Genomic variation and cell tropism of bovine diarrhoea virus

Desport, Moira

January 2000

No description available.

636.089

Follicular dendritic cells

Identification of microRNAs involved in the development and function of follicular dendritic cells

Aungier, Susan Rebecca

January 2014

Follicular dendritic cells (FDCs) are key elements of secondary lymphoid organs where they form the stromal component of B-cell follicles. FDCs possess extensive dendritic process that trap intact antigen via Fc and complement receptors on the cell surface. The antigen is displayed to B-cells, providing a basis for selection of high affinity B cells. FDC also have important roles in facilitating the clearance of apoptotic B cells by the secretion of the opsonising factor MFGE8. It is well established that lymphotoxin signalling is required for FDC maturation but the specific details of the molecular mechanisms that regulate FDC development and differentiation are not fully understood. MicroRNAs (miRNAs) are non-coding RNAs of approximately 18-25 nucleotides in length that regulate gene expression at the post-transcriptional level. MiRNAs bind to their target gene transcripts as part of the RNA induced silencing complex and repress translation of the target gene product. The objective of this study was to identify miRNAs that play a role in the development and function of FDCs. An in vivo murine model of FDC de-differentiation was used to provide material for miRNA analysis. By comparison of miRNA profiles from spleen tissue with FDC at different stages of de-differentiation, we would be able to obtain a miRNA signature for mature FDC. Spleens were collected at various time points over a 28 day period following transient blockade of lymphotoxin signalling. A variety of methods were used to profile the miRNAs expressed at different time points during the suppression and recovery of the FDC network. Comparison of the miRNA profiles of spleens containing mature, partially de-differentiated, and fully de-differentiated FDC identified a number of miRNAs that were differentially expressed during FDC de-differentiation. To assess the role of specific miRNAs in FDC development, the mouse FDC-like cell line, FL-YB, was used as an in vitro model system. FL-YB cells were used to perform gain-offunction and loss-of-function studies on selected miRNAs and to assess the effects of various stimuli/conditions on miRNA expression. The effects of different treatments on cell proliferation, morphology and adhesion, and on gene expression by FL-YB, were monitored. Loss-of-function studies for one of the selected miRNA (miR-100-5p) revealed a significant effect on a number of gene transcripts involved in mediation of the germinal centre response (Il-6, Tlr4, Ptgs1/2). These data indicate that miR-100-5p has a role in regulating Il-6, Tlr4 and Ptgs1/2 transcripts. None of these transcripts contain predicted target sites for miR-100-5p and so the effect of miR-100-5p on these transcripts is likely to be indirect. Further studies on these miRNA: target interactions are required to elucidate the mechanisms and biological consequences of miRNA regulation in FDCs.

616.07

Role of FDCs and FDC activation in promoting humoral immunity including responses to T-dependent antigens in the absence of T cells /

El Sayed, Rania Mohamed,

January 2009

Thesis (Ph. D.)--Virginia Commonwealth University, 2009. / Prepared for: Dept. of Microbiology and Immunology. Bibliography: leaves 213 - 235. Available online via the internet.

Determining the role of follicular dendritic cells in TSE agent neuroinvasion

McCulloch, Laura

January 2011

Transmissible spongiform encephalopathies (TSEs), such as scrapie and variant Creutzfeldt-Jakob disease are infectious, fatal, neurodegenerative diseases. Following peripheral infection TSE agents usually accumulate in lymhoid tissues before spreading to the central nervous system. In mice, follicular dendritic cells (FDCs) expressing the host prion protein (PrPC) are essential for scrapie agent accumulation in lymphoid tissues. The accumulation of the scrapie agent on FDCs is critical for the efficient spread of infection to the brain. However, it is unknown whether FDCs themselves actively replicate the scrapie agent, or simply accumulate it following production by other cells types such as neurones, lymphocytes or other stromal cell populations. To definitively address this issue a transgenic mouse model was created in which PrPC is switched on or off exclusively on FDCs. Expression of cre-recombinase (Cre) under the action of cell-specific gene promoters can be used to induce or delete the expression of a target gene in specific cell populations. In this model, Cre expression is driven by the complement receptor type 2 gene (Cr2/CD21) which is expressed by FDCs and mature B lymphocytes. Characterisation of the CD21-cre mouse line was achieved by crossing with a ROSA26 reporter strain. The CD21-cre mouse line was subsequently crossed with floxed-PrP mouse lines to produce compound transgenic mouse lines in which PrPC expression was switched on or off, only in FDCs. Cre expression by B lymphocytes was eliminated by γ-irradiation and grafting recipient mice with Cre-deficient bone marrow. Immunohistochemical analysis confirmed the expression PrPC had been switched on or off exclusively on FDCs. Subsequently, the mice were challenged with scrapie by intra-peritoneal injection to determine the precise role of FDCs in the accumulation of scrapie in lymphoid tissues. Switching off PrPC expression exclusively on FDCs prevented the accumulation of TSE agent specific disease-associated PrPSc in the spleen after i.p inoculation. Conversely, in mice in which PrPC was expressed only on FDC, successful replication of the agent occurred on the FDC network in the spleen. Taken together, these data show PrPC-expressing FDCs alone are sufficient to support the accumulation of the scrapie agent within lymphoid tissues. Furthermore, these data suggest FDC replicate the TSE agent and do not simply accumulate it following synthesis by other cell types.

616.8

Follicular dendritic cell Fc gamma RIIB prevents survival of less-developed B cells: single cell sequence analysis from autoreactive germinal centers

Macaulay, Charles

03 July 2018

BACKGROUND: Previous work has shown that follicular dendritic cells (FDCs) play an important role in selecting B cells such that antigens are responded to in a specific manner. FcγRΙΙB (CD32) is an antibody constant-region receptor found on FDCs and mutation of this receptor in humans is associated with Systemic Lupus Erythematosus (SLE). In addition, previous work has demonstrated that autoreactive germinal centers are the product of expression of interferon alpha (ΙFNα) by FDCs, so FcγRIIB signaling may involve modulation of IFNα signaling. OBJECTIVE: Because FcγRIIB mutation is associated with SLE and FDCs have been shown to be important in orchestrating B cell responses, understanding FcγRIIB on FDCs helps characterize B cell repertoire development in response to antigen—whether the antigen is foreign or self, as is the case in autoimmunity. Better characterization of the role of FcγRIIB could have consequences for autoimmune and cancer therapy. This study seeks to determine the role of FcγRΙΙB on FDCs in germinal center B cell selection dynamics within single, autoreactive germinal centers. METHODS: This study compares transplanted wild-type (B6) B cells—that are driven to be autoimmune by simultaneously transplanted autoimmune B cells—in two stromal cell settings: first, in germinal centers containing wild-type FDCs and second, in germinal centers containing FcγRIIB-knockout FDCs. Transplanted B6 B cell populations express photoactivatable protein, which allows for sorting of B cells from individual germinal centers. B cell sequences from single germinal centers were analyzed to determine how focused each germinal center response was and how the B cells differ in maturity and affinity for antigen. Finally, mice expressing a lineage-tracing system were treated with IFNα in order to observe the cytokine’s effect on B cell selection. RESULTS: Cells sorted from germinal centers containing FcγRIIB-knockout FDCs contain a distinguished population of less-developed B cells, as quantified by population-based analysis of their variable heavy chain genes. Overall, the IgM sequences from B cells sorted from germinal centers (GCs) containing FcγRIIB-knockout follicular dendritic cells displayed lower levels of somatic hypermutation (SHM) (p<.05) and shorter hypervariable regions (CDR3) (p<.05) compared to other B cell populations. Values computed to summarize how many different B cell lineages were present in a GC—its “clonality”—did not vary between the two mouse populations, although FcγRIIB-knockout FDC germinal centers displayed a correlation between clonality and immunoglobulin (Ig) isotype expression (R2= .85). Finally, lineage tracing mice receiving injections of interferon alpha (IFNα) displayed no difference in GC clonality compared to those receiving vehicle and assays of IFNα downstream signaling genes also displayed no change. CONCLUSIONS: FcγRIIB encourages more stringent selection of immature B cells in germinal centers as evidenced by survival of less developed B cells as defined by degree of somatic hypermutation and CDR3 length in GCs comprising FcγRIIB-knockout FDCs. In spite of this, sequence-based measures of germinal center clonality as completed here may fail to capture the functional results of B cell selection. In addition, the link between FcγRIIB and IFNα requires further investigation. / 2019-07-03T00:00:00Z

Immunology

FcγRIIB

Follicular dendritic cells

B cells

Single cell sequencing

Systemic lupus erythematosus (SLE)

Compartmentalization of HIV-1 in the Secondary Lymphoid Tissues

Gregson, James Peter

02 August 2007

Follicular dendritic cells (FDCs) reside in the lymphoid follicles of the secondary lymphoid tissues (sLTs). Following the infection of an individual with human immunodeficiency virus type 1 (HIV-1), viral particles are trapped in massive quantities on the surfaces of FDCs. HIV-1 viral compartments are cell types or tissues between which there is a restriction of virus flow. Compartmentalization of HIV-1 creates numerous sites within the body in which the virus can undergo independent evolution, giving rise to a more diverse total viral population. Given the sessile nature of the FDC, I hypothesized that contrary to common assumptions, FDC-trapped HIV-1 is compartmentalized between different sLTs. Furthermore, given that FDC-trapped HIV-1 represents the major source of virus in the host, I postulated that this compartmentalization would likely impact the diversity of HIV-1 associated with the sLTs. I isolated FDCs, macrophages, and T cells from various sLTs, and sequenced cloned HIV-1 associated with these three cell populations. I subjected the resulting DNA and cDNA sequence data to phylogenetic and other statistical analyses. In support of my hypothesis, I demonstrate that both HIV-1 gp120 and pol sequences cloned from FDCs are compartmentalized between different sLTs. This compartmentalization is even apparent between lymph nodes taken from the same lymph node chain. One of the apparent effects of this compartmentalization is to significantly increase the viral genetic diversity in multiple sLTs when compared with diversity in a single sLT. It also appears that the selective pressures on HIV-1 differ among the sLTs. In addition, when proviruses isolated from macrophages from different sLTs were compared, it was also evident that there is compartmentalization of HIV-1 associated with this cell type as well. Finally, I demonstrate that HIV-1 isolated from an unfractionated population of cells from a single sLT, may be an inadequate representation of the total viral population in that sLT. Taken together, my data suggest that the nature of HIV-1 in the sLTs may be more complex than currently appreciated.

follicular dendritic cells

secondary lymphoid tissues

human immunodeficiency virus type 1

compartmentalization

Biochemistry

Chemistry

Capacity of Human Immunodeficiency Virus Targeting Chimeric Antigen Receptor T Cells to Eliminate Follicular Dendritic Cells Bearing Human Immunodeficiency Virus Immune Complexes

Ollerton, Matthew T

01 December 2017

An important obstacle to a functional cure for HIV/AIDS is the persistence of viral reservoirs found throughout the body in various cells and tissues. Reservoirs can be latently infected cells, or in the case of follicular dendritic cells (FDC), non-infected cells that trap infectious virus on their surface through immune complexes (HIV-IC). Although several strategies have been employed to target and eliminate viral reservoirs, they are short-lived and ineffective. In an attempt to provide a long-term approach, chimeric antigen receptor T (CAR-T) cells were designed to eliminate native HIV on FDCs. Although effective at eliminating HIV-infected cells, and halting spreading infection, their ability to eliminate the viral reservoir found on (FDCs) remains unclear. We used a novel second-generation CAR-T cell expressing domains 1 and 2 of CD4 followed by the mannose binding lectin (MBL) to allow recognition of native HIV envelope (Env) to determine the capacity to respond to the viral reservoir found on FDCs. We employed a novel fluorescent lysis assay, the Carboxyfluorescein succinimidyl ester (CFSE) release assay, as well as flow cytometric based assays to detect functional CAR-T activation through IFN-γ production and CD107a (i.e., LAMP1) membrane accumulation to test cytolytic capacity and functional activation of CD4-MBL CAR-T cells, respectively. We demonstrated their efficacy at eliminating HIV-infected cells or cells expressing gp160. However, these CAR-T cells were unable to lyse cells bearing surface bound HIV-IC. We found that failed lysis was not a unique feature of a resistant target, but a limitation in the CAR-T recognition elements. CAR-T cells were inactive in the presence of free HIV or in the presence of concentrated, immobilized virus. Further experiments determined that in addition to gp120 recognition by the CAR-T, the adhesion molecule ICAM-1 was necessary for efficient CAR-T cell killing of HIV-infected cells. CAR-T cell activity and killing were inhibited in the presence of ICAM-1 blocking antibody. These results suggest that other factors, such as adhesion molecules, play a vital role in CAR-T responses to HIV-infected cells. In addition, our findings highlighted the necessity to consider all models of HIV reservoirs, including FDCs, when evaluating therapeutic efficacy.

HIV

chimeric antigen receptor

follicular dendritic cells

Chemistry

Physical Sciences and Mathematics

Capacity of Human Immunodeficiency Virus Targeting Chimeric Antigen Receptor T Cells to Eliminate Follicular Dendritic Cells Bearing Human Immunodeficiency Virus Immune Complexes

Ollerton, Matthew T

01 December 2017

An important obstacle to a functional cure for HIV/AIDS is the persistence of viral reservoirs found throughout the body in various cells and tissues. Reservoirs can be latently infected cells, or in the case of follicular dendritic cells (FDC), non-infected cells that trap infectious virus on their surface through immune complexes (HIV-IC). Although several strategies have been employed to target and eliminate viral reservoirs, they are short-lived and ineffective. In an attempt to provide a long-term approach, chimeric antigen receptor T (CAR-T) cells were designed to eliminate native HIV on FDCs. Although effective at eliminating HIV-infected cells, and halting spreading infection, their ability to eliminate the viral reservoir found on (FDCs) remains unclear. We used a novel second-generation CAR-T cell expressing domains 1 and 2 of CD4 followed by the mannose binding lectin (MBL) to allow recognition of native HIV envelope (Env) to determine the capacity to respond to the viral reservoir found on FDCs. We employed a novel fluorescent lysis assay, the Carboxyfluorescein succinimidyl ester (CFSE) release assay, as well as flow cytometric based assays to detect functional CAR-T activation through IFN-γ production and CD107a (i.e., LAMP1) membrane accumulation to test cytolytic capacity and functional activation of CD4-MBL CAR-T cells, respectively. We demonstrated their efficacy at eliminating HIV-infected cells or cells expressing gp160. However, these CAR-T cells were unable to lyse cells bearing surface bound HIV-IC. We found that failed lysis was not a unique feature of a resistant target, but a limitation in the CAR-T recognition elements. CAR-T cells were inactive in the presence of free HIV or in the presence of concentrated, immobilized virus. Further experiments determined that in addition to gp120 recognition by the CAR-T, the adhesion molecule ICAM-1 was necessary for efficient CAR-T cell killing of HIV-infected cells. CAR-T cell activity and killing were inhibited in the presence of ICAM-1 blocking antibody. These results suggest that other factors, such as adhesion molecules, play a vital role in CAR-T responses to HIV-infected cells. In addition, our findings highlighted the necessity to consider all models of HIV reservoirs, including FDCs, when evaluating therapeutic efficacy.

HIV

chimeric antigen receptor

follicular dendritic cells

Chemistry

Physical Sciences and Mathematics

Linterface neuro-immune et lexpression de la protéine prion cellulaire dans le cadre des maladies à prions. Une étude comparative des espèces bovine et humaine

Defaweux, Valérie

01 June 2007

Le tropisme cellulaire des prions infectieux diffère selon lespèce animale, celui-ci est corrélé à la souche infectieuse et à des facteurs spécifiques de lhôte. Par exemple, certains prions infectieux sont lymphotropiques, notamment en cas de scrapie chez les moutons et de variant de la maladie de Creutzfeldt-Jakob (vMCJ) chez lhomme. Par opposition, certains prions se caractérisent par un neurotropisme comme observé chez des patients Creutzfeldt-Jakob atteints de la forme sporadique ou chez des bovins atteints dencéphalopathies spongiformes bovines (ESB). Lhypothèse de notre travail repose sur les observations suivantes : dans le cas du variant de la maladie de Creutzfeldt-Jakob et des encéphalopathies spongiformes bovines, lagent responsable est identique, la voie dinoculation et les lésions neurologiques le sont également, seul le tropisme de cette souche pour les organes lymphoïdes diffère. En effet, les amygdales, la rate et lappendice sont infectieux chez lhomme. Par contre, linfectiosité est surtout confinée au niveau du système nerveux chez le bovin. Lors dune inoculation expérimentale par voie orale de lagent responsable de lESB chez les bovins, les plaques de Peyer iléales sont les seuls tissus lymphoïdes infectieux. Notre hypothèse de travail est que des propriétés de lhôte interviennent dans le tropisme de lagent infectieux. Deux axes de recherche ont été envisagés afin de vérifier cette hypothèse :  Lanalyse de la distribution des fibres nerveuses au sein des tissus lymphoïdes associés aux muqueuses (MALT) des espèces bovine et humaine  Létude de lexpression de PrPc et de ses isoformes au sein des tissus lymphoïdes et nerveux des espèces bovine et humaine. Pour atteindre au mieux nos objectifs, il nous manquait un outil essentiel permettant la caractérisation spécifique des FDC bovines. En effet, aucun marqueur spécifique de ces cellules nétait commercialisé. Nous avons donc produit, en collaboration avec le Centre dEconomie Rural de Marloie, un anticorps monoclonal spécifiquement dirigé contre les cellules folliculaires dendritiques (FDC) bovines. Cet anticorps nous a permis détudier la distribution des FDC au sein des organes lymphoïdes bovins. Une attention particulière a été portée aux FDC isolées à partir des plaques de Peyer jéjunales (PPJ) et iléales (PPI). Lapparente différence dinfectivité de ces tissus lymphoïdes chez des bovins atteints expérimentalement dESB nous a conduit à comparer les capacités fonctionnelles des FDC isolées à partir de PPJ et de PPI. Ces observations sont décrites et discutées dans le chapitre 1. Dans le chapitre 2, nous avons établi une cartographie des fibres nerveuses au sein des amygdales, des plaques de Peyer iléales et jéjunales bovines de plusieurs catégories dâge et ensuite comparé ce pattern dinnervation à celui des amygdales humaines; ceci permettra de pister les voies potentielles de neuro-invasion. Une attention particulière a été portée à linterface cellules folliculaires dendritiques fibres nerveuses. En effet, les FDC matures jouent un rôle prépondérant dans la pathogenèse des maladies à prion puisquen leur absence, une infection périphérique na pas lieu. De plus, la proximité entre fibres nerveuses et FDC est un paramètre intervenant dans la neuro-invasion; nous avons dès lors aussi analysé les contacts entre les FDC et les éléments nerveux. Lexpression de la PrPc est une condition sine qua non pour la formation de PrPres. Cette protéine cellulaire sert probablement de récepteur pour son homologue infectieux mais sert surtout de substrat pour lamplification de PrPres ; toute modification au niveau de sa synthèse pourrait entraîner un changement de la cinétique dinfection et pourrait expliquer lapparente absence dinfectivité constatée au niveau du système immunitaire chez les bovins. Lexpression tissulaire et cellulaire spécifique disoformes de la PrPc représente un facteur de lhôte potentiellement capable dinfluencer le tropisme cellulaire de lagent infectieux chez lhumain et le bovin. Cette expression a été étudiée dans les systèmes MALT bovins et humains. Pour affiner notre étude, nous avons analysé, par des techniques de western-blotting, le glycopattern de la PrPc ainsi que lexpression de ses formes tronquées dans les tissus lymphoïdes humains et bovins mais également dans des populations cellulaires spécifiques, les lymphocytes et les FDC. Afin de vérifier si les isoformes de PrPc sont spécifiques aux tissus lymphoïdes, nous avons effectué une étude comparative du pattern de glycosylation et du ratio des formes clivées de PrPc, exprimés au sein de différentes régions du système nerveux central bovin et humain. Les résultats de ces travaux sont repris dans le chapitre 3.

Prion

Innervation/Innervation

isoformes de PrPc/ PrPc isoforms

Plaques de Peyer/Peyer's patches

IgG3 Complements IgM in the Complement-Mediated Regulation of Immune Responses

Zhang, Lu

January 2017

An intact complement system is essential for the initiation of a normal antibody response. Antibodies can regulate their own production against the antigens that they are specific for. Both IgG3 and IgM are able to enhance the antibody response via complement. Here, we have compared the fate of OVA-TNP (ovalbumin-2,4,6-trinitrophenyl) administered intravenously to mice either alone or in complex with monoclonal IgG3 anti-TNP. IgG3-antigen complexes bind to marginal zone (MZ) B cells via complement receptors 1 and 2 (CR1/2) and are transported into splenic follicles. The majority (50% - 90%) of the antigens is deposited on follicular dendritic cells (FDC) and the antigen distribution pattern is strikingly similar to peripheral dendrites/processes of FDC already 2 h after immunization. The development of germinal centers (GC) induced by IgG3-antigen complexes is impaired in mice lacking CR1/2. Experiments on bone marrow chimeric mice show that CR1/2 expression on both MZ B cells and FDC is required for optimal IgG3-mediated enhancement of antibody responses. Complement factors C3 and C1q are essential for OVA-TNP delivery and deposition on splenic FDC. The production of IgG anti-OVA is abrogated in mice lacking CR1/2, C1q, and C3. Further, IgG3-antigen complexes dramatically upregulate the memory response against OVA-TNP by inducing OVA-specific memory cells. Besides small protein OVA, IgG3 can also upregulate humoral responses against large soluble keyhole limpet hemocyanin. To further study the role of MZ B-cells and CR1/2 in enhancement of antibody responses, a knock-in mouse strain, Cμ13, was used. IgM in this mouse strain is unable to activate complement due to a point mutation in the constant µ-heavy chain. Cμ13 mice have a higher proportion of MZ B cells, with higher CR1/2 expression, than wild-type mice. More IgG3-immune complexes are captured by MZ B cells and deposited on FDC in Cμ13 than in WT mice. In spite of this, IgG3 did not enhance the primary antibody response more efficiently in Cμ13 mice. The existence of endogenous IgM-mediated feedback regulation was suggested by the observation that GC development and antibody responses, after priming and boosting with suboptimal doses of SRBC, was lower in Cμ13 than in WT mice.

IgG3

IgM

marginal zone B cells

follicular dendritic cells

complement receptors 1 and 2

C1q

C3

antigen transport

Immunology in the medical area

Immunologi inom det medicinska området