scholarly journals Activated Murine B Lymphocytes and Dendritic Cells Produce a Novel CC Chemokine which Acts Selectively on Activated T Cells

1998 ◽  
Vol 188 (3) ◽  
pp. 451-463 ◽  
Author(s):  
Christoph Schaniel ◽  
Evangelia Pardali ◽  
Federica Sallusto ◽  
Mattheos Speletas ◽  
Christiane Ruedl ◽  
...  
Keyword(s):  
Bone Marrow ◽  
T Cells ◽  
Dendritic Cells ◽  
Lymph Node ◽  
Amino Acid ◽  
B Cells ◽  
B Lymphocytes ◽  
Open Reading Frame ◽  
Reading Frame ◽  
Splenic Cells

Genes were isolated using the suppression subtractive hybridization method by stimulation of pro/pre B cells with anti-CD40 and interleukin (IL)-4 to mature Sμ-Sε–switched cells. One of the strongly upregulated genes encodes a novel murine CC chemokine we have named ABCD-1. The ABCD-1 gene has three exons separated by 1.2- and 2.7-kb introns. It gives rise to a 2.2-kb transcript containing an open reading frame of 276 nucleotides. Two polyadenylation sites are used, giving rise to cDNAs with either 1550 or 1850 bp of 3′ untranslated regions. The open reading frame encodes a 24 amino acid–long leader peptide and a 68 amino acid–long mature protein with a predicted molecular mass of 7.8 kD. ABCD-1 mRNA is found in highest quantities in activated splenic B lymphocytes and dendritic cells. Little chemokine mRNA is present in lung, in unstimulated splenic cells, in thymocytes, and in lymph node cells. No ABCD-1 mRNA is detected in bone marrow, liver, kidney, or brain, in peritoneal exudate cells as well as in the majority of all unstimulated B lineage cells tested. It is also undetectable in Concanavalin A–activated/IL-2–restimulated splenic T cells, and in bone marrow–derived IL-2–induced natural killer cells and IL-3–activated macrophages. Recombinant ABCD-1 revealed a concentration-dependent and specific migration of activated splenic T lymphoblasts in chemotaxis assays. FACS® analyses of migrated cells showed no preferential difference in migration of CD4+ versus CD8+ T cell blasts. Murine as well as human T cells responded to ABCD-1. Freshly isolated cells from bone marrow, thymus, spleen, and lymph node, IL-2–activated NK cells, and LPS-stimulated splenic cells, all did not show any chemotactic response. Thus, ABCD-1 is the first chemokine produced in large amounts by activated B cells and acting selectively on activated T lymphocytes. Therefore, ABCD-1 is expected to play an important role in the collaboration of dendritic cells and B lymphocytes with T cells in immune responses.

scholarly journals ANATOMICAL DISTRIBUTION OF T AND B LYMPHOCYTES IN THE RAT

1973 ◽  
Vol 138 (6) ◽  
pp. 1443-1465 ◽  
Author(s):  
Irving Goldschneider ◽  
D. D. McGregor
Keyword(s):  
Bone Marrow ◽  
T Cells ◽  
Lymph Node ◽  
T Cell ◽  
B Cell ◽  
B Lymphocytes ◽  
Thoracic Duct ◽  
T And B Lymphocytes ◽  
White Pulp ◽  
Cell Surface Antigens

A method is described whereby antisera raised in rabbits to rat thoracic duct lymphocytes were made specific for the plasma membrane antigens of T and B lymphocytes. These lymphocyte-specific antisera were used in immunofluorescence assays to study the distribution of B and T cells in lymphocyte containing tissues and body fluids of the rat. Rabbit antirat B-cell serum (ALSB) reacted selectively with the surfaces of lymphocytes in the lymphoid follicles of lymph node cortex and in the follicles and marginal zones of splenic white pulp, but not with the surfaces of germinal center cells or plasma cells. An identical pattern of fluorescent staining was obtained with rabbit antirat Ig serum. It was shown by blocking, absorption, and immunoprecipitation studies that ALSB was composed in large part of antibodies to rat Ig, but that it contained antibodies to other B-cell antigens as well. Rabbit antirat T-cell serum (ALST) reacted selectively with the surfaces of lymphocytes in the paracortex of lymph node and in the periarteriolar sheath of spleen, and with thymocytes. ALST did not display anti-Ig activity. ALST reacted with approximately 100% thymocytes and with 90% thoracic duct, 80% lymph node, 60% blood, 50% spleen, and 10% bone marrow lymphocytes in suspensions of cells from these sources. ALSB reacted with the remainder of the lymphocytes in the suspensions, except for bone marrow in which only 59% of lymphocytes had detectable B- or T-cell surface antigens. The population of T lymphocytes in rat bone marrow was depleted by drainage of lymphocytes from a thoracic duct fistula, thereby establishing their membership in the pool of recirculating T cells. Approximately 14% of lymphocytes issuing from the thoracic duct of TxBM donors reacted with ALST. The presence in these animals of a small number of T cells, calculated to be approximately 2% of the normal value, may account for the limited capacity of TxBM rats to respond to antigens that induce a cell-mediated immune response.

Plasma and Intracellular Concentration of TNF and Its Receptors in Peripheral Blood and Bone Marrow in Different Stages of B-CLL.

Blood ◽  
2004 ◽  
Vol 104 (11) ◽  
pp. 4781-4781
Author(s):  
Jacek Rolinski ◽  
Agnieszka Bojarska-Junak ◽  
Iwona Hus ◽  
Anna Dmoszynska
Keyword(s):  
Bone Marrow ◽  
T Cells ◽  
B Cells ◽  
B Lymphocytes ◽  
Peripheral Blood ◽  
Biological Effects ◽  
Leukemic Cells ◽  
Control Group ◽  
Stage Of Disease ◽  
Positive Correlation

Abstract TNF has been proposed to play a role in the regulation of growth and death of leukemic B-CLL cells. However, the biological effects of TNF on leukemic cells, as well as its role as a prognostic factor need to be further investigated. The aim of the study was to eevaluate the correlation of TNF and its receptors in peripheral blood (PB) and bone marrow (BM) with the stage of B-CLL and some other clinical parameters. PB and BM were taken from 44 newly diagnosed, untreated B-CLL. patients. The control group consisted of 20 healthy subjects. We used flow cytometry technique to assess the capability of T and B lymphocytes to produce TNF and ELISA method to measure plasma levels of TNF and their soluble receptors. We found, that PB and BM plasma TNF concentration in the patients was significantly higher than in the healthy control (2.61 pg/ml. vs 0.62 pg/ml; and 2.91 pg/ml vs 0.75 pg/ml, respectively p<0.001). TNF concentration in PB and BM was significantly higher in Rai stage III–IV than in early stages (p<0.01). There was a correlation between the PB and BM TNF level and lymphocytosis (p<0.005) and the total tumor mass (TTM) (p<0.0001). The PB and BM TNF concentration positively correlated with the percentage of T CD3+ lymphocytes producing intracellular TNF (p<0.01). The percentage of T cells from PB an BM expressing cytoplasmic TNF was significantly higher in patients (PB:39.11±16.97%; BM:40.73±18.19%) than in normal controls (PB:15.74±7.95%; BM:18.80±12.93%) (p< 0.00001; p<0.005, respectively). In PB and BM from B-CLL patients the percentage of CD3+ cells expressing intracellular TNF was significantly higher than the percentage of CD19+/TNF+ cells (p<0.0001). Besides, it was found that the percentage of T cells expressing cytoplasmic TNF positively correlated with the stage of disease (p<0.01). In PB positive correlation were found between the number of T CD3+/TNF+ cells and lymphocytosis (p<0.05) and TTM (p<0.001). The percentage of leukaemic B cells positive for TNF did not correlate with the stage of disease. There was increased expression of TNF-RI and TNF-RII in leukaemic B cells in comparison to normal B-cells was observed (p<0.0001). We found positive correlation between the number of CD5+ B lymphocytes and the levels of soluble TNF-RII (sTNF-RII) (p< 0.05). The sTNF-RII levels in PB and BM significantly correlated with the stage of disease acc. Rai (p<0.0001). Furthermore, the sTNF-RII concentration positively correlated with lymphocytosis and TTM (p<0.0001). These results strongly support the key role TNF in B-CLL pathogenesis. Our results suggest that TNF may function as growth factor for B-CLL cells. CD3+T cells may be the important source of this cytokine in advanced B-CLL. It seems that changes in T cells capability to produce cytoplasmic TNF are associated with disease progression. However, further studies are required to confirm the key role of TNF in B-CLL pathogenesis.

Flow Cytometry Primary 10 Colours Panel for Chronic Lympho Proliferative Diseases Diagnosis

Blood ◽  
2011 ◽  
Vol 118 (21) ◽  
pp. 5190-5190
Author(s):  
Jonathan Brauner ◽  
Ingrid Beukinga ◽  
Zoulikha Amraoui ◽  
Zaina Kassengera ◽  
Michel Toungouz ◽  
...  
Keyword(s):  
Bone Marrow ◽  
Flow Cytometry ◽  
T Cells ◽  
T Cell ◽  
B Cells ◽  
B Lymphocytes ◽  
Plasma Cells ◽  
Cell Lymphoma ◽  
Cd10 Expression ◽  
Complete Characterisation

Abstract Abstract 5190 Objectives: Definition of the primary antibodies panel for 10 colours flow cytometry able to describe normal and clonal T, B lymphocytes and plamocytes in blood and bone marrow. Once clonalities are detected, the complete characterisation of Chronic Lymphoproliferative Diseases (CLPD) is supported by secondary panels chosen based on the results of CD5/CD10 expression for clonal B lymphocytes, CD27/CD38 for plasmatocytes and CD3/CD27 for clonal T cells. Materials and Methods: Blood and bone marrow of patients (N=50) with CLPD (mainly B-CLL). Samples are enumerated by haematology analyzer DxH 800 then 106 cells are washed three times, stained with the antibodies combination and red blood cells lysed with Versalyse (TM. Beckman Coulter). The samples were analysed on a 10 colours Navios flow cytometer (Beckman Coulter Fullerton, CA). The staining panel consists of 14 antibodies (CD45, CD8, CD4, CD5, CD3, CD19, CD38, λ, κ, CD23, CD5, CD10, CD14, CD27) conjugated with 10 different fluorochromes. The fixed gating strategy allows linking Navios analysis software to the middleware Remisol which drives the choice of the secondary panel. In some cases a third tube is performed for Ki67 or Zap-70 intra-cytoplasmic staining. Results: Monocytes are removed on the basis of their CD14/CD4 expression. B lymphocytes are CD19 positive. Normal naïve/memory B cells, hematogones and plasma cells are defined by their CD27, CD10 and CD38 expression. Eventual monoclonality is sought by analysis of the distribution of Kappa and Lambda light chains. A first classification of B cell lymphoma is achieved with the CD5 and CD10 expression of the clone (CD5+/CD10−: B-CLL MCL and few MZL, CD5−/CD10−: MZL and related, CD5−/CD10+ DLBCL and FL). Analysis of CD27, CD20 and CD23 expression allows discriminating between CD5+/CD10- lymphomas. All the 50 samples were correctly detected as CLPD and the automated Remisol choice of the second panel fit to the final diagnosis of all the cases of this small series. T lymphocytes are defined by their CD3 and CD5 expression. The analysis of CD4/CD8 balance and CD27/CD5 distribution are first line test when T cell clonality is suspected. There is a special gating to detect CD3-CD4+ T cell lymphoma and double negativity of CD4 and CD8 is a surrogate marker for gamma/delta T cells. NK cells are mentioned as not-T not-B lymphocytes, without specific staining. Conclusion/Discussion:This 10 colours 14 antibodies panel allows describing in one tube normal T and B cells, hematogones, memory and naives B cells plasma cells and detects T and B clonalities. This panel follows a similar logic than the Euroflow LST tube but with 10 colours and with Beckman Coulter's technology and antibodies. Moreover, this combination helps discriminating rapidly the CD5+/CD10- lymphomas while the complete characterisation of CD5 negative lymphomas only require less than 6 antibodies second tube. This is a paperless (all the process is driven and controlled by Remisol), fast and inexpensive diagnostic approach (always less than 20 antibodies required). Disclosures: Pradier: Beckman Coulter: Consultancy, Membership on an entity's Board of Directors or advisory committees.

scholarly journals Dendritic Cells Initiate Immune Control of Epstein-Barr Virus Transformation of B Lymphocytes In Vitro

2003 ◽  
Vol 198 (11) ◽  
pp. 1653-1663 ◽  
Author(s):  
Kara Bickham ◽  
Kiera Goodman ◽  
Casper Paludan ◽  
Sarah Nikiforow ◽  
Ming Li Tsang ◽  
...  
Keyword(s):  
T Cells ◽  
Dendritic Cells ◽  
B Cells ◽  
B Lymphocytes ◽  
Epstein Barr Virus ◽  
Cell Mediated Immunity ◽  
Immune Control ◽  
Barr Virus ◽  
Epstein Barr

The initiation of cell-mediated immunity to Epstein-Barr virus (EBV) has been analyzed with cells from EBV-seronegative blood donors in culture. The addition of dendritic cells (DCs) is essential to prime naive T cells that recognize EBV-latent antigens in enzyme-linked immunospot assays for interferon γ secretion and eradicate transformed B cells in regression assays. In contrast, DCs are not required to control the outgrowth of EBV-transformed B lymphocytes from seropositive donors. Enriched CD4+ and CD8+ T cells mediate regression of EBV-transformed cells in seronegative and seropositive donors, but the kinetics of T-dependent regression occurs with much greater speed with seropositives. EBV infection of DCs cannot be detected by reverse transcription–polymerase chain reaction with primers specific for mRNA for the EBNA1 U and K exons. Instead, DCs capture B cell debris and generate T cells specific for EBV latency antigens. We suggest that the cross-presentation of EBV-latent antigens from infected B cells by DCs is required for the initiation of EBV-specific immune control in vivo and that future EBV vaccine strategies should target viral antigens to DCs.

scholarly journals I-REGION GENES ARE EXPRESSED ON T AND B LYMPHOCYTES

1974 ◽  
Vol 140 (5) ◽  
pp. 1317-1323 ◽  
Author(s):  
Peter Lonai ◽  
Hugh O. McDevitt
Keyword(s):  
T Cells ◽  
Lymph Node ◽  
B Cells ◽  
B Lymphocytes ◽  
Surface Structures ◽  
Mouse Strains ◽  
T And B Cells ◽  
Cell Surface Structures ◽  
The Difference ◽  
Mixed Lymphocyte Reactions

Unidirectional mixed lymphocyte reactions (MLR) were performed between mouse strains differing for various segments within the H-2 complex. Thymocytes and purified lymph node T cells and B cells were used as stimulator cells. In three of five combinations studied, differing only within the I region, both T and B cells stimulated in the MLR. This suggests that the region codes for both T- and B-cell surface structures. However, if the difference was restricted to one I subregion (I-C), only T cells stimulated. This finding suggests that some of the I-region genes may be expressed either in T or in B cells.

scholarly journals Collaboration of histoincompatible T and B lymphocytes using cells from tetraparental bone marrow chimeras.

1975 ◽  
Vol 142 (4) ◽  
pp. 989-997 ◽  
Author(s):  
H von Boehmer ◽  
L Hudson ◽  
J Sprent
Keyword(s):  
Bone Marrow ◽  
T Cells ◽  
B Cells ◽  
B Cell ◽  
B Lymphocytes ◽  
Parental Strain ◽  
Secondary Response ◽  
Cell Populations ◽  
Sheep Erythrocytes ◽  
Bone Marrow Chimeras

T-B collaboration has been studied in a secondary response to sheep erythrocytes using either syngeneic or allogeneic T- and B-cell combinations. T cells prepared from tetraparental bone marrow chimeras (TBMC), carrying H-2 determinants of one parental strain only, cooperated with syngeneic, as well as with allogeneic B cells carrying the alloantigens to which the T cells had been tolerized in the chimeric environment. When TBMC-derived cells of a single H-2 specificity were transferred with a mixture of TBMC-derived B cells of both H-2 types of the parental strains, no preference for syngeneic cooperation was found. The data therefore suggest that the presence of differing H-2-complex determinants on the allogeneic T- and B-cell populations of the two different strain combinations tested do not interfere with T-B collaboration when the cell populations studied are mutually tolerant.

scholarly journals ROLES OF T AND B LYMPHOCYTES IN THE TERMINATION OF UNRESPONSIVENESS TO AUTOLOGOUS THYROGLOBULIN IN MICE

1974 ◽  
Vol 139 (3) ◽  
pp. 643-660 ◽  
Author(s):  
James A. Clagett ◽  
William O. Weigle
Keyword(s):  
Bone Marrow ◽  
T Cells ◽  
B Cells ◽  
B Lymphocytes ◽  
Bone Marrow Cells ◽  
Antigen Binding ◽  
Binding Studies ◽  
Normal Complement ◽  
Self Antigen

The data presented in this paper support the hypothesis that unresponsiveness to autologous thyroglobulin (Tg) exists in the T cells and responsiveness exists in the B cells. Such a conclusion is based on the results of antigen-binding studies where few, if any, thymocytes recognized syngeneic Tg. Comparable numbers of antigen-binding lymphocytes for syngeneic Tg were found in the spleens of normal intact mice and of nude mice. The latter fact suggested that B cells exist which recognize self-constituents. From antigen-suicide experiments, a clearer picture of the susceptibility of B cells to iodinated self-antigen and of the obligatory role of antibody in the induction of lesions was developed. Only bone marrow cells (B cells) were affected by [125I]syngeneic Tg, in which case the incidence of lesions was diminished. From adoptive transfer experiments, the results demonstrate that unresponsiveness may be terminated by immunization with a mixture of heterologous (cross-reacting) Tg's. In this situation T cells are required since a B-cell reconstituted host failed to make antibody (plaque-forming cells) and to develop lesions. T cells in this form of an unresponsive state may recognize determinants on the heterologous Tg unrelated to autologous Tg and as such stimulate the normal complement of B cells to produce antibody that both reacts with autologous and heterologous Tg.

scholarly journals Development of B lymphocytes in mice heterozygous for the X-linked immunodeficiency (xid) mutation. xid inhibits development of all splenic and lymph node B cells at a stage subsequent to their initial formation in bone marrow.

1987 ◽  
Vol 165 (4) ◽  
pp. 949-958 ◽  
Author(s):  
L M Forrester ◽  
J D Ansell ◽  
H S Micklem
Keyword(s):  
Bone Marrow ◽  
Lymph Node ◽  
B Cells ◽  
B Cell ◽  
B Lymphocytes ◽  
Phosphoglycerate Kinase ◽  
F1 Hybrids ◽  
Cell Level ◽  
Cell Pool ◽  
Old Mice

CBA/N mice were crossed with CBA/Ca-Pgk-1a to produce female F1 hybrids that were heterozygous for both xid and the phosphoglycerate kinase 1 (PGK-1) allozymes. PGK acted as a quantifiable marker for the frequency of cells in which the xid-bearing X chromosome was active in lymphocytic and other cell populations. In adults, such cells (termed xid cells) were virtually absent in FACS-sorted splenic and lymph node B cells, and in all three splenic subpopulations distinguished on the basis of their relative expression of membrane mu and delta chains. Thus, the xid mutation appeared to compromise the development of all B cells. Erythrocytes, thymocytes, T cells, and granulocytes were unaffected. Selection against xid cells was less pronounced in the spleens of 2-6-wk-old mice. In the bone marrow, there was evidence for selection against xid in the production of B cells (except at 2 wk of age), but not at the pre-B cell level. These data suggest that, in competition with normal non-xid cells, newly-formed xid B cells were less likely to be incorporated into the peripheral B cell pool.

scholarly journals COMPLEMENT-DEPENDENT B-CELL ACTIVATION BY COBRA VENOM FACTOR AND OTHER MITOGENS?

1974 ◽  
Vol 139 (2) ◽  
pp. 337-354 ◽  
Author(s):  
Peter Dukor ◽  
Gebhard Schumann ◽  
Roland H. Gisler ◽  
Manfred Dierich ◽  
Wolfgang König ◽  
...  
Keyword(s):  
T Cells ◽  
Lymph Node ◽  
T Cell ◽  
B Cells ◽  
B Cell ◽  
B Lymphocytes ◽  
Cell Cultures ◽  
Antibody Formation ◽  
Cell Activation ◽  
B Cell Activation

It has been proposed that two distinct signals are required for the triggering of the precursors of antibody-forming bone marrow-derived cells (B cells): (a) the binding of antigen or of a mitogen to the corresponding receptor sites on B-cell membranes and (b) the interaction of activated C3 with the C3 receptor of B lymphocytes. There is growing evidence that B-cell mitogens and T (thymus-derived cell)-independent antigens are capable of activating the alternate pathway of the complement system (bypass). Therefore, the effect of another potent bypass inducer was investigated with regard to B-cell activation and the role of C3. Purified, pyrogen-free cobra venom factor was mitogenic for both T and B lymphocytes (cortisone-resistant mouse thymus cells and lymph node lymphocytes from congenitally athymic mice). Venom factor could substitute for T cells by restoring the potential of antibody formation to sheep red blood cells in mouse B-cell cultures supplemented with macrophages or 2-mercaptoethanol. Venom factor may be capable of conferring activated C3 to the C3 receptor of B lymphocytes: preincubation of lymphoid cells with homologous serum or plasma, 10 mM EDTA, and sepharose-coupled venom factor converted with serum to an enzyme active against C3, inhibited their capacity to subsequently form rosettes with sheep erythrocytes sensitized with amboceptor and C5-deficient mouse complement. In the absence of EDTA, preincubation of freshly prepared B-cell suspensions with C3-sufficient homologous serum also blocked their subsequent interaction with complement-sensitized erythrocytes and at the same time rendered them reactive to an otherwise T-cell-specific mitogen. Moreover, mitogen induced B-cell proliferation in lymph node (but not in spleen) cell cultures, appeared to depend on the availability of exogenous C3: zymosan-absorbed fetal bovine serum (only 8.3% site-forming units remaining) supported T-cell activation by phytohemagglutinin, concanavalin A, and venom factor, but failed to sustain B-cell stimulation by pokeweed mitogen, lipopolysaccharide, and venom factor. T-cell-dependent antibody formation in composite cultures containing T cells or T-cell-substituting B-cell mitogens, B cells, and macrophages, always required the presence of C3-sufficient serum.

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