81 |
Die Rolle von ICOS auf die B-Zelldifferenzierung in einem in vivo ModellDahler, Anja Christina 14 October 2009 (has links)
Der induzierbare Kostimulator ICOS ist ein zu CD28 strukturell und funktionell verwandtes Molekül, das eine wichtige regulatorische Rolle bei der T-Zelleffektorfunktion spielt. Eine ICOS-Defizienz beim Mensch manifestiert sich in einer schweren Störung des humoralen Immunsystems. Eine murine ICOS-Defizienz führt ebenfalls zu einer Beeinträchtigung der T-Zell-abhängigen humoralen Immunantwort, bei der kleinere oder komplett fehlende Keimzentren zu beobachten sind. Vielfältige in vitro und in vivo Studien führten diese Phänomene auf die beeinträchtigte Regulation von Kommunikationsmolekülen der Zelloberfläche und der Zytokinexpression durch ICOS-defiziente T-Zellen zurück. Ein Ziel dieser Arbeit war es, mit Hilfe von ICOS KO Mäusen den Einfluss von ICOS auf die B-Zellentwicklung genauer zu untersuchen. Dabei konnte gezeigt werden, dass ICOS erst in der späten Phase der B-Zellentwicklung eine Rolle spielt, da der Interaktionspartner von ICOS erst auf transitionellen B-Zellen der Milz exprimiert wird. Durch die Etablierung eines in vivo adoptiven T-B Transfermodells konnte die Rolle von ICOS erstmalig bei der T-B Kooperation in den frühen Phasen der Immunantwort auf der Ebene Antigen-spezifischer T- und B-Zellen aufgeklärt werden. Dabei konnte beobachtet werden, dass eine ICOS-Defizienz einen dramatischen Einfluss auf die B-Zellexpansion und B-Zellproliferation hat. Zum ersten Mal konnte in vivo gezeigt werden, dass ICOS bei der T-B Kooperation eine entscheidende Rolle bei der Regulation diverser Oberflächenmarker der B-Zellen spielt, wodurch die B-Zellaktivierung, B-Zellproliferation und B-Zelldifferenzierung bei der Keimzentrums- und Plasmazellreaktion beeinflusst werden. Histologische Analysen zeigten, dass bei einer ICOS-Defizienz follikuläre T-Helferzellen nicht in die Keimzentrumsumgebung einwandern und daher keine T-Zellhilfe für die B-Zellen anbieten können. Dadurch kann die Keimzentrumsreaktion nicht weiter aufrechterhalten werden und eine Ausbildung von kleineren Keimzentren ist die Folge. Weiterhin konnte beobachtet werden, dass eine fehlende ICOS-Interaktion zwischen T- und B-Zellen zu einer Störung der Plasmazellgenerierung führt, wodurch auch die Mengen an messbaren Serumimmunglobulinen beeinflusst werden. Eine erhöhte Gabe von ICOS-defizienten T-Zellen kann diese Effekte nicht vollständig ausgleichen. Daher ist erkennbar, dass ICOS eine Vielzahl von zusätzlichen Faktoren beeinflusst, die für die ICOS-abhängigen B-Zelleffekte verantwortlich sind. / The inducible costimulator ICOS, structural and functional similar to CD28, plays an important regulatory role in T cell receptor function. The ICOS deficiency in humans is described as a severe dysfunction of the humoral immune response, resulting in dramatic reduced B cell numbers and impaired antibody response against pathogens. The murine ICOS-deficiency also leads to a disturbed T cell dependent immune response resulting in a reduced germinal center formation. Various in vitro and in vivo studies attributes this phenomenon to impaired upregulation of cell surface communication molecules and cytokine synthesis by ICOS-deficient T cells. In this work the investigations with ICOS KO mice should clarify the impact of ICOS in B cell development. As observed, ICOS can only play a role in the late phase B cell development, because the interaction partner is expressed on transitional B cells in the spleen. The establishment of an in vivo adoptive T-B transfer system could determine for the first time the role of ICOS in T-B cooperation in early immune response stages on antigen specific T and B cell levels. As shown, ICOS deficiency influences in a dramatic extend the B cell expansion and B cell proliferation. For the first time in vivo, we could demonstrate that ICOS plays a significant role by influencing the regulation of various B cell surface markers, which affects the B cell activation, B cell proliferation and B differentiation in germinal center or plasma cell reaction. Histological investigations revealed in the ICOS-deficiency that follicular T helper cells could not migrate into the germinal center microenvironment and therefore could not provide T cell help for B cells. As a result, the germinal center reaction could not maintained and therefore the formation of little germinal centers occurred. The missing interaction between T and B cells leads to a dysfunction in plasma cell generation and also influences the detectable amounts of serum immunglobulines. An administration of higher ICOS KO T cell numbers could not fully compensate these effects. Therefore, ICOS bias multitudes of additional factors, which are responsible for the ICOS dependent B cell effects.
|
82 |
Le rôle de la région régulatrice en 3' du locus des chaines lourdes d'immunoglobulines sur le développement des lymphocytes B1 / The role of the 3' regulatory region of the immunoglobulin heavy chain locus on B1 B-cells developmentIssaoui, Hussein 12 December 2019 (has links)
Durant l’ontogénie B, le locus des chaînes lourdes d’immunoglobulines (IgH) subit trois processus majeurs de réarrangements géniques. Lors de la phase précoce du développement B, indépendamment de la rencontre avec un antigène (Ag), les recombinaisons VHDJH donnent le répertoire diversifié des Ig fonctionnelles. Durant la phase tardive, suite à une activation par l’Ag, l’hypermutation somatique (SHM) permet l’augmentation de l’affinité de l’Ig à son Ag et la recombinaison isotypique (CSR) va modifier ses fonctions effectrices. Tous ces processus sont strictement régulés par différents éléments cis-régulateurs repartis tout au long du locus IgH. La région régulatrice en 3’ (3’RR) en est un. Elle s’étend sur environ 30 Kb et est constituée de quatre activateurs transcriptionnels, dont les trois premiers forment une structure palindromique. La 3’RR contrôle, chez le lymphocyte B-2 (LB-2), la transcription du locus IgH, le devenir de la cellule B, la SHM et la CSR mais elle n’a aucun effet sur les recombinaisons VHDJH et la diversité du répertoire antigénique. Les LB-1 représentent un petit pourcentage des LB totaux. Ils diffèrent des LB-2 par leur origine, développement, fonctions, marqueurs de surface et distribution tissulaire. Les LB-1 maintiennent l'homéostasie dans l'organisme et sont la source principale des Ig naturelles (NIgM et NIgA) au cours des premières phases d'une réponse immunitaire. Lors de ma thèse, nous avons étudié le rôle de la 3’RR sur le développement des LB-1. D’une façon identique aux LB-2, la 3’RR contrôle la transcription du locus IgH, le devenir des cellules B et la SHM dans les LB-1. A l’inverse des LB-2, la 3’RR joue un rôle indirect sur la diversité du répertoire antigénique dans les LB-1 et n’a aucun effet sur la CSR vers IgA. Ces résultats mettent en évidence, pour la première fois, la contribution de la 3'RR dans le développement d’une population cellulaire B à l’interface entre l’immunité innée et acquise. Ils renforcent nos connaissances sur le rôle des éléments cis-régulateurs du locus IgH dans le développement de ces deux immunités. / During B-cell development, the immunoglobulin heavy chain locus (IgH) undergoes three major genic rearrangements. During the early stages, before encountering the antigen (Ag), VHDJH rearrangements allow the generation of the Ig repertoire. During the late stages, after encountering the Ag, somatic hypermutation (SHM) increases the affinity of the Ig for its Ag, while class switch recombination (CSR) modifies its effector functions. All these genetic events are strictly regulated by cis-regulatory elements spread along the IgH locus, including the 3’ regulatory region (3’RR). The 3’RR extends over more than 30kb and contains four transcriptional enhancers, the first three displaying a palindromic conformation. The 3'RR controls B2 B-cell IgH transcription, cell fate, SHM and CSR but not repertoire diversity. B1 B-cells represent a small percentage of total B-cells differing from B2 B-cells by several points such as precursors, development, functions, surface markers and tissue distribution. B1 B-cells act at the steady state to maintain homeostasis and during the earliest phases of an immune response by secreting natural Ig (NIgM and NIgA). During my PhD, we investigated the role of the 3'RR on B1 B-cells. Similarly to B2 B-cells, the 3'RR controls IgH transcription, cell fate and SHM in B1 B-cells. In contrast to B2 B-cells, 3'RR deletion indirectly affects B1 B-cell repertoire diversity and has no effect on their CSR towards IgA. These results highlight, for the first time, the contribution of the 3'RR in the development of a B-cell population at the interface between innate and acquired immunity. Moreover, these results strengthen our knowledge of the role of the cis-regulatory elements of the IgH locus in the development of these two immune responses.
|
83 |
Control of translational activation by PIM kinase in activated B-cell diffuse large B-cell lymphoma confers sensitivity to inhibition by PIM447Peters, Tara L., Li, Lingxiao, Tula-Sanchez, Ana A., Pongtornpipat, Praechompoo, Schatz, Jonathan H. 26 September 2016 (has links)
The PIM family kinases promote growth and survival of tumor cells and are expressed in a wide variety of human cancers. Their potential as therapeutic targets, however, is complicated by overlapping activities with multiple other pathways and remains poorly defined in most clinical scenarios. Here we explore activity of the new pan-PIM inhibitor PIM447 in a variety of lymphoid-derived tumors. We find strong activity in cell lines derived from the activated B-cell subtype of diffuse large B-cell lymphoma (ABC-DLBCL). Sensitive lines show lost activation of the mTORC1 signaling complex and subsequent lost activation of cap-dependent protein translation. In addition, we characterize recurrent PIM1 protein-coding mutations found in DLBCL clinical samples and find most preserve the wild-type protein's ability to protect cells from apoptosis but do not bypass activity of PIM447. Pan-PIM inhibition therefore may have an important role to play in the therapy of selected ABC-DLBCL cases.
|
84 |
B cell and antibody responses to influenza A virus in humanHuang, Kuan-Ying January 2011 (has links)
Neutralising antibodies and antigen-specific B cells are important for protection against influenza A virus. However, the antigenic evolution of influenza A viruses has made a continuing challenge to the design of vaccine and the public health. The ability to generate cross-reactive response against influenza remains unclear in human. It is important to explore the antibody and B cell repertoire at single cell level. The pandemic H1N1 and seasonal influenza vaccine induced robust antibody response in adults. However, pre- or co-vaccination with the seasonal vaccine led to a significantly reduced antibody response to pandemic H1N1 virus. Whether this interference has impact on subsequent infection rates remains undetermined. There observed substantial cross-reactive antibody response upon vaccination, as measured by HI, MN and B cell ELISpot assays. The antibody recognizing conserved proteins could be the main component of cross-reactivity against influenza A strains and subtypes. A significant expansion of influenza-specific MBC was observed after infection. Crossreactive response was also noted in the MBC response. Importantly, a robust early-phase ASC response was detected in the peripheral blood upon influenza vaccination or infection. The size of ASC response significantly correlated with serum HI, MN and anti-HA IgG titre three weeks after vaccination. The sequence analysis revealed that early-phase ASC accumulated high level of somatic mutations on Ig variable region and affinity maturation, as well as anti-influenza mAb, which suggested their origin from pre-existing MBC. Eight anti-influenza mAb were made from early-phase ASC, including one high-titre virus-neutralising HA1-specific, two other HA1-specific, one cross-reactive HA2-specific, and four cross-reactive NP-specific antibodies, indicating of the broad diversity of ASC repertoire. In conclusion, this study demonstrated the properties of antibody and B cell responses to influenza A virus at serological, cellular and sequence level. The virus-neutralising and cross-reactive mAb derived from ASC could have therapeutic potential and their analysis might direct the vaccine design in the near future.
|
85 |
Analysis of b cell responses to blood-stage malaria antigens in humans following immunization with candidate vaccines and controlled human malaria infectionElias, Sean C. January 2014 (has links)
The apicomplexan parasite Plasmodium falciparum is the causative agent of the most severe and deadly form of human malaria. The production of an efficacious malaria vaccine is seen as one of the key steps towards the eradication of the disease, however to date only one candidate has progressed to application for licensure. Candidate malaria vaccines target the different stages of the P. falciparum lifecycle through induction of a functional immune response. Vaccines targeting the blood-stage parasite require induction of high titre neutralising antibodies. To achieve this, vaccine regimens have been designed specifically to maximise antibody induction and maintenance in humans. The ultimate test of any candidate vaccine is clinical efficacy and controlled human malaria infection (CHMI) is a powerful tool for measuring this. This model can also be used to study how vaccine induced antigen-specific components of the immune system respond to native antigen exposure in the context of parasitic infection In this Thesis I describe the induction and maintenance of B cell responses, including memory B cells (mBC) and antibody secreting cells (ASC) to the candidate blood-stage malaria antigens MSP1 and AMA1 following vaccination with a variety of regimens and CHMI. These B cell populations along with peripheral blood T follicular helper (Tfh) cells correlate strongly with antibody induction. Within these populations I have identified a number of phenotypically distinct subsets which contribute to a functional response to vaccine and/or parasite antigen. From single cell sorting of ASC at day seven post-boost I have managed to produce the first fully human monoclonal antibodies (hmAbs) specific for AMA1, one of which shows significant growth inhibitory activity (GIA). Despite promise the vaccine candidates MSP1 and AMA1 have been disappointing in terms of human efficacy. In this Thesis I have attempted to provide explanations on a cellular level as to why there is such disparity between pre-clinical and human data and ultimately why these candidates may have failed to provide efficacy. Such work will provide a strong basis for analysing future clinical trials of alternative candidate blood-stage vaccines and allow accurate characterisation of immune correlates and clinical efficacy when it is achieved.
|
86 |
Defining Mechanisms of Sensitivity and Resistance to Histone Deacetylase Inhibitors to Develop Effective Thereaputic Strategies for the Treatment of Aggressive Diffuse Large B-Cell LymphomaHavas, Aaron Paul, Havas, Aaron Paul January 2016 (has links)
Diffuse large B-cell lymphoma (DLBCL) is the most common form of non-Hodgkin lymphoma (NHL). The current standard of care is the combination of rituximab with cyclophosphamide, doxorubicin, vincristine and prednisone (R-CHOP), but this only results in a 60% over-all 5-year survival rate, thus highlighting a need for new therapeutic approaches. Histone deacetylase inhibitors (HDACi) are novel therapeutics that is being clinically evaluated for combination therapy. Rational selection of companion therapeutics for HDACi is difficult due to their poorly understood, cell-type specific mechanisms of action. To understand these mechanisms better, we developed a pre-clinical model system of response to the HDACi belinostat. Using this model system, we identified two major responses. Resistance, consisting of a reversible G1 cell cycle arrest with little induction of apoptosis; or sensitivity, consisting of mitotic arrest and high levels of apoptosis. In this dissertation, we determine that the induction of G1 cell cycle arrest is due to the increased expression of cyclin dependent kinase inhibitors (CDKi) that bind to and inhibit the cyclin E/CDK2 complex thereby blocking the final repressive phosphorylation steps of Rb protein. Repression of transcriptional elongation blocked CDKi upregulation and prevented G1 cell cycle arrest in belinostat-resistant cells. Additionally, we identified that belinostat arrests sensitive cells prior to metaphase and belinostat-resistant cells slow-down in mitosis but complete the process prior to arresting in G1. The combination of belinostat with the microtubule-targeting agent, vincristine resulted in strong synergistic induction of apoptosis by targeting mitotic progression. Furthermore, this combination prevents polyploidy, a key mechanism of resistance to microtubule targeting agents. Finally, we utilized selective class one HDAC inhibitors to identify the individual contributions of HDACs in the eliciting the responses observed with belinostat treatment. HDAC1&2 inhibition recapitulated the belinostat-resistant phenotype of G1 cell cycle arrest with little apoptosis, in both belinostat-resistant and sensitive cell lines. HDAC3 inhibition resulted in the induction of DNA damage, increased S phase and the induction of apoptosis in belinostat-resistant cells. Belinostat-resistant cells did not have observable effects to HDAC3 inhibitor alone but when combined with vincristine had significantly increased G2/M population at early time points. This suggests that HDAC3 maintains roles in DNA replication and also in mitotic progression. HDAC3 inhibition combined with vincristine resulted in a significant increase in polyploidy, suggesting that HDAC3 might not regulate the expression of apoptotic regulating factors as belinostat does.
|
87 |
Early Growth Response genes 2 and 3 play a role in chronic inflammation pathology and are essential for the differentiation of T follicular helper cellsOgbe, Ane Theodora January 2015 (has links)
The Early Growth Response genes 2 and 3 (Egr2/3) are zinc finger transcription factors that play an important role in the immune system. These transcription factors have reported functions in T cell receptor signaling, differentiation of effector T cell subsets and the development of lupus-like autoimmune diseases. Using CD2-Egr2-/- Egr3-/- mouse model, I investigate the development of inflammation pathology, differentiation of T follicular helper (Tfh) cells and the formation of germinal centers (GC) following viral challenge within these mice. The onset of inflammation pathology in CD2-Egr2-/- Egr3-/- mice was discovered to correlate with high levels of pro-inflammatory cytokines in the serum and the development of autoimmune diseases as previously reported by Li et al, 2012. Most importantly, a novel role for the Egr2/3 genes in the differentiation of T follicular helper (Tfh) cells was identified. Tfh cells are responsible for T cell dependent antibody immune response in the GC. They support the differentiation of GC B cells into plasma cells producing long lived high-affinity isotype-switched antibodies and memory B cells. Tfh cell differentiation is regulated by Bcl6 however; the regulators of Bcl6 during Tfh differentiation remain largely unknown. We have now discovered that Egr2/3 genes are required for Bcl6 expression during Tfh cell differentiation. In the absence of the Egr2 and 3 genes, Tfh cell differentiation is severely impaired and GC formation and functions were defective in response to Vaccinia Virus Western Reserve strain (VVWR) infection. Further investigation revealed that Egr2 regulated Bcl6 expression in a Tfh-specific manner as adoptive transfer of WT CD4+ T cells into Egr2-/- Egr3-/- mice was able to rescue Bcl6 expression, Tfh differentiation and GC formation. When the molecular mechanism of how Egr2 regulated Bcl6 was investigated, it was uncovered that Egr2 directly bound to the promoter region of Bcl6 gene in CD4 T cells to regulated Bcl6 expression. Indeed constitutive expression of either Egr2 or Bcl6 in CD2-Egr2-/- Egr3-/- CD4+ T cells rescued Tfh cell differentiation and GC formation. Our results inferred that the Egr2/3 genes are essential for Tfh differentiation and GC formation by regulating Bcl6 expression in CD4 T cells under Tfh condition. Our studies thus suggest that the Egr2/3 genes are paramount for minimising immunopathology and are also critical for efficient antibody production by regulating Tfh cell differentiation.
|
88 |
CD23's Role as a Negative Regulator of Allergic Disease: in vivo Effects of Murine CD23 Destabilization and Allelic MutationsFord, Jill Wallace 01 January 2007 (has links)
Through underexpression and overexpression studies, CD23 has been shown to negatively regulate IgE production. To investigate CD23 destabilization and its effects on CD23 shedding and IgE synthesis in vivo, we utilized an anti-CD23 stalk monoclonal (19G5) which has previously been shown to enhance proteolysis of CD23 in vitro. Compared to isotype control-treated mice, mice injected with 19G5 displayed enhanced serum soluble CD23 and IgE. Because 19G5 injection substantially enhanced CD23 shedding, it was useful in investigating the identity of the CD23 sheddase. 19G5 enhanced CD23 shedding in ADAM8-/-, ADAM9-/-ADAM15-/-, and ADAM9-/-ADAM12-/-ADAM15-/- mice, ruling out these ADAMs as candidate CD23 sheddases. Through the use of an ADAM10 inhibitor, we blocked CD23 shedding from murine B cells while increasing CD23 surface levels, and thus we identified ADAM10 as the CD23 sheddase. During the course of the ADAM investigation, we discovered that the 129/SvJ inbred mouse strain carried five amino acid substitutions within its CD23 gene. The mutations resulted in reduced CD23 surface expression and hyper IgE levels in vivo. The hyper IgE phenotype was consistent with a more rapid clearance of Nippostrongylus brasiliensis from the gut of 129/SvJ mice. B cells from 129/SvJ spleens proliferated more rapidly than those from BALB/c after stimulation with IL-4 and CD40 ligand trimer in vitro. However, in vitro IgE levels in supernatants from 129/SvJ B cells were significantly reduced, suggesting that the B cells were no longer responsive to IL-4 in vitro. Although the affinity of the IgE-129/SvJ CD23 interaction was similar to that of the BALB/c, 129/SvJ B cells exhibited a reduced number of IgE binding sites, demonstrating that high levels of CD23 are essential for controlling IgE synthesis. This finding was further confirmed in another disease model, namely the mouse asthma model. Mice overexpressing CD23 displayed suppressed allergic lung inflammation and reduced levels of IgE and Th2 cytokines and chemokines. Overall, the data provide a direct demonstration for CD23's role in regulating IgE production in vivo and suggest that therapies aimed at stabilizing cell surface CD23 would inhibit proteolysis and increase surface expression, and thus would be beneficial in controlling allergic disease.
|
89 |
Rôle du TLR9 dans la maturation des lymphocytes B : implication dans la physiologie du syndrome de Gougerot-Sjögren / Impact of TLR9 activation on B cell differentiation : consequences for Sjögren’s syndrome pathophysiologyGuerrier, Thomas 21 June 2012 (has links)
Le syndrome de Gougerot-Sjögren (SGS) est une maladie auto-immune systémique. Il se caractérise principalement par une infiltration lymphocytaire des glandes salivaires (GS) et lacrymales responsable d’une sécheresse buccale et oculaire. Par ailleurs,les Toll-like récepteurs (TLR) endosomaux – notamment le TLR9 qui reconnait l’acide désoxyribonucléique (ADN) microbien mais aussi, dans certaines conditions, l’ADN du soi –s’avèrent être importants pour l’activation des lymphocytes B (LB) lors du lupus, une maladie proche du SGS. Nos travaux montrent que la stimulation du TLR9 chez les LB transitionnels,des LB immatures fraichement émigrés de la moelle osseuse, favorise leur différenciation selon la voie des LB de la zone marginale, et entraine la sécrétion d’auto-anticorps. L’analyse des LB infiltrant les GS lors du SGS révèle que ce phénomène pourrait être impliqué dans la physiopathologie de cette maladie. De plus, nous montrons que LL37, un peptide produit dans les GS, pourrait participer à l’activation du TLR9 des LB transitionnels. Enfin, nous avons mis en évidence une inattendue expression du TLR9 à la surface des LB. Si l’étude des conséquences fonctionnelles de cette localisation reste à poursuivre, elle semble avoir un effet négatif sur la stimulation du TLR9 endosomal. En conclusion, ces résultats suggèrent que leTLR9 puisse être une nouvelle cible thérapeutique lors du SGS. / Primary Sjögren’s syndrome (pSS) is a systemic autoimmune disease. It is mainly characterized by B cell and T cell infiltration in lacrimal and salivary glands (SG) responsible for eye and mouth dryness. In addition, endosomal Toll-like receptors (TLR) – especially TLR9 which recognizes microbial deoxyribonucleic acid (DNA) and also, under certain conditions, self DNA – are important for B cell activation during lupus, a disease close topSS. Our work shows that TLR9 stimulation on transitional B cells, immature B cells freshly emigrated from bone marrow, promotes their differentiation into marginal zone B cell pathway and drives to auto-antibodies production. Analysis of infiltrating B cells in pSS SG reveals that this phenomenon might be involved in the pathogenesis of the disease.Furthermore, we show that LL37, a peptide produced in the SG, could participate in TLR9activation of transitional B cells. Finally, we demonstrated an unexpected TLR9 expression on B cell surface. If the functional consequences of this localization remain to be more precisely evaluated, it seems that cell surface TLR9 has a negative effect on endosomal TLR9 stimulation. In conclusion, these results suggest TLR9 could be a new therapeutic target incase of pSS.
|
90 |
Expresní analýza nových B buněčných populací FO buněk charakterizovaných nepřítomností molekuly CD27 a nízkou expresí CD38 molekuly. / Expression analysis of new follicullar B cell populations characterized by absence of CD27 molecule and down-modulation of CD38 molecule.Kerdíková, Zuzana January 2012 (has links)
Two novel B cell populations were characterized in peripheral blood of patients with common variable immunodeficiency and healthy controls were observed using flow cytometry in the study supported by the grant IGA MZ ČR NKT11414-3. These B cell populations were defined as CD19+ CD27- CD21+ CD38low CD24+ IgM+ FO I and CD19+ CD27- CD21+ CD38low CD24++ IgM++ cells. Since none of found populations has ever been described, the aim of this thesis was to characterize these populations with focus on analysis of variable regions of the heavy chains of immunoglobulins and genes coding proteins participating in the process of VHDHJH formation (Rag 1, Rag 2, and TdT) produced by cells of these populations. Flow cytometry, single cell sorting, single-cell RT-PCR, IgVH, Rag 1, Rag 2, and TdT specific PCR amplification and cycle sequencing were employed to perform the molecular analysis in individual B lymphocytes. Both populations in two patients with common variable immunodeficiency, two healthy controls, and in two patients with autoimmune diseases - rheumatoid arthritis and systemic lupus erythematosus (as the disease control) - were examined. Finally, the statistical analysis was used to evaluate the differences in expression of variable regions of the heavy chains of immunoglobulins and in Rag1 and 2, and...
|
Page generated in 0.0681 seconds