Detection of anti-nuclear antibody responses induced by dendritic cells that have captured dying cells in mouse models

Kam, Siu-kei, Christy., 甘笑琪.

January 2003

published_or_final_version / Medical Sciences / Master / Master of Medical Sciences

Dendritic cells.

Antinuclear factors.

Autoantibodies.

Rats as laboratory animals.

IL-17A-dependent giant cells in human tuberculosis granulomas : mechanisms of formation, survival and functions

Ismail, Mohamad Bachar

24 September 2012

Tuberculosis, caused by Mycobacterium tuberculosis infection, results in the development of granulomas in affected tissues. These structures are formed by a myeloid cell core including multinucleated giant cells and surrounded by T lymphocytes. We studied mechanisms of survival, formation and functions of giant cells in Mycobacterium granulomas. Previously, our group showed that the cytokine IL-17A induces the fusion of dendritic cells (DC). Here, we identified molecules induced by the IL-17A genetic program in myeloid cells: BFL1 regulated DC survival, while the chemokines CCL2 and CCL20 directed clustering required for DC fusion. In situ, in human TB granulomas, we found that IL-17A was expressed by T lymphocytes while BFL1, CCL2 and CCL20 were expressed by the mono- and multi-nucleated myeloid cells. Then we characterized phenotype, immune functions and microbicidal activity of IL-17A-treated DC and their derived giant cells. They expressed a mixed DC-macrophage phenotype, retained classical DC functions, synthesized several destructive enzymes and had increased and differential microbicidal activities against Mycobacterium species. We named GMIC (giant myeloid inflammatory cells) these IL-17A-dependent giant cells, and propose that they constitute a new inflammatory myeloid effector with potent microbicidal activities. Altogether, our results show that IL-17A may participate in the maintenance of the myeloid core of human tuberculosis granuloma by promoting the formation of GMIC with potent destructive and microbicidal functions. The molecular mechanisms we have documented should help the development of new tuberculosis therapeutic and vaccination strategies.

Tuberculosis

Granulomas

Dendritic cells

IL-17A

Multinucleated giant cells

Apoptosis

Chemokines

Investigations into the Effects of Lactobacilli on Murine Dendritic Cells

Elawadli, Inas

04 September 2012

Lactic acid bacteria (LAB) are of interest because of their potential to modulate immune responses. The effects of LAB range from regulation to stimulation of the immune system. It has been reported that LAB affect health via two main mechanisms: directly through physical interactions between LAB and cells of the immune system, and indirectly through the products of these bacteria. The studies presented in this thesis examine the direct and indirect effects of LAB on the immune system specifically on murine dendritic cells (DCs). Mouse DCs (in form of the DC2.4 cell line) were treated in vitro with a fraction of bovine milk fermented with Lactobacillus helveticus-2 (LH-2) or three synthetic peptides identified within the fermented milk fraction. Cell culture supernatants were analyzed for presence of tumor necrosis factor (TNF)-α and interleukin (IL)-6 to determine the effects of LAB on DC activation. The results of this study showed that the ability of the milk derived fraction and the synthetic peptides to induce DC activation and production of pro-inflammatory cytokines was limited, suggesting that these peptides may induce regulatory immune responses. A series of studies was performed in vitro to investigate the effects of six LAB species and strains, (LH-2), Lactobacillus acidophilus-5 (La-5), Lactobacillus acidophilus-115 (La-115), Lactobacillus acidophilus-116 (La-116), Lactobacillus acidophilus-14 (La-14), and Lactobacillus salivarius, on maturation and activation of DC2.4. Production of TNF-α, IL-6 and IL-10 by DCs was determined after treating cells with live LAB. The expression of DC maturation markers, CD80 and CD40, was also measured using flow cytometry after stimulation with LAB. In addition, the expression of toll-like receptors (TLRs) 2, 4 and 9 by DCs stimulated with LAB was measured. Our results revealed that LAB act differentially on pro-inflammatory and anti-inflammatory cytokine production and induction of co-stimulatory molecules by DCs. Specifically, L. salivarius was found to be the most effective LAB to induce pro-inflammatory cytokine production and expression of co-stimulatory molecules. Moreover, La-14, La-116 and La-5 induced moderate maturation and activation of DCs. On the other hand, LH-2 and La-115 are the least likely lactobacilli to induce DC response. In conclusion, various strains and species of LAB can differentially regulate DC activation and maturation, raising the possibility that these microbes can influence and steer immune responses of the host.

Lactic acid bacteria

Lab

Probiotic

dendritic cells

Bioactive peptides

Milk fractions

DC 2.4

FUNCTION OF MYELOID DENDRITIC CELLS

Zhao,Li

Unknown Date

No description available.

hepatitis C virus

myeloid dendritic cells

immune evasion

nuclear factor-kappa B

apoptosis

Activation of Natural Killer T cells and Dendritic cells with Caulobacter crescentus: Implications for developing tumour immunity

Loo, Eric Wah-Leck

Unknown Date

No description available.

Caulobacter crescentus

Natural killer T cells

Dendritic cells

tumour immunity

non-pathogenic bacteria

PLGA-based nanoparticles for targeting of dendritic cells in cancer immunotherapy and immunomonitoring

Ghotbi, Zahra

Unknown Date

No description available.

PLGA nanoparticles

mannose recepror targeting

cancer vaccines

cancer immunomonitoring

dendritic cells

Host-specific Plasmacytoid Dendritic Cell Defenses In The Presence of Human and Macaque Skin Cells Infected with B virus

Brock, Nicole

10 May 2014

Plasmacytoid dendritic cells (pDC) are a specialized group of circulating dendritic cells that respond to viral nucleic acids with Type I IFN production as well as other cytokine and chemokines. These pDC responses lead to the production of antiviral molecules and recruitment of defense cells. During zoonotic B virus infection, a simplex virus of the subfamily Alphaherpesviridae, our lab has observed that infected individuals who succumb to infection have little-to-no-antibody or cell-mediated defenses. To identify whether this was partly due to failure of pDCs to produce antiviral interferon responses or produce chemokine and cytokines, we tested the hypothesis that B virus modulates the IFN response during zoonotic infection by blocking pDC activation and subsequent IFN signaling pathways to circumvent host defenses, while these pathways remain intact in the macaque hosts. We showed that human pDCs respond to B virus through the production of IFN-a, IL-1a, IL-6, TNF-a, MIP-1a/b and IP-10. Human pDCs co-cultured with B virus infected fibroblasts produced fewer cytokines and at lower levels. The macaque response to B virus was measured using PBMCs, as there are no specific reagents available to enrich macaque pDCs. Human and macaque PBMCs produced IFN-a when exposed directly to B virus infected lysates. Co-cultures of PBMCs with B virus infected fibroblasts from both hosts failed to produce any significant amounts of IFN-a. To quantify the antiviral effects of PBMC induced IFN-a, we measured B virus titers after exposure to supernatants from B virus exposed PBMCs, PBMC co-cultures with infected fibroblasts and exogenous recombinant Type I IFN. Our data further suggest that B virus resistance was not due to virus specific blockade of the Type I IFN signaling pathway because STAT-1 was activated in infected fibroblasts when treated with Type I IFNs. These data demonstrate for the first time that B virus replication is unimpeded in the presence of any source of IFN-a in either host cell type. In conclusion, this dissertation shows that the IFN-a production by both hosts in response to B virus is similar and that IFN-a treatment of B virus infected fibroblasts did not reduce B virus replication.

Plasmacytoid dendritic cells

Interferon

Fibroblasts

Macaque

Herpes B virus

Macacine herpesvirus 1

STAT-1

Innate immunity

Diazotization of kynurenine by acidified nitrite secreted from indoleamine 2,3-dioxygenase-expressing myeloid dendritic cells

Hara, Toshiaki, Yamakura, Fumiyuki, Takikawa, Osamu, Hiramatsu, Rie, Kawabe, Tsutomu, Isobe, Ken-ichi, Nagase, Fumihiko, 長瀬, 文彦

03 1900

No description available.

Indoleamine 2,3-dioxygenase

Tryptophan

Kynurenine

Nitric oxide

Diazotization

High-affinity uptake of kynurenine and nitric oxide-mediated inhibition of indoleamine 2,3-dioxygenase in bone marrow-derived myeloid dendritic cells

Hara, Toshiaki, Ogasawara, Nanako, Akimoto, Hidetoshi, Takikawa, Osamu, Hiramatsu, Rie, Kawabe, Tsutomu, Isobe, Ken-ichi, Nagase, Fumihiko, 長瀬, 文彦

15 February 2008

No description available.

Indoleamine 2,3-dioxygenase

Tryptophan

Kynurenine

Nitric oxide

Transport system L

Decidual Leukocyte Involvement in Human Spiral Artery Remodeling

Hazan, Aleah

16 September 2011

The decidualized endometrium harbors abundant leukocyte populations that are proposed to regulate critical processes at the maternal fetal interface including transformation of decidual spiral arteries. The work in this thesis investigated the leukocyte subtypes in the decidua throughout the course of this vascular transformation. A particular focus was the role of the uterine Natural Killer (uNK) cells and macrophages in an in vitro model of vascular remodeling. A significant infiltration of uNK cells and macrophages, matrix metalloproteinase-2/9 activity, and evidence of apoptosis and phagocytosis were observed in remodeling arterioles. From first to second trimester, FACS analysis demonstrated dramatic changes in the decidual leukocyte subpopulations, including the decline of uNK cells and macrophages and substantial increase in T lymphocytes and neutrophils. These data demonstrate an integral role of uNK cells and macrophages in early vascular remodeling and provide evidence of unique and complex immune interactions in the decidual microenvironment during human pregnancy.

uNK cells

macrophages

flow cytometry

dendritic cells

lymphocytes

Obstetrics and Gynecology 0380

Immunology 0982