and different complement inhibitors. The results illustrated a central role of complement for phagocytosis of Borrelia spirochetes. We also studied the relative contribution of different Th-associated cytokines/chemokine responses in NB. The results support the notion that early NB is dominated by a Th1 response, eventually accompanied by a Th2 response. IL-17A was increased in CSF in half of the patients with confirmed NB, suggesting a hitherto unknown role of Th17 in NB. In conclusion, the risk of developing long-lasting post-treatment symptoms tend to increase mainly with age and duration of symptoms prior to treatment in NB. The complement system seems to play an important role in host defence to recognize and kill Borrelia spirochetes. However, complement activation in inappropriate sites or to an excessive degree may cause tissue damage, and therefore, the role of complement in relation to disease course needs to be studied further. Likewise, the role of Th17 in LB pathogenesis and host defence should be further evaluated in prospective studies.

Lyme borreliosis

neuroborreliosis

clinical

epidemiology

inflammation

complement

cytokine

chemokine

Mast Cell Migration in Inflammatory Diseases

Olsson, Niclas

January 2003

Mast cells (MCs) are forceful multifunctional effector cells of the immune system. MCs are normally distributed throughout connective and mucosal tissues, but in several pathological conditions accumulation of MCs occur. This accumulation is probable due to directed migration of MCs and they are subjects for migration at least two different occations: 1) when they are recruited as progenitor cells from the blood into the tissue; and 2) when they as mature MCs are recruited to sites of inflammation. The aim of this study was to investigate MC migration to chemoattractants released in vivo or in vitro (body fluids collected from patients with asthma or rheumatoid arthritis and TH1- and TH2-cytokines) and to recombinant cytokines (transforming growth factor -β (TGF-β) and CCL5/RANTES). This thesis shows that bronchoalveolar lavage (BAL) fluid from asthmatic patients and synovial fluid from patients with rheumatiod arthritis contain MC chemoattractants, and that part of the chemotactic activity can be related to the presence of stem cell factor (SCF) and TGF-β. We also show that MC chemotactic activity during pollen season is significantly increased compared to before pollen season. Furthermore, we demonstrate that TGF-β isoforms, CCL5, TNF-α and IL-4 act as MC chemoattractants in a bellshaped dose- dependent manner. TGF-β proved to be an extremely potent attractant giving an optimal migratory response at 40fM and TGF-β3 being the most effective isoform. The chemokine CCL5 induced migration through interaction with the receptors CCR1 and CCR4 expressed on MC. Furthermore, we also found that TNF-α produced by TH1-lymphocytes and IL-4 produced by TH2-lymphocytes are MC chemoattractants. In conclusion, with this thesis we have identified six new human mast cell chemoattractants and provide evidence that BAL fluid and synovial fluid from patients with asthma and rheumatoid arthritis, respectivly, contain MC chemoattractants. This information provides important clues in understanding the mechanisms behind MC recruitment to sites of inflammation.

Pathology

Mast cells

chemotaxis

inflammation

Patologi

Pathology

Patologi

Plasminogen : a novel inflammatory regulator that promotes wound healing

Shen, Yue

January 2013

The plasminogen activator (PA) system has been shown to be intimately involved in wound healing. However, the role of this system in the initiation and resolution of inflammation during healing process remained to be determined. The aims of this thesis were to investigate the molecular mechanism underlying the interaction between the PA system and the inflammatory system during wound healing and to explore the therapeutic potential of plasminogen in various wound-healing models. The role of plasminogen in the inflammatory phase of the healing process of acute and diabetic wounds was studied first. Our data showed that administration of additional plasminogen to wild-type mice accelerates the healing of acute wounds. After injury, both endogenous and exogenous plasminogen are bound to inflammatory cells and are transported to the wound site, which leads to activation of inflammatory cells. In diabetic db/db mice, wound-specific accumulation of plasminogen does not take place and the inflammatory response is impaired. However, when additional plasminogen is injected, plasminogen accumulates in the wound, the inflammatory response is enhanced, the signal transduction cascade is activated and the healing rate is significantly increased. These results indicate that administration of plasminogen may be a novel therapeutic strategy to treat different types of wounds, especially chronic wounds in diabetes. The role of plasminogen at the later stage of wound healing was also studied in plasminogen-deficient mice. Our data showed that even if re-epithelialization is achieved in these mice, a prolonged inflammatory phase with abundant neutrophil accumulation and persistent fibrin deposition is observed at the wound site. These results indicate that plasminogen is also essential for the later phases of wound healing by clearing fibrin and resolving inflammation. The functional role of two physiological PAs during wound healing was further studied in a tympanic membrane (TM) wound-healing model. Our data showed that the healing process was clearly delayed in urokinase-type PA (uPA)-deficient mice but not in tissue-type PA (tPA)-deficient mice. Less pronounced keratinocyte migration, abundant neutrophil accumulation and persistent fibrin deposition were observed in uPA-deficient mice. These results indicate that uPA plays a central role in the generation of plasmin during the healing of TM perforations. Finally the therapeutic potential of plasminogen in the TM wound-healing model was studied. Our data showed that local injection of plasminogen restores the ability to heal TM perforations in plasminogen-deficient mice in a dose-dependent manner. Plasminogen supplementation also potentiates healing of acute TM perforations in wild-type mice, independent of the administration method used. A single local injection of plasminogen in plasminogen-deficient mice can initiate healing of chronic TM perforations resulting in a closed TM with a continuous but rather thick outer keratinocyte layer. Three plasminogen injections lead to a completely healed TM with a thin keratinizing squamous epithelium covering a connective tissue layer that can start to reorganize and further mature to its normal appearance. In conclusion, our results suggest that plasminogen is a promising drug candidate for the treatment of chronic TM perforations in humans.  Taken together, our data indicate that plasminogen is a novel inflammatory regulator that promotes wound healing.

Plasminogen

inflammation

wound healing

diabetic wounds

tympanic membrane perforations

Induction of ABCA1 Expression Is Correlated With Increased CREB Phosphorylation and Altered Cytokine Secretion

Zaid, Maryam

18 April 2011

ABCA1 is believed to affect macrophage inflammatory responses, but the mechanism by which ABCA1 may impact cytokine secretion in macrophages has yet to be fully defined. We observed that the induction of ABCA1 expression in three different cell lines, namely BHK, RAW 264.7 macrophages, and primary bone marrow derived macrophages (BMDMs), results in a significant increase in phosphorylated CREB, a known protein kinase A (PKA) substrate. In RAW macrophages, induction of ABCA1 expression by the LXR-agonist T0901317 is correlated with a decrease in LPS-stimulated secretion of proinflammatory cytokines IL-6 and TNF-α. Additionally, the secretion of anti-inflammatory cytokine IL-10 was increased upon ABCA1 induction. A similar trend was observed in BMDMS: ABCA1-expressing BMDMs released less TNF-α and more IL-10 compared to ABCA1-knockout BMDMs. We speculated that the inflammation modulating effects of ABCA1 in macrophages could be a result of PKA activation. Indeed, we found that the LXR-induced ABCA1 phenotype can be mimicked by cAMP in macrophages. 8-bromo-cAMP, a PKA activator, dose-dependently suppressed inflammatory cytokine secretion while promoting IL-10 release in the absence of ABCA1 expression. Finally, we found that the T0901317-induced ABCA1 expression is correlated with higher expression levels of MKP-1, a downstream target of PKA known to suppress inflammatory responses. Together, our results suggest that ABCA1 expression may activate PKA and CREB and that such activation may contribute to the inflammatory modulating effects of ABCA1.

ABCA1

atherosclerosis

LXR-agonist

CREB

MKP-1

PKA

inflammation

THE EFFECT OF ALUMINUM ON HEPATIC BILIARY TRANSPORTERS AS A CONTRIBUTING FACTOR TO PARENTERAL NUTRITION INDUCED INTRAHEPATIC CHOLESTASIS

2013 March 1900

Intravenous feeding of patients with essential and balanced nutrition is required when enteral feeding is not tolerated, therefore indicating the need for Total Parenteral Nutrition (TPN). This life-saving therapy is also associated with the increase risk of intrahepatic cholestasis. The incidence of TPN-related hepatobiliary complications is common in both adults and infants on TPN. Previous work in in vivo models suggested that one of the potential contributing factors is the aluminum contamination of TPN solutions. The mechanism by which aluminum contributes to the PNAC development, though, was unknown. Aluminum as a risk factor may influence a number of hepatocellular functions to lead to cholestasis but one possible mechanism is the potential for aluminum to cause dysfunction of those transporters responsible in the maintenance of bile flow. To provide some initial information regarding the role of aluminum as a contributing factor to cholestasis and the possible underlying mechanism, cytotoxicity studies were conducted to determine whether aluminum causes direct toxicity of HepG2 cells. Furthermore, the influence of aluminum on the mRNA expression of hepatic biliary transporters (BSEP, MRP2, MATE1, NTCP) and nuclear transcription factor (FXR) in HepG2 cells using real-time RT-PCR analysis was assessed. Since inflammation is a component of cholestasis, these investigations also involved the use of an inflammatory stimulus, lipopolysaccharide (LPS), to determine whether the effects of aluminum were exacerbated by underlying inflammation. My data suggest that for the canalicular hepatic transporters MATE1 and BSEP, aluminum at higher concentration alone as well as with LPS caused increased mRNA expression levels. In addition to this, BSEP mRNA expression was preserved and that of MATE1 was increased on LPS exposure. Given the particular importance of BSEP in the maintenance of bile flow and reported effects of drug-induced inhibition of BSEP to cause hepatic cholestasis, the influence of aluminum on BSEP (and MATE1) protein expression and activity warrant investigation. Further studies may identify that inhibition of BSEP function (and possibly MATE1) by aluminum contamination of total parenteral nutrition formulations may explain, in part, the intrahepatic cholestasis associated with parenteral nutrition.

Aluminum

Hepatic biliary Transporters

Inflammation

Intracellular Signaling Pathways Regulating Hepatic Apolipoprotein B100 Production: Roles of Mitogen-activated Protein Kinases (MAPKs) and Inhibitor of NFkappaB Kinase (IKK)-NFkappaB

Tsai, Julie

03 March 2010

Apolipoprotein B100 (apoB), the structural protein component of triglyceride-rich very low density lipoprotein (VLDL) and atherogenic low density lipoprotein, is considered an important risk indicator of atherosclerosis. In insulin resistant states, hepatic overproduction of apoB leads to metabolic dyslipidemia, characterized by high circulating VLDL and hypertriglyceridemia. Since the mitogen-activated protein kinases (MAPKs) and the inhibitor of NFkappaB kinase (IKK)-NFkappaB cascades are perturbed in insulin resistance, we hypothesized that the MAPKs (ERK, p38 and JNK) and the IKK-NFkappaB pathways regulate hepatic apoB output. We modulated these pathways in HepG2, a human hepatoma cell line, and primary hamster hepatocytes using chemical inhibitors and protein overexpression. ApoB synthesis and secretion were examined by metabolic pulse labeling. HepG2 is typically defective in secreting apoB as large VLDL particles and secretes smaller triglyceride-poor apoB-particles. Under continuous pulse labeling, ERK inhibition not only increased apoB secretion, it enabled HepG2 to secrete VLDL-sized particles in the presence of exogenous fatty acid (oleate). Concomitant with the increased apoB-particle size, ERK inhibition raised intracellular triglyceride level and diacylglycerol acyltransferase (DGAT) 1 and DGAT2 mRNA levels. Conversely, ERK activation decreased VLDL-apoB secretion from primary hepatocytes. In contrast to ERK, p38 or JNK inhibition decreased apoB secretion without affecting apoB-particle size from oleate-treated HepG2 cells. JNK inhibition also modulated apoB levels in primary hamster hepatocytes. Interestingly, the development of diet-induced hepatic insulin resistance was associated with decreased ERK, and enhanced p38 and NFkappaB activities. Thus we investigated the role of the NFkappaB pathway in regulating hepatic apoB production. IKK inhibition decreased and IKK overexpression increased apoB levels by modulating apoB mRNA translation and protein stability. IKK inhibition also suppressed hepatic apoB overproduction in an insulin resistance model, the fructose-fed hamster. Altogether, our results suggest that among the MAPK cascades, the MEK-ERK pathway is crucial in regulating apoB-lipoprotein assembly, possibly by modulating lipid availability to newly-synthesized apoB. The inflammatory IKK-NFkappaB cascade is also involved in regulating apoB synthesis and secretion. We postulate that dysregulation in the MAPK or NFkappaB cascades in insulin resistant and inflammatory states may contribute to hepatic apoB overproduction, and the common phenotype of hypertriglyceridemia and dyslipidemia.

metabolism

lipids

signalling

lipoproteins

insulin resistance

inflammation

0379

Mechanisms of environmental tobacco smoke and benzo[a]pyrene induced cardiovascular injury and the protective role of resveratrol

Al-Dissi, Ahmad

21 March 2011

Despite extensive research, the mechanisms behind cardiovascular effects of subchronic environmental tobacco smoke (ETS) remain unclear, but may be related to ETS-induced inflammation and oxidative stress. Additionally, the protective role of resveratrol (RES), a natural antioxidant available in red grapes, is controversial. We hypothesized that the polycyclic aromatic hydrocarbon (PAH) component of ETS is responsible for causing adverse cardiovascular effects. We also hypothesized that the administration of RES is protective against the adverse cardiovascular effects of ETS. In order to address these hypotheses, male juvenile pigs (4-weeks old) were exposed to ETS or ambient air for 28 consecutive days (1 hr/day) and effects compared to 7 days of i.v. injection of the PAH, benzo-a-pyrene (BAP; 5 mg/kg daily). In another experiment, pigs were sham-exposed or ETS-exposed, with or without oral RES treatment (5mg/kg daily). In all experiments, endothelial and left ventricular function were assessed by flow mediated dilation (FMD), and echocardiography, respectively, while blood pressure was evaluated by oscillometry. At the termination of each experiment, serum nitrotyrosine, total nitrate/nitrite (NOx) and C-reactive protein (CRP) were measured as well as hepatic and pulmonary ethoxyresorufin-o-deethylase (EROD) activity to indicate cytochrome P450 1A1 (CYP1A1) expression. Finally, the correlation between pulmonary inflammation and adverse cardiovascular effects was investigated by measuring total and differential white blood cell (WBC) count as well as leukocyte elastase activity in bronchoalveolar lavage fluid at the termination of each experiment. ETS exposure, but not BAP treatment, resulted in a significant impairment of FMD (P<0.0001) and increased left ventricular end diastolic volume (P=0.0032). Cotreatment with RES failed to restore the ETS induced impairment of FMD (P>0.05). However, a trend pointing to an increase in ejection fraction (EF) was noted (P=0.072). ETS, BAP and RES treatments failed to have any effect on blood pressure (P>0.05). BAP injection caused a significant increase in serum nitrotyrosine (P=0.0146) and CRP (P=0.012), but not serum NOx levels (P>0.05). In contrast, ETS exposure resulted in a significant increase in CRP serum levels (P=0.0092), a trend pointing to increased serum nitrotyrosine (P=0.105), and no change in serum NOx levels (P>0.05). The increased nitrotyrosine and CRP with ETS exposure was not reversed by RES administration (P>0.05). ETS exposure increased EROD activity in the lung (P=0.0093), but not the liver (P=0.12). In contrast, BAP treatment had the opposite effect (lung EROD: P=0.621, liver EROD: P=0.01), while RES administration had no effect (P>0.05). ETS exposure (P=0.0139), but not BAP treatment (P=0.723), resulted in increased WBC count in BAL fluid which was not affected by RES administration (P>0.05). These results show that ETS exposure causes lung inflammation, systemic inflammation, oxidative stress-mediated inactivation of nitric oxide and impaired endothelial function. In contrast, BAP failed to alter endothelial function, downstream of the lung, despite systemic inflammation and increased oxidative stress. Furthermore, RES failed to restore endothelial function, or decrease systemic inflammation and oxidative stress. Taken together, these results suggest either that pulmonary inflammatory responses or pulmonary increases in CYP1A1 activity may be more important links to endothelial dysfunction than systemic inflammation and nitric oxide bioactivity. The beneficial effects of RES by itself are manifested only at the cardiac level by improving the ejection fraction, but the work in this thesis failed to detect any ability of RES to ameliorate ETS cardiovascular effects.

oxidative stress

cardiovascular

environmental tobacco smoke

benzo[a]pyrene

inflammation

lung