The antimicrobial effectiveness and cytokine response of <i>Pseudomonas aeruginosa</i> bacteriophages in a human lung tissue culture model

Shiley, Joseph Robert

January 2016

No description available.

Biology

Microbiology

Immunology

A549

U937

pseudomonas aeruginosa

tissue culture

cytokine response

IL-6

IL-8

IL-10

TNF-alpha

PAO1

cystic fibrosis

alveolar

co-culture

phage therapy

bacteriophage

innate resistance

Inflammatory Responses to Combinations of: Mental Load, Repetitive Lifting and Subject Personality.

Splittstoesser, Riley Emiel

January 2016

No description available.

Engineering

Industrial Engineering

Biochemistry

<b>Ontological changes in the swine fetus and placenta from mid- to late-gestation</b>

Kaylyn G Rudy (19832829)

11 October 2024

<p dir="ltr">Porcine reproductive and respiratory syndrome virus (PRRSV) is a devastating virus that is endemic to the swine industry. This virus has little direct effect on the dam but results in abortions, stillborn, and delivery of viremic piglets. PRRSV is unable to cross the swine placenta in early gestation but as gestation progresses, the placenta becomes permissible during late gestation. The mechanisms that allow the virus to cross the late gestation placenta are not well understood, but several theories have been presented regarding changes in placental morphology or enzymatic changes. Additionally, piglets who experience IUGR due to uterine crowding have been found to be more resistant to PRRSV infection, having lower viral levels than their normal litter mates. When vertical transmission from the dam to fetus occurs not only can the effects previously mentioned occur, but PRRSV is also known to cause suppression of maternal and fetal thyroid hormone. Thyroid hormone plays numerous roles in fetal development such as accretion of fetal mass, appetite regulation, and coincidently follows a similar increase trajectory to that of fetal growth during mid- to late-gestation. Consequently, any dysregulation of thyroid hormone has the potential to cause severe side-effects and may alter fetal growth. The relationship between thyroid hormone and fetal growth and development is not well understood. Chapter 2 investigates the potential cause-and-effect relationship between fetal growth and thyroid hormone through the induction of fetal hypothyroidism. Pregnant gilts (n=24) were given a sham treatment (CON; n=12) or treated with methimazole (MMI; n=12), a goitrogen capable of crossing the placenta. These gilts were then further subdivided across four gestational timepoints spanning mid- to late-gestation, these being days 55, 66, 76, and 86. Treatment started 21 days prior to these desired dates. Upon completion of treatment the gilts were humanely euthanized, and fetuses were extracted (resulting populations of n=174 MMI and n=166 CON) and fetal body and organ weights were recorded. Collected tissues included heart, liver, lung, kidneys, spleen, brain and thyroid. Fetuses were imaged in the left and right lateral recumbency for phenotypic analysis, including novel head measurements. Placental sample were also taken. Additionally fore- and hind limbs were taken from the centermost male and female from each litter so that radiographs could be taken to analyze bone growth. Statistical analysis of all phenotypic differences was carried out using a linear mixed effect model including gestational age and treatment as fixed effects and gilt as a random effect. The data revealed that the left and right phenotypic parameters are highly correlated (R2>0.9). Upon extraction, goiters were present in the MMI fetuses and there was a significant increase in both absolute and relative thyroid weights. Thus, the use of MMI during this period of gestation was successful in inducing hypothyroidism. Additionally, the MMI treated thyroids had a significant treatment by time interaction with 0.014g and 0.21g increase at day 55 and 66 respectively indicating reduced compensatory action within the fetal hypothalamic-pituitary-thyroid axis during this earliest period. Liver weight as a percentage of body weight decreased from 6.06% to 2.56% between days 55 and 86 in the CON group but, was significantly increased at all time points in response to MMI induced hypothyroidism (P<0.01). Thus, the in brain to liver weight ratio decreases over time, in MMI fetuses (P<0.05). While all other phenotypic parameters were significantly altered by gestation age, there was no significant impact of fetal hypothyroidism. This indicates that fetal thyroid hormone is not the driving factor for the exponential fetal growth seen in mid- to late-gestation. PRRSV virus is a complex and devastating virus to the swine industry, especially when it infects pregnant gilts and sows. PRRSV is unable to cross the swine placenta during mid-gestation but as gestation progresses the virus readily crosses the placenta and is able to infect piglets during this late gestation period. The mechanisms by which PRRSV crosses the highly restrictive porcine placenta are not clear. Additionally, piglets who experience intrauterine growth retardation experience lower virus levels than their normal counterparts. Chapter 3 investigates the changes in three genes of interest that we hypothesized, had the potential to fluctuate throughout gestation and facilitate PRRSV transfer, as well as the morphological changes that occur in the maternal-fetal interface through mid- to late-gestation and how these aspects may vary between IUGR and normal piglets. Placental samples were collected from pregnant gilts (n=12) equally divided across days 55, 66, 76, and 86 of gestation. Samples were taken of each fetus’s placenta adjacent to the umbilical cord. A portion of the sample was cut into 1 cm2 and placed into a mold with optimal cutting temperature media (OCT) for later cryo-sectioning and histology. The remaining portion had the fetal placenta peeled from the endometrium and flash frozen in liquid nitrogen for RNA extraction. A subset of samples was chosen based on fetus’s brain to liver weight ratios (n=96). From each litter two males and two females with the most extreme case of IUGR, based on z-scores, were chosen and the same was done for the two males and females with lowest brain to liver weight ratios, the later were classified as large for gestational age (LGA). 56 of the original 64 had acceptable levels of placental RNA for analysis. A total of 3 genes were chosen for analysis based on their function and previous literature. These included CD163, SIGLEC1 and IL-10. No significant up or down regulation was seen in any of the selected genes and there was no variation between IUGR and LGA fetuses. Additionally, placenta histology was conducted to evaluate populations of CD163 positive macrophages throughout the maternal fetal interface across mid- to late-gestation. Populations of CD163 positive macrophages were found on both the maternal and fetal sides of the maternal fetal interface at all timepoints. Collectively these results show there is no fluctuation in CD163, SIGLEC1, or IL-10 among timepoints or between IUGR and LGA fetuses. Additionally, the histology samples confirm the presence of resident populations of CD163 positive macrophages on maternal and fetal sides of the MFI. Collectively these results indicate that more research needs to be done to determine the underlying mechanisms of PRRSV transmission during late gestation.</p>

Animal growth and development

Animal reproduction and breeding

Swine

maternal fetal interface

Thyroid

IUGR intrauterine growth restriction

Bone growth

CD163

IL-10

SIGLEC1

Fetal tissue

methimazole (MMI)

Macrophage

Die funktionelle Modifikation der proinflammatorischen M-DC8+ dendritischen Zellen durch zyklisches Adenosin-Monophosphat

Ebling, Annette

14 July 2005

In this work, the influence of the second messenger cAMP on the functional plasticity of M-DC8+ dendritic cells (DC) was examined. The marker M-DC8 defines a population of native DC first described in blood. After their isolation, M-DC8+ DC acquire a mature CD83+ phenotype during a short culture ex vivo. After a challenge with LPS and IFN-g, M-DC8+ DC secrete large amounts of the proinflammatory cytokines IL-12(p70) and TNF-a surpassing by far other DC populations and monocytes. Due to their preferential induction of TH1-dominated T cell responses, M-DC8+ DC might play a role in the pathogenesis of inflammatory diseases. Different cAMP-elevating agents suppressed the proinflammatory cytokine production and enhanced the secretion of anti-inflammatory IL-10. Activity of phosphodiesterase (PDE) 4, the most important cAMP-hydrolysing enzyme in immune cells, was detected and RT-PCR revealed the expression of PDE4 subtypes 4A, 4B and 4D in M-DC8+ DC, whereas 4C was not detectable. The PDE4-specific inhibitors AWD12-281 and Roflumilast were then used to elevate cAMP concentrations. These substances have been proven to be efficient in anti-inflammatory therapies. In the presence of PDE4 inhibitors, the LPS/IFN-g-induced production of IL-12 and TNF-a was decreased by 90 % and 60 %, respectively, whereas the IL-10-release was doubled. These effects were only observed, if the PDE4 inhibitors where present from the beginning of the culture. The inhibition of the IL-12 secretion was reverted using an a-IL-10-receptor antibody. PDE4 inhibitor-treated M-DC8+ DC showed a reduced capacity to polarize TH1-cells, which was demonstrated analysing culture supernatants by ELISA and by single-cell analysis detecting intracellular IFN-g und IL-4. These results suggest that PDE4 inhibitors may not only be useful in the therapy of TH2-mediated diseases but also in TH1-dominated indications such as multiple sclerosis and Crohn´s disease. Despite the shift of the cytokine profile, the in vitro maturation of M-DC8+ DC was not affected by PDE4 inhibitors. The expression of CD83, CD80, CD86, MHC-molecules as well as CD54 and CD58, was assessed by FACS analysis. Correspondingly, in the presence of AWD12-281, M-DC8+ DC efficiently stimulated the proliferation of allogeneic CD4+CD45RA+ T-cells. In the second part of this study, the effects of an inhibition of cAMP-synthesis in M-DC8+ DC were analyzed. Two adenylyl cyclase (AC) inhibitors, 2,5-Dideoxyadenosine and SQ22536, clearly hampered the in vitro maturation of M-DC8+ DC. The expression of the DC maturation marker CD83 could be reconstituted using the stable cAMP-analogon 8-Br-cAMP. Measuring the intracellular cAMP concentration in M-DC8+ DC, initially low cAMP-levels were observed, but within 30 min the concentration raised and returned to original levels within 2 hrs. Blocking the cAMP synthesis by AC inhibitors, the LPS/IFN-g-induced production of IL-12, TNF-a and IL-10 was strongly reduced. Furthermore, it was demonstrated that M-DC8+ DC can only release IL-12 after a transient elevation of cAMP, i.e. they acquire a &amp;quot;license&amp;quot;. Such a regulation of the IL-12 production has not been described before. Protein kinase A is an important effector molecule of cAMP. Inhibiting its activity resulted in a reduced expression of the DC maturation marker CD83 and a lower cytokine production underlining the importance of cAMP-signalling for the activation of M-DC8+ DC. In conclusion, this study provides evidence for a new concept of the immune-regulatory function of cAMP. Here, cAMP is essentially involved in the initial activation and maturation of DC and enables them to secrete large amounts of IL-12 and TNF-a upon stimulation with a TLR ligand. Conversely, a long-term elevation of cAMP-concentrations inhibits the proinflammatory effector functions of M-DC8+ DC and can induce anti-inflammatory responses by enhancing the secretion of IL-10. / In dieser Arbeit wurde der Einfluss des second messengers cAMP auf die funktionelle Plastizität von M-DC8+ dendritischen Zellen (DC) untersucht. Der Oberflächenmarker M-DC8 definiert eine zunächst im Blut beschriebene Population nativer DC. Nach ihrer Isolation erlangen M-DC8+ DC während einer kurzen Kultur einen maturen CD83+ Phänotyp. Nach Stimulation mit LPS und IFN-g produzieren native M-DC8+ DC deutlich höhere Mengen der proinflammatorischen Zytokine IL-12(p70) und TNF-a als andere DC-Populationen oder Monozyten. Dies resultiert in einer Programmierung TH1-dominierter T-Zellantworten. M-DC8+ DC könnten daher an der Pathogenese entzündlicher Krankheiten beteiligt sein. Unterschiedliche cAMP-erhöhende Substanzen supprimierten die proinflammatorische Zytokinproduktion und verstärkten gleichzeitig die Sekretion des anti-inflammatorischen IL-10. In M-DC8+ DC konnte die Aktivität von Phosphodiesterase (PDE) 4, dem wichtigsten cAMP-hydrolysierenden Enzym in Immunzellen, nachgewiesen werden. Durch RT-PCR wurde die Expression der PDE4-Subtypen 4A, 4B und 4D gezeigt, nicht aber 4C. Zur Erhöhung der cAMP-Konzentration wurden dann die PDE4-spezifischen Inhibitoren AWD12-281 und Roflumilast eingesetzt, deren klinische Effizienz bei anti-inflammatorischen Therapien belegt ist. Auch diese Substanzen verringerten die LPS/IFN-g-induzierte Produktion von IL-12 und TNF-a durch M-DC8+ DC um 90 % bzw. 60 %, während die IL-10-Freisetzung etwa verdoppelt wurde. Diese starken Effekte konnten nur erzielt werden, wenn die PDE4-Inhibitoren von Beginn der Kultur an eingesetzt wurden. Die Hemmung der IL-12-Sekretion wurde in Gegenwart eines a-IL-10-Rezeptor-Antikörpers aufgehoben. Unter dem Einfluss von PDE4-Inhibitoren war die TH1-Programmierung durch M-DC8+ DC deutlich reduziert, was sowohl durch die Analyse der Zellüberstände mittels ELISA als auch auf Einzelzell-Ebene durch intrazelluläre Detektion von IFN-g und IL-4 nachgewiesen wurde. Diese Ergebnisse legen nahe, dass PDE4-Inhibitoren nicht nur für TH2-vermittelte Erkrankungen sondern auch für TH1-dominierte Indikationen wie Multiple Sklerose oder Morbus Crohn von Nutzen sein könnten. Trotz der starken Modulation des Zytokinprofils blieb die in vitro-Ausreifung M-DC8+ DC unbeeinflusst von PDE4-Inhibitoren. Untersucht wurde die Expression von CD83, CD80, CD86, MHC-Molekülen, CD54 und CD58 mittels FACS-Analyse. Entsprechend induzierten M-DC8+ DC auch in Anwesenheit von AWD12-281 die Proliferation allogener CD4+CD45RA+ T-Zellen. Im zweiten Teil der Arbeit wurde untersucht, wie sich die Blockade der cAMP-Synthese auf M-DC8+ DC auswirkt. Zwei Adenylatcyclase-Inhibitoren, 2,5-Dideoxyadenosine und SQ22536, hemmten die in vitro-Maturation von M-DC8+ DC deutlich. Die CD83-Expression wurde mit 8-Br-cAMP rekonstituiert. Messungen der intrazellulären cAMP-Konzentration in unbehandelten M-DC8+ DC zeigten initial niedrige cAMP-Spiegel, die innerhalb von 30 min anstiegen und nach 2 h wieder auf das Ausgangsniveau abfielen. Die LPS/IFN-g-induzierte Produktion von IL-12, TNF-a und IL-10 wurde durch AC-Inhibitoren deutlich vermindert. M-DC8+ DC erhalten nur nach einer transienten cAMP-Erhöhung die &amp;quot;Lizenz&amp;quot; IL-12 freizusetzen. Eine derartige Regulation der IL-12-Sekretion ist bisher nicht beschrieben. Eine Hemmung des cAMP-Effektormoleküls Proteinkinase A resultierte in der reduzierten Expression des DC-Maturationsmarkers CD83 und einer verringerten Zytokinproduktion. Dies unterstreicht die Bedeutung von cAMP für die Aktivierung M-DC8+ DC. Zusammenfassend gibt diese Arbeit am Beispiel nativer humaner DC Anhalt für ein neues Konzept der immunregulatorischen Funktion von cAMP. Hierbei ist cAMP wesentlich an der Ausreifung von M-DC8+ DC beteiligt, woraufhin diese große Mengen IL-12 und TNF-a sekretieren können. Dagegen wirkt eine langfristige cAMP-Erhöhung durch die Induktion von IL-10 anti-inflammatorisch.

info:eu-repo/classification/ddc/171

ddc:171

Comparison of the effects of low dose and high dose inhaled corticosteroid treatment of mild to moderate asthma in adults.

Baraket, Melissa, mbaraket@med.usyd.edu.au

January 2008

Doctor of Philosophy (PhD) / Asthma is a chronic inflammatory disease of the airways. Corticosteroid medication is the most effective currently available treatment. Complications of corticosteroid therapy are dose-dependent, however, the clinical efficacy of varying doses of inhaled corticosteroids has been studied with mixed results. A randomized, double-blind, parallel group study was used to evaluate the inhaled corticosteroid dose-response relationship for clinical endpoints and in vitro parameters of underlying airway inflammation and remodelling. The mannitol provocation test with Forced Oscillation Technique (FOT) was used to derive potential dose-differentiating endpoints. In vitro inflammatory markers were measured in alveolar macrophages from bronchoalveolar lavage. Basement membrane thickness was measured from bronchial biopsies. Eleven nonasthmatic subjects were enrolled for comparison. This thesis addresses the null hypothesis that there is no significant difference in clinical and biological effects between low dose (200mcg/day, n=11) and high dose (1000mcg/day, n=11) treatment (for 6-7 weeks) with inhaled fluticasone propionate (FP) for a range of clinical outcomes and in vitro markers of airway inflammation and remodelling. Significant changes after FP included increased FEV1, reduced airway hyperresponsiveness (AHR) (by FOT and FEV1), exhaled nitric oxide and Juniper symptom score. In addition, significant reductions occurred in expression of GM-CSF, TNF-alpha and IL-1ra in macrophages. A lower baseline FOT-derived respiratory system conductance was predictive of a greater degree of improvement in symptoms. No statistically significant differences in the changes after treatment between low and high dose FP were found in spirometry, exhaled nitric oxide, symptom scores, AHR, alveolar macrophage cytokine levels (GM-CSF, TNF-alpha, IL-1ra, IL-10) and basement membrane thickness, although there were trends towards greater improvements in many of the parameters after high dose FP. Basement membrane thickness appeared to be reduced by high dose FP, although this reduction was not statistically significant. There was a weak, but statistically significant, negative correlation between basement membrane thickness and FOT-derived conductance (r2=0.135, p=0.042). With the recognition of the limitations in the interpretation of these data, the results suggest that, in previously steroid naïve mild to moderate asthmatics, there may be only minimal benefit derived from an additional 800µg/day of inhaled fluticasone above the low dose of 200µg/day.

asthma

corticosteroid

dose response

cytokine

basement membrane

spirometry

inflammation

airway hyperresponsiveness

mannitol

nitric oxide

GM-CSF

TNF-alpha

IL-1ra

IL-10

FOT

forced oscillation technique

bronchoalveolar lavage

alveolar macrophage

bronchial biopsy

respiratory system conductance

bronchial challenge

response dose ratio

provocative dose

An endoscopic and immunopathological study of respiratory tract disorders in thoroughbred racehorses

Saulez, Montague Newton

04 June 2008

Much of the impetus for this research can be attributed to Kenneth W. Hinchcliff, who has studied exercise-induced pulmonary haemorrhage (EIPH) extensively. This thesis focused on EIPH in Thoroughbred racehorses competing in South Africa. Using tracheobronchoscopy, the prevalence and severity of EIPH and the association with racing performance was determined. Thereafter, the prevalence of other respiratory tract disorders and their association with racing performance is reported. This is followed by a study assessing interobserver variability using grading systems in the detection of respiratory tract disorders. Finally, there is a report on the immunopathogenesis of EIPH. Using tracheobronchoscopy after racing, the prevalence and severity of EIPH was assessed in 1,005 racehorses competing at high altitude (> 1,400 meters above sea level) and at sea level in a racing jurisdiction that does not allow the use of furosemide and nasal dilator strips. The prevalence and severity of EIPH was affected by altitude as racing at sea level was associated with a higher prevalence and greater severity of EIPH. Results also suggested that EIPH was associated with superior performance in South African Thoroughbred racehorses. Upper and lower respiratory tract disorders identified following tracheobronchoscopic examination included left arytenoid asymmetry, left laryngeal hemiplegia, epiglottic deformity, epiglottic entrapment, subepiglottic cysts, dorsal displacement of the soft palate, pharyngeal lymphoid hyperplasia (PLH), laryngeal and tracheal dirt, tracheal mucous (TM), tracheal stenosis and tracheal cartilage ring spikes in Thoroughbred racehorses after racing. Overall, there was a low prevalence of grade 2 and 3 arytenoid cartilage asymmetry, left laryngeal hemiplegia, epiglottic entrapment, subepiglottic cysts and epiglottic deformity, while more severe grades of PLH, laryngeal debris, tracheal debris, TM and tracheal cartilage ring spikes had a higher prevalence. An association with sex was identified as tracheal cartilage ring spikes occurred more often in male racehorses. Superior racing performance was identified in racehorses with grade 3 tracheal mucous and tracheal cartilage ring spikes. Endoscopic grading of EIPH, PLH, arytenoid cartilage movement (ACM), and TM was performed by 3 observers that were blinded to each racehorse’s identity and race day performance using previously established grading criteria. Excellent interobserver reliability was seen using the EIPH grading system, while the weighted kappa for PLH, ACM and TM was lower. The study demonstrated sufficient reliability for the use of the EIPH, PLH, ACM and TM grading systems in racehorses competing in South Africa. The study concluded that tracheobronchoscopy seemed to be a practical screening technique that may have prognosticative validity and clinical dependability and that would allow safe and quick assessment of the respiratory tract of a large number of racehorses in field conditions. Venous blood was collected from 10 horses in each EIPH grade classification (grade 0 to 4) following tracheobronchoscopic examinations for the determination of the presence and severity of EIPH. Following RNA isolation and cDNA synthesis, real-time PCR was used to detect equine cytokine-specific mRNA for interleukin (IL) -1, -6, -10, interferon (INF) -ã, and tumor necrosis factor (TNF) -á. Results of this study indicated that increased IL-6, and -10 mRNA production was associated with more severe forms of EIPH. Also, there was greater expression of IL-6 mRNA at sea level and TNF-á mRNA at high altitude. This study concluded that although it was unclear whether the inflammatory response observed in the study was due to pre-existing pulmonary inflammation or as a direct consequence of pulmonary bleeding, the study demonstrated a systemic correlation to pulmonary inflammation. The research reported in this thesis has contributed substantially to the determination of the prevalence, severity and affect on racing performance of respiratory tract disorders in Thoroughbred racehorses competing in South Africa. Also, determination of an association between EIPH and inflammation at a molecular level may assist future researchers in anti-cytokine therapies which may help reduce the prevalence and severity of EIPH. / Thesis (PHD)--University of Pretoria, 2007. / Companion Animal Clinical Studies / unrestricted

Subepiglottic cysts

Il-6

Race performance

Altitude

Arytenoid cartilage asymmetry

Laryngeal debris

Interobserver reliability

Interferon-ã

Il-10

Tumor necrosis factor-ã

Tracheal mucous

Epiglottic deformity

Grade scale

Tracheobronchoscopy

Interleukin(il)-1

Exercise-induced pulmonary haemorrhage

Tracheal debris

Tracheal cartilage ring spikes

Entrapment

Mrna

Real-time polymerase chain reaction

Pharyngeal lymphoid hyperplasia

Sea level

UCTD

Phänotypische Charakterisierung humaner Monozyten von Blutspendern mit chronischer Toxoplasmose und nicht-infizierten Kontrollen / Phenotypic characterization of human monocytes from blood donors with chronic toxoplasmosis and non-infected controls

Ehmen, Hauke Gerhard

17 November 2020

No description available.

610

Toxoplasma gondii

T. gondii

monocytes

FACS

parasitology

toxoplasmosis

peripheral human monocytes

CD16

PBMC

chronic toxoplasmosis

immune response

monocyte subpopulations

IL-12

IL-10

TNF-alpha

CD14

quantitative reverse transcriptase-PCR

monocyte subsets

cytokines

surface markers

chronic infection

Parasitologie {Medizin} (PPN619875429)

Aberrations in Cytokine Signaling in Leukemia: Variations in Phosphorylation and O-GlcNAcylation

Tomic, Jelena

31 August 2012

Tumor-induced immunosuppression can occur by multiple mechanisms, each posing a significant obstacle to immunotherapy. Evidence presented in this dissertation suggests that aberrant cytokine signaling, as a result of altered metabolism of Chronic Lymphocytic Leukemia (CLL) cells, confers a selective advantage for tumor survival and growth. Cells from CLL patients with aggressive disease (as indicated by high-risk cytogenetics) were found to exhibit prolongation in Interferon (IFN)-induced STAT3 phosphorylation, and increased levels of reactive oxygen species (ROS) in these cells reflected these signaling processes. Changes in the relative balance of phospho-STAT3 and phospho-STAT1 levels, in response to combinations of IL-2 + Toll-like receptor (TLR)-7 agonist + phorbol esters, as well as IFN, were associated with the immunosuppressive and immunogenic states of CLL cells. In addition, immunosuppressive leukemic cells were found to express high levels of proteins with O-linked N-acetylglucosamine (O-GlcNAc) modifications, due to increased metabolic activity through the Hexosamine Biosynthetic Pathway (HBP), which caused impaired intracellular signaling responses and affected disease progression. A conclusion of the studies presented here is that the intrinsic immunosuppressive properties of leukemic cells may be overcome by agents such as Resveratrol that target metabolic pathways of these cells.

Chronic Lymphocytic Leukemia

Immunogenicity

Interferon (IFN)

STAT3

Reactive Oxygen Species (ROS)

Tumor suppressor p53

phosphatases

Toll-like receptor (TLR)-7 agonist

phorbol esters

immunosuppressive cytokines

O-GlcNAc

Hexosamine Biosynthetic Pathway (HBP)

Glucosamine

Resveratrol

Friend Erythroleukemia

RL2 antibody

cancer vaccines

IL-2

tumor immunosuppression

phosphorylation

O-GlcNAcylation

cytotoxic T lymphocytes (CTLs)

Ataxia telangiectasia mutated (ATM)

Antigen presenting cell (APC)

Immunotherapy

OGT

OGase

glucose

tumor metabolism

PKC

CD83

Warburg effect

tumor microenvironment

IL-10

tumor-reactive T cells

Aberrations in Cytokine Signaling in Leukemia: Variations in Phosphorylation and O-GlcNAcylation

Tomic, Jelena

31 August 2012

Tumor-induced immunosuppression can occur by multiple mechanisms, each posing a significant obstacle to immunotherapy. Evidence presented in this dissertation suggests that aberrant cytokine signaling, as a result of altered metabolism of Chronic Lymphocytic Leukemia (CLL) cells, confers a selective advantage for tumor survival and growth. Cells from CLL patients with aggressive disease (as indicated by high-risk cytogenetics) were found to exhibit prolongation in Interferon (IFN)-induced STAT3 phosphorylation, and increased levels of reactive oxygen species (ROS) in these cells reflected these signaling processes. Changes in the relative balance of phospho-STAT3 and phospho-STAT1 levels, in response to combinations of IL-2 + Toll-like receptor (TLR)-7 agonist + phorbol esters, as well as IFN, were associated with the immunosuppressive and immunogenic states of CLL cells. In addition, immunosuppressive leukemic cells were found to express high levels of proteins with O-linked N-acetylglucosamine (O-GlcNAc) modifications, due to increased metabolic activity through the Hexosamine Biosynthetic Pathway (HBP), which caused impaired intracellular signaling responses and affected disease progression. A conclusion of the studies presented here is that the intrinsic immunosuppressive properties of leukemic cells may be overcome by agents such as Resveratrol that target metabolic pathways of these cells.

Chronic Lymphocytic Leukemia

Immunogenicity

Interferon (IFN)

STAT3

Reactive Oxygen Species (ROS)

Tumor suppressor p53

phosphatases

Toll-like receptor (TLR)-7 agonist

phorbol esters

immunosuppressive cytokines

O-GlcNAc

Hexosamine Biosynthetic Pathway (HBP)

Glucosamine

Resveratrol

Friend Erythroleukemia

RL2 antibody

cancer vaccines

IL-2

tumor immunosuppression

phosphorylation

O-GlcNAcylation

cytotoxic T lymphocytes (CTLs)

Ataxia telangiectasia mutated (ATM)

Antigen presenting cell (APC)

Immunotherapy

OGT

OGase

glucose

tumor metabolism

PKC

CD83

Warburg effect

tumor microenvironment

IL-10

tumor-reactive T cells