Einfluss von freien Fettsäuren und Triglyceriden auf die Expression von proinflammatorischen Mediatoren und Adhäsionsmolekülen in Hepatozyten und Kupffer-Zellen (der Ratte) / Effect of free fatty acids and triglycerides on the expression of proinflammatory mediators and adhesion molecules in hepatocytes and Kupffer cells (of the rat)

Demuth, Julia Elisabeth

01 December 2009

No description available.

610 Medizin, Gesundheit

Medicine

Julia Demuth

NASH

Fettleber

Steatosis Hepatis

Leberentzündung

Two-Hit-Hypothese

Hepatozyten

Kupffer-Zellen

Hep G2

Linolsäure

Palmitinsäure

Triglyceride

Lipofundin

iNOS

CINC1

CINC2

MIP

IL-6

TNFa

ICAM

PECAM

Julia Demuth

Non Alcoholic Fatty Liver Disease

NASH

fatty liver

Steatosis Hepatis

hepatitis

Two-Hit-Hypothese

hepatocytes

Kupffer cells

Hep G2

linoleic acid

palmatic acid

triglyceride

Lipofundin

iNOS

CINC1

CINC2

MIP

IL-6

TNFa

ICAM

PECAM

44.87

MED 415: Hepatologie

The role of the JNK/AP-1 pathway in the induction of iNOS and CATs in vascular cells

Zamani, Marzieh

January 2013

Nitric oxide (NO) is an important biological molecule within the body, which over production of this molecule in response to different stimulations can cause various inflammatory diseases. Over production of this molecule is caused by the induction of the inducible nitric oxide synthase (iNOS) enzyme. This enzyme uses L-arginine as a substrate and therefore the presence and transport of this amino acid into the cells can be a key factor in regulating NO over production. Different signalling mechanisms have been implicated in the regulation of this pathway and one of which involves the Mitogen Activated Protein Kinases (MAPK). This family of proteins respond to inflammatory conditions and may mediate effects induced by inflammatory mediators. Of the MAPKs, the role of the c-Jun-N-terminal kinase (JNK) pathway in the induction of iNOS is still controversial. JNK and its downstream target, the transcription factor Activator Protein-1 (AP-1), have shown contradictory effects on iNOS induction leading to controversies over their role in regulating iNOS expression in different cell systems or with various stimuli. The studies described in this thesis have determined the role of JNK/AP-1 on iNOS expression, NO production, L-arginine uptake and also on the transporters responsible for L-arginine transport into the cells. The studies were carried out in two different cell types: rat aortic smooth muscle cells (RASMCs) and J774 macrophages which are both critically associated with the over production of NO in vascular inflammatory disease states. The first approach was to block the expression of the inducible L-arginine-NO pathway using SP600125 and JNK Inhibitor VIII which are both pharmacological inhibitors of JNK. The results from these studies showed that the pharmacological intervention was without effect in RASMCs, but inhibited iNOS, NO and L-arginine transport in J774 macrophages. In contrast, the molecular approach employed using two dominant negative constructs of AP-1 (TAM-67 and a-Fos) revealed a different profile of effects in RASMCs, where a-Fos caused an induction in iNOS and NO while TAM-67 had an inhibitory effect on iNOS, NO, L-arginine transport and CAT-2B mRNA expression. The latter was unaffected in RASMCs but suppressed in J774 macrophages by SP600125. Examination of JNK isoforms expression showed the presence of JNK1 and 2 in both cell systems. Moreover, stimulation with LPS/IFN- or LPS alone resulted in JNK phosphorylation which did not reveal any difference between smooth muscle cells and macrophages. In contrast, expression and activation of AP-1 subunits revealed differences between the two cell systems. Activation of cells with LPS and IFN- (RASMCs) or LPS alone (J774 macrophages) resulted in changes in the activated status of the different AP-1 subunit which was different for the two cell systems. In both cell types c-Jun, JunD and Fra-1 were increased and in macrophages, FosB activity was also enhanced. Inhibition of JNK with SP600125 caused down-regulation in c-Jun in both cell types. Interestingly this down-regulation was in parallel with increases in the subunits JunB, JunD, c-Fos and Fra-1 in RASMCs or JunB and Fra-1 in J774 macrophages. Since, SP600125 was able to exert inhibitory effects in the latter cell type but not in RASMCs, it is possible that the compensatory up-regulation of certain AP-1 subunits in the smooth muscle cells may compensate for c-Jun inhibition thereby preventing suppression of iNOS expression. This notion clearly needs to be confirmed but it is potentially likely that hetero-dimers formed between JunB, JunD, c-Fos and Fra-1 could sustain gene transcription in the absence of c-Jun. The precise dimer required has not been addressed but unlikely to exclusively involve JunB and Fra-1 as these are up-regulated in macrophages but did not sustain iNOS, NO or induced L-arginine transport in the presence of SP600125. To further support the argument above, the dominant negatives caused varied effects on the activation of the different subunits. a-Fos down-regulated c-Jun, c-Fos, FosB, Fra-1 whereas TAM-67 reduced c-Jun and c-Fos but marginally induced Fra-1 activity. Associated with these changes was an up-regulation of iNOS-NO by a-Fos and inhibition by TAM-67. Taken together, the data proposes a complex mechanism(s) that regulate the expression of the inducible L-arginine-NO pathway in different cell systems and the complexity may reflect diverse intracellular changes that may be different in each cell type and not always be apparent using one experimental approach especially where this is pharmacological. Moreover, these findings strongly suggest exercising caution when interpreting pure pharmacological findings in cell-based systems particularly where these are inconsistent or contradictory.

616.0473

Microcirculation, Mucus and Microbiota in Inflammatory Bowel Disease

Schreiber, Olof

January 2010

Inflammatory bowel diseases, (IBD), are a group of chronic disorders of the gastro-intestinal tract, and include Crohn’s disease (CD) and Ulcerative Colitis (UC). The pathogenesis is not known, but involves at least in part a loss of tolerance towards the commensal colonic microbiota. In this thesis, we show in animal models of CD and UC that the colonic mucosal blood flow increased compared to healthy animals. This blood flow increase is due to an up regulation of endothelial nitric oxide synthase (NOS). Further, we show in the UC model that the thickness of the firmly adherent colonic mucus layer increased compared to healthy animals. This increase is due to an up regulation of inducible NOS in the epithelium. Both the blood flow and mucus thickness increase appear to be protective mechanisms.  We demonstrate that the firmly adherent colonic mucus layer acts as a partial barrier towards luminal bacteria. In the UC model, this barrier is destroyed, causing increased bacterial translocation. The adhesion molecule P-selectin was up regulated in the UC model, leading to increased interactions between leukocytes and the endothelium, but also increased interactions between platelets and the endothelium. This indicates that not only leukocytes, but also platelets are involved in colonic inflammation. The addition of the probiotic bacterial strain Lactobacillus reuteri prevented disease by normalizing P-selectin levels and endothelial interactions with leukocytes and platelets. Lactobacillus reuteri also decreased bacterial translocation over the epithelium. In summary, this thesis highlights the importance of colonic barrier functions, and investigates the role of the microbiota in experimental IBD.

inflammatory bowel diseases

experimental colitis

DSS

TNBS

colonic mucosal blood flow

laser-doppler flowmetry

colonic mucus thickness

MUC2

colonic mucosal barrier function

iNOS

eNOS

probiotics

Lactobacilli

Lactobacillus reuteri

colonic microbiota

T-RFLP

bacterial translocation

intravital microscopy

P-selectin

leukocyte recruitment

platelet recruitment

Physiology

Fysiologi

Novel Interventions in Cardiac Arrest : Targeted Temperature Management, Methylene Blue, S-PBN, Amiodarone, Milrinone and Esmolol,  Endothelin and Nitric Oxide In Porcine Resuscitation Models

Zoerner, Frank

January 2015

It is a major clinical problem that survival rates after out-of-hospital cardiac arrest have not markedly improved during the last decades, despite extensive research and the introduction of new interventions. However, recent studies have demonstrated promising treatments such as targeted temperature management (TTM) and methylene blue (MB). In our first study, we investigated the effect of MB administered during experi-mental cardiopulmonary resuscitation (CPR) in the setting of postponed hypother-mia in piglets. We set out to study if MB could compensate for a delay to establish targeted TTM. The study demonstrated that MB more than compensated for 30 min delay in induction of TTM. The effect of MB added to that of TTM. The second study examined the effects of TTM and S-PBN on the endothelin system and nitric oxide synthases (NOS) after prolonged CA in a porcine CPR mod-el. The study was designed to understand the cardioprotective mechanism of S-PBN and TTM by their influence on the endothelin system and NOS regulation. We veri-fied for the first time, that these two cardioprotective postresuscitative interventions activate endothelin-1 and its receptors concomitantly with eNOS and nNOS in the myocardium. We concluded that nitric oxide and endothelin pathways are implicated in the postresuscitative cardioprotective effects of TTM. The third study compared survival and hemodynamic effects of low-dose amio-darone and vasopressin to vasopressin in a porcine hypovolemic CA model. The study was designed to evaluate whether resuscitation with amiodarone and vasopressin compared to vasopressin alone would have an impact on resuscitation success, survival, and hemodynamic parameters after hemorrhagic CA. We found that combined resuscitation with amiodarone and vasopressin after hemorrhagic circulatory arrest resulted in greater 3-hour survival, better preserved hemodynamic parameters and smaller myocardial injury compared to resuscitation with vasopressin only. In our fourth study we planned to compare hemodynamic parameters between the treatment group (milrinone, esmolol and vasopressin; MEV) and control group (vasopressin only) during resuscitation from prolonged cardiac arrest in piglets. The study was designed to demonstrate if MEV treatment improved hemodynamics or cardiac damage compared to controls. We demonstrated that MEV treatment reduced cardiac injury compared with vasopressin alone.

restoration of spontaneous circulation

ROSC

cardiopulmonary resuscitation

CPR

cardiac arrest

methylene blue

MB

S-PBN

mild therapeutic hypothermia

MTH

targeted temperature management

TTM

endothelin

ET-1

ECE-1

ETAR

ETBR

nitric oxide

NO

nitric oxide synthase

NOS

eNOS

iNOS

nNOS

porcine

amiodarone

hypovolemia

milrinone

vasopressin

esmolol

epinephrine

Lymph node and peri-lymph node stroma : phenotype and interaction with T-cells

Stoffel, Nicholas J.

11 July 2014

Indiana University-Purdue University Indianapolis (IUPUI) / The non-hematopoietic, stationary stromal cells located inside and surrounding skin-draining lymph nodes play a key role in regulating immune responses. We studied distinct populations of lymph node stromal cells from both human subjects and animal models in order to describe their phenotype and function. In the mouse model, we studied two distinct populations: an endothelial cell population expressing Ly51 and MHC-II, and an epithelial cell population expressing the epithelial adhesion molecule EpCAM. Analysis of intra-nodal and extra-nodal lymph node (CD45-) stromal cells through flow cytometry and qPCR provides a general phenotypic profile of the distinct populations. My research focused on the EpCAM+ epithelial cell population located in the fat pad surrounding the skin draining lymph nodes. The EpCAM+ population has been characterized by surface marker phenotype, anatomic location, and gene expression profile. This population demonstrates the ability to inhibit the activation and proliferation of both CD4 and CD8 T cells. This population may play a role in suppressing overactive inflammation and auto-reactive T cells that escaped thymic deletion. The other major arm of my project consisted of identifying a novel endothelial cell population in human lymph nodes. Freshly resected lymph nodes were processed into single cell suspensions and selected for non-hematopoietic CD45- stromal cells. The unique endothelial population expressing CD34 HLA-DR was then characterized and analyzed for anatomic position, surface marker expression, and gene profiles. Overall, these studies emphasize the importance of stationary lymph node stromal cells to our functioning immune systems, and may have clinical relevance to autoimmune diseases, inflammation, and bone marrow transplantation.

Lymph Node Stroma

Lymph Node

EpCAM

Ly51

iNOS

IDO1

Mesenchymal stem cells -- Research

Lymph nodes

Inflammation

Immune response -- Regulation

Inflammation -- Animal models

Bone marrow -- Transplantation

Autoimmune diseases

Endothelial cells

Epithelium

Phenotype

Flow cytometry -- Diagnostic use

T cells

Gene targeting

Gene expression

Lymphocytes

Animal models in research