Immunogenicity, Subcellular Localization And Function Of the Eis Protein Of Mycobacterium tuberculosis

Samuel, Linoj Philip

January 2005

The eis gene of M. tuberculosis is believed to play a role in the intracellular survival of this pathogen. Significantly higher levels of antibodies to Eis were detected by ELISA in the sera of patients with tuberculosis as compared to healthy controls. PBMCs from recovered TB donors were also found to demonstrate significantly higher levels of proliferation in response to stimulation with the Eis protein than PBMCs from either active TB cases or healthy controls. Neither the active TB population nor the healthy controls showed significant levels of IFN- or IL-4 secretion in response to stimulation of PBMC with Eis or ESAT-6. Far Western analysis determined that Eis interacts with a ~65 kDa protein that localizes to the cytoplasmic fraction of M. tuberculosis lysate. Real-time PCR analysis of M. tuberculosis infected U-937 macrophages showed that the eis gene is constitutively expressed during infection. Using immunofluorescence microscopy (IF), the Eis protein was detected within the cytoplasm of M. tuberculosis infected macrophages indicating that the protein was being released/secreted from the mycobacterium containing phagosomes. Western blot analysis of the cytoplasm of macrophages infected with M. tuberculosis expressing green fluorescent protein confirmed these results. Western blot analysis also detected the presence of native Eis both in the culture supernatant of infected macrophages and vesicles released from the macrophages. IF also detected the presence of Eis in uninfected macrophages. The Eis protein in the cytoplasm of M. tuberculosis infected macrophages was also found to colocalize with EEA1, an endosomal marker, indicating a possible association of the protein with early endosomes. Eis was also shown to elicit higher levels of IL-10 secretion than PPD in human monocytes. Infection of monocytes from healthy tuberculin reactors with M. tuberculosis wild type and eis mutant demonstrated that eis plays a role in modulation of IL-10/TNF- secretion in response to infection. Bioinformatic analysis of the amino acid sequence of Eis indicates that Eis is an acetyltransferase of the GCN5 related family of N-acetyltransferases. Further work is required to determine the role Eis plays in the survival of M. tuberculosis within the macrophage.

Mycobacterium tuberculosis

macrophage

intracellular

cytokine modulation

Eis

Yersinia-phagocyte interactions during early infection

Westermark, Linda

January 2013

Pathogenic Gram-negative Yersinia species preferentially target and inactivate phagocytic cells of the innate immune defense by translocation of effector Yersinia outer proteins (Yops) into the cells via a type III secretion system. This indicates that inactivation and avoidance of the early innate immune response is an efficient way for Yersinia species to avoid elimination and to cause diseases ranging from mild gastroenteritis (Y. pseudotuberculosis and Y. enterocolitica) to plague (Y. pestis). In this project, we aimed to study the interaction between enteropathogenic Y. pseudotuberculosis and phagocytic cells during early infection. In situ interaction studies on infected intestinal tissues showed that Y. pseudotuberculosis mainly interacts with dendritic cells (DCs) in lymphoid tissues of the intestine during initial infection. After massive recruitment of polymorphonuclear neutrophils (PMNs) to the infected tissues, wild-type (wt) bacteria also interacted with this phagocyte. In contrast to the wt, mutants lacking the anti-phagocytic effectors YopH and YopE are avirulent in mice and unable to spread systemically. Interestingly, our interaction assay showed that these mutants not only interacted with DCs, but also with PMNs during the initial stage of infection. Thus, indicating that Y. pseudotuberculosis can avoid interaction with PMNs during early infection and that this is Yop-dependent. In a phagocytosis assay Y. pseudotuberculosis was demonstrated to inhibit internalization by DCs in a YopE-dependent manner, while both YopH and YopE were shown to be involved in the blocking of phagocytosis by macrophages and PMNs. Thus, indicating that YopH has cell type-specific effects. To further investigate the role of DCs during initial stages of infection, a mouse DC depletion model (CD11c-DTRtg) was applied. However, the DTx-mediated depletion of DCs in CD11c-DTRtg mice induced neutrophilia and the model could not give a definite answer to whether DCs play an important role in either restricting or stimulating progression of Y. pseudotuberculosis infection. To investigate involvement of PMNs during early infection mice were injected with the depleting antibody α-Ly6G. In absence of PMNs wt, as well as yopH and yopE mutants became more virulent, which further supports the importance of these Yops for the ability of Y. pseudotuberculosis to disseminate from the initial infection sites in the intestine to cause systemic disease. In summary, our studies show that inhibiting internalization and maturation of DCs and avoiding phagocytosis by and interaction with macrophages and PMNs during the early stages of infection are important virulence strategies for Y. pseudotuberculosis to be able to colonize tissues, proliferate and disseminate systemically.

Yersinia

dendritic cell

macrophage

neutrophil

T3SS

MACROPHAGE AEBP1 CONTRIBUTES TO MAMMARY EPITHELIAL CELL HYPERPLASIA AS A NOVEL REGULATOR OF SONIC HEDGEHOG SIGNALLING

Holloway, Ryan

27 November 2012

Chronic inflammation stimulates mammary tumourigenesis by disrupting signalling interactions between the epithelial ducts and the surrounding stromal microenvironment. Adipocyte enhancer-binding protein 1 (AEBP1) promotes mammary epithelial cell hyperplasia as a stromal factor that enhances activity of the proinflammatory transcription factor Nuclear Factor-?B (NF-?B) in macrophages. Aberrant NF-?B activity in macrophages elevates production of proinflammatory signals and the ligand sonic hedgehog (Shh), a significant contributor to tumourigenesis. In this study, Shh expression was elevated in macrophages isolated from transgenic mice (AEBP1TG) that overexpress AEBP1. Transient overexpression of AEBP1 in a macrophage cell line resulted in increased Shh expression. Furthermore, hedgehog target genes Gli1 and Bmi1 were up-regulated in mammary epithelium of AEBP1TG mice and HC11 mammary epithelial cells co-cultured with AEBP1TG macrophages. Growth of HC11 cells and mammary tumours was enhanced in response to AEBP1TG macrophages. These findings suggest that macrophage AEBP1 overexpression contributes to mammary hyperplasia through enhanced hedgehog signalling.

hyperplasia

Sonic hedgehog

mammary gland

macrophage

AEBP1

Characterization of a novel soluble CSF-1 receptor in teleost fish

Lund, Johanna M

Unknown Date

No description available.

sCSF-1R

immunity

macrophage

teleost fish

Examination of the Regulation of Phosphorylation Events in Macrophage Adhesion and Response to Zymosan

St-Pierre, Joëlle

Unknown Date

No description available.

CD45

paxillin

Pyk2

macrophage

adhesion

calpain

Influenza virus infection in a compromised immune system

Campbell, Gillian Mhairi

January 2012

Severe influenza virus infection, including human infection with highly pathogenic H5N1 viruses is characterised by massive pulmonary inflammation, immunopathology and excessive cytokine production, a process in which macrophages may play a vital role. The aim of this project was to investigate the hypothesis that inhibition of inflammatory responses from infected macrophages, using either alternatively activated bone marrow derived macrophages (BMDMf), or IFNg receptor deficient (IFNgR-/-) mice may ameliorate the devastating immunopathology and inflammation routinely observed in highly pathogenic influenza virus infections. Infection of alternatively activated BMDMf resulted in enhanced positivity for viral proteins, compared with classically activated, inflammatory BMDMf. However, neither subset propagated the infection indicating that while infection is abortive in both classical and alternatively activated BMDMf, the latter may prove more efficient at removing infectious virus from the site of infection due to enhanced infectivity. However, influenza virus was capable of driving expression of proinflammatory mediators such as iNOS and TNFa from classical and alternatively activated BMDMf even in the absence of IFNg signalling. IFNgR-/- BMDMf demonstrated a reduced inflammatory response to infection compared to Sv129 counterparts, suggesting a potentially impaired inflammatory response in vivo. This was investigated by infection of IFNgR-/- mice, which resulted in ameliorated disease, lower viral titres and mild immunopathology, demonstrating that inhibition of IFNg signalling limits the severity of disease. Additionally, mRNA expression for key inflammatory mediators was reduced, demonstrating that inhibition of the overwhelming inflammatory response to influenza virus infection is beneficial to the host, resulting in protection from immunopathology and improved prognosis, without impairing viral clearance.

616.203

Cellular and molecular studies on factors influencing lymphocyte-phagocyte interactions in fish

Hepkema, Frank Watze

January 1995

The molecular biology of macrophage activating and deactivating cytokines and their receptors was discussed. Comparison of IFN-γ amino acid sequences of several mammalian species reveals a low conservation of amino acids. The interaction of IFN-γ with its receptor system is complicated and coherent with the species specificity of IFN-γ. Identification by PCR of an IFN-γ-like gene in the trout genome was not possible. In contrast with IFN-γ, TGF-β is very conserved in its amino acid sequence. The PCR-amplification of a TGF-β fragment from amphibian, <I>Xenopus</I>, and rainbow trout cDNA libraries was possible. Two oligonucleotide primers were used in PCRs to amplify a 360 bp fragment of trout Mhc class II β chain. Using these two oligos, this 360 bp fragment could be amplified from trout spleen cDNA library and HK leucocytes. cDNA synthesized from RNA extracted from ConA/PMA stimulated HK leucocytes was used as template DNA in PCR, and a class II specific fragment was amplified. This class II fragment could not be amplified from HK macrophages treated with a MAF containing supernatant, although HK macrophages treated with a control supernatant did express class II molecules. This could suggest that priming or activation of trout macrophages results in a decreased expression of Mhc class II antigens. A novel method for analysing 5'nucleotidase activity of head kidney macrophages was optimised for use with cell monolayers, with respect to the effect of cell numbers, temperature and substrate concentration. Both lysed and whole cells could be used for determination of 5'nucleotidase activity. Maximal 5'nucleotidase activity was found in the range of 27°C to 33°C and using a substrate concentration of ≥ 1 μmol AMP ml^-1 for whole cells and ≥ 1.5 μmol AMP ml^-1 for lysed cells. 5'nucleotidase activity was also correlated with respiratory burst activity in cells treated with a variety of supernatants containing MAF activity. A significant inverse relationship between these two activities was found. MAF-treated cells were also found to lose 5'nucleotidase activity faster than control cells in the presence of cycloheximide, suggesting such cells may have a higher membrane turnover of this enzyme.

572.8

The immunoregulatory role of seminal plasma in early murine and human pregnancy /

Tremellen, Kelton Paul.

January 1998

Thesis (Ph.D.) -- University of Adelaide, Dept. of Obstetrics and Gynaecology, 1999. / Errata posted inside back end-paper (leaf 250). Bibliography: leaves 204-249.

Understanding human mononuclear phagocyte ontogeny using human induced pluripotent stem cells (iPSCs)

Buchrieser, Julian

January 2016

Tissue-resident macrophages (M&Phi;) such as microglia, Kupffer and Langerhans cells derive from Myb-independent yolk sac (YS) progenitors generated before the emergence of hematopoietic stem cells (HSCs). Myb-independent YS-derived resident M&Phi; self-renew locally, independently of circulating adult monocytes and HSCs. In contrast, adult blood monocytes as well as infiltrating, gut and dermal M&Phi; derive from Myb-dependent HSCs and are less proliferative. These findings are derived from the mouse, using gene knock-outs and lineage tracing, but their applicability to human development has not been formally demonstrated. Here I use a human pluripotent stem cell (hPSC) differentiation model of hematopoiesis, capable of monocyte/M&Phi; production over prolonged periods of time, as a tool to investigate human mononuclear phagocyte ontogeny. Using a transcriptomic approach I showed that hiPSC-derived monocytes/M&Phi; (iPS-Mo/M&Phi;) produced early in differentiation (first weeks) are more proliferative and less immunologically mature than iPS-Mo/M&Phi; produced at a later time point. I therefore hypothesised either that iPS-Mo/M&Phi; only become fully mature after several weeks of differentiation or that there are two developmentally distinct waves of M&Phi; produced over time. By comparing the transcription profile of iPS-Mo/M&Phi;s to that of primary adult blood monocytes and fetal microglia I then showed that early and late iPS-Mo/M&Phi;s were transcriptionally closer to fetal microglia than to adult blood monocytes. To further investigate if iPS-Mo/M&Phi;s are indeed of the same developmental origin as MYB-independent M&Phi; such as microglia, I used a CRISPR-Cas9 knock-out strategy to show for the first time, that human iPS-Mo/M&Phi;s develop in a MYB-independent, RUNX1 and SPI1 (PU.1)-dependent fashion. This result makes human iPS-Mo/M&Phi;s developmentally related to, and a good model for, MYB-independent tissue-resident \Macros such as alveolar and kidney M&Phi;s, microglia, Kupffer and Langerhans cells. Interestingly, while MYB was not required for the generation of iPS-Mo/M&Phi;s, its knock-out resulted in an increase in iPS-Mo/M&Phi; production. To investigate this increase I developed two methods for quantifying the differentiation bottleneck occurring during hiPSC differentiation to iPS-Mo/M&Phi;s. Those techniques highlighted a potential increase in progenitor cell generation in MYB KO cells and thus lay foundation to improve our technical understanding of EB differentiation and will enable enhanced manipulation of the EB model.

Cellular basis of resistance to Marek's disease

Chakraborty, Pankaj

January 2015

Marek’s disease (MD) is a highly infectious economically important oncogenic viral disease of chickens. It is found throughout the world and is caused by an alphaherpesvirus, Marek’s disease virus (MDV). Though this disease can currently be successfully controlled by vaccination, the virus has continuously evolved to greater virulence over the last several decades. Hence, there is a need for alternative approaches to control MD. Selection and breeding of MD-resistant chickens presents an attractive option for prevention of this disease. MHC-congenic chicken inbred lines, 61 and 72, which are highly resistant and susceptible to MD, respectively, have been identified, but the cellular and genetic basis for these phenotypes is unknown. The overall aim of this study was to investigate the cellular basis of resistance to MD using an in vitro MDV infection model with the hypothesis that resistance is exerted by the innate immune cells. MDV is a highly cell-associated virus which makes in vitro studies difficult. In vivo, MDV infects APCs (antigen-presenting cells: macrophages and/or dendritic cells [DCs]), B cells and activated T cells. Though both B and T cells can be infected in vitro, co-culture infection models have not been described for APCs. Thus, the primary goal was to develop a model for infecting these cells with MDV in vitro and to characterise infected and uninfected cells. Developmental studies used APCs derived from outbred chickens. Chicken bone marrow cells were cultured with chCSF-1 (for macrophages) or chIL-4 and chCSF-2 (for DCs) for 4 days and then infected by the addition of chicken embryo fibroblasts (CEFs) infected with recombinant MDV expressing GFP. CEF preparations naturally contain a mixture of CEFs (92-98%) and macrophages (2-8%) and both appear to be infectable with MDV. Infected CEFs were therefore separated from infected macrophages by FACS before adding to the bone marrow-derived APCs. Infected and uninfected APCs were sorted by FACS using GFP expression and APC-specific mAb staining (KUL01 and anti-CD45). Characteristic virus-infected and uninfected APCs were revealed via examination with live cell confocal microscopy. The presence of herpesvirus specific immediate early (ICP4), early (pp38), late (gB) transcripts and MDV specific transcript, L-Meq, in infected APCs was confirmed by RT-PCR providing evidence for MDV replication. Hence, a new in vitro MDV infection model of APCs has been established. Using the infected macrophages to infect CEFs showed that the infection was productive. This model was then extended to infect APCs of lines 61 and 72. Flow cytometric analysis revealed that a higher percentage of macrophages were infected in the susceptible line (72) than in the resistant line (61). To analyse this in detail, RNA-Seq was carried out to identify differentially expressed (DE) genes between the two lines pre- and post-MDV infection. From these DE genes, potential candidate genes involved in MD resistance and susceptibility were identified. Functional analysis of DE genes support the hypothesis that resistance to MD is determined at the macrophage level of the resistant line (61) and the JAK-STAT signalling pathway is at least one anti-viral mechanism by which this signature is expressed.

636.5