12 results
Search Results
2. Regulation of T-cell activation in the lung: isolated lung T cells exhibit surface phenotypic characteristics of recent activation including down-modulated T-cell receptors, but are locked into the G0/G1 phase of the cell cycle.
- Author
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Strickland, D., Kees, U. R., and Holt, P. G.
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T cells , *LUNGS , *IMMUNITY , *RESPIRATORY organs , *LYMPHOCYTES , *ANTIGENS , *MACROPHAGES - Abstract
Peripheral lung tissue contains large numbers of T cells, strategically located for immune surveillance at the blood-air interface. Given the intensity of antigenic exposure at this site, it is clear that local T-cell activation events require strict control, in order to maintain tissue homeostasis. How this control is achieved in this unique tissue microenvironment is unknown, and the present study sought to elucidate the process via detailed analysis of the surface phenotypic characteristics of freshly isolated lung T cells. We report below that these cells display typical characteristic of ‘postactivation’, notably elevated basal Ca2+ concentrations, down-modulated T-cell receptors, expression of Ia and ‘late’ activation antigens and concomitant CD4/CD8. However, levels of interleukin-2 receptor and CD2 expression were below those expected of ‘activated’ T-cell populations, and virtually all of the cells were found to be in the G0/G1 phases of the cell cycle. These properties bear a remarkable similarity to those of T cells activated in the presence of endogenous tissue (alveolar) macrophages from the lung (see accompanying paper). We hypothesize that they reflect the in vivo operation of an endogenous macrophage-mediated T-cell anergy-induction process, the function of which is to limit the local clonal expansion of T cells in peripheral lung tissue after in situ activation. [ABSTRACT FROM AUTHOR]
- Published
- 1996
- Full Text
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3. Cognate T-cell help in the induction of IgA responses <em>in vivo</em>.
- Author
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Dunkley, M.L., Husband, A.J., and Underdown, B.J.
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IMMUNOGLOBULIN A , *T cells , *ANTIGENS , *HAPTENS , *B cells , *IMMUNE response - Abstract
Evidence from in vitro studies indicates that immunoglobulin A (IgA) responses are highly T dependent, yet investigations of the requirement for cognate help For IgA responses in tiro have not previously been undertaken. Experiments reported in this paper employ hapten-carrier immunization of individual Peyer's patches (PP), the site of generation of IgA antibody-containing cells (ACC) responding to lumenal antigenic challenge in the intestine, to determine the requirements for T-cell and B-cell priming under normal physiological conditions in vivo. These experiments demonstrate that both hapten-specific B-cell priming and carrier-specific T-cell priming in PP are required for an IgA-specific anti-hapten ACC response in the intestinal lamina propria to subsequent lumenal challenge with hapten-carrier conjugate. These results confirm that IgA B-cell induction in PP requires cognate T-cell help. An IgA ACC response can also be obtained when hapten and carrier priming occur in different PP, providing functional significance for our previous observations that PP-derived T-helper cells are able to migrate between PP after priming. [ABSTRACT FROM AUTHOR]
- Published
- 1990
4. Immunological tolerance then and now: was the Medawar school right?
- Author
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Nossal, G. J. V.
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IMMUNOLOGICAL tolerance , *IMMUNOLOGY , *T cells , *IMMUNE response , *B cells , *IMMUNOGLOBULINS , *BONE marrow , *ANTIGENS , *GENETIC mutation - Abstract
As perhaps the staunchest advocates of repertoire purging as the central mechanism of immunological tolerance, we note with satisfaction a spate of recent, elegant papers which suggest an intrathymic clonal abortion model as the explanation for at least some examples of T-cell tolerance. This view agrees with the classical formulation of the Billingham-Brent-Medawar school of tolerance as a specific, central failure of immune responsiveness. Repertoire purging within the B-lymphocyte compartment remains much more controversial. There is no doubt that experimental models exist where the B cell is the reversible target of tolerance induction. The question is, in view of the ease of inducing autoantibody formation both in vivo and in vitro, just how relevant are such clonal anergy mechanisms to authentic self-tolerance? Arguments are presented that there must be two windows of tolerance susceptibility in the ontogeny of the B cell; one while it is maturing in the bone marrow, to prevent autoreactivity of high affinity to important accessible self-antigens; and a second soon after activation of pre-memory cells by exogenous antigen, to prevent fortuitous mutations towards high-affinity anti-self-reactivity establishing a forbidden clone. [ABSTRACT FROM AUTHOR]
- Published
- 1989
5. HLA-linked immune suppression in humans.
- Author
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Sasazuki, T., Kikuchi, I., Hirayama, K., Matsushita, S., Ohta, N., and Nishimura, Y.
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HLA histocompatibility antigens , *IMMUNOSUPPRESSION , *IMMUNOGLOBULINS , *T cells , *ANTIGENS , *IMMUNE response - Abstract
There is no doubt that HLA-DR molecules are acting as the products of HLA-linked immune response genes (Ir-genes), because (i) HLA-DR molecules are the restriction elements in the interaction between CD4+ helper T cells and antigen-presenting cells (APC) to respond to many antigens such as streptococcal cell wall antigen (SCW) (Nishimura & Sasazuki, 1983; Sone et al., 1985; Hizayama et al., 1986), schistosomal antigen (Sj) (Hirayama et al., 1987), Mycobacterium leprae antigen (ML) (Kikuchi et al., 1986) and so on; and (ii) anti-HLA-DR monoclonal antibodies completely abolish the immune response to those antigens (Nishimura & Sasazuki, 1983; Sone et al., 1985). However, genetic analysis of the immune response to those antigens in families or populations revealed that responsiveness is recessive and non-responsiveness to those antigens is a dominant genetic trait that is tightly linked to HLA (Sasazuki et al., 1980a, 1983; Watanabe et al., 1988). This is completely opposite to the situation under the Ir-gene control where responsiveness is dominant and non-responsiveness is recessive. In this paper, we report evidence of how we came across the concept of HLA-linked immune suppression genes (Is-genes) besides Ir-genes, and show evidence for the epistatic interaction between HLA-DR and DQ to determine the immune response to several antigens in humans. [ABSTRACT FROM AUTHOR]
- Published
- 1989
6. Preparation and characterization of murine monoclonal antibodies to swine lymphocyte antigens.
- Author
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Lie, W.-R., Rothschild, M. F., and Warner, C. M.
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MONOCLONAL antibodies , *HYBRIDOMAS , *T cells , *ANTIGENS , *LEUCOCYTES , *ENZYME-linked immunosorbent assay - Abstract
A panel of monoclonal antibodies (mAb) was developed by the fusion of Sp2/0 myeloma cells and spleen cells from mice immunized with peripheral blood mononuclear cells (PMNC) or T cells from NIH swine leucocyte antigen (SLA) inbred miniature swine. Twenty stable hybridoma clones were isolated that secreted mAb that reacted with swine PMNC, as determined by an enzyme-linked immunosorbent assay (ELISA). The binding profile to swine PMNC and the ability to fix complement of these mAb were investigated by flow cytometric analyses. The molecular weights of the antigens recognized by six of the mAb were determined by immunoprecipitation of 125I-surface-labelled PMNC, followed by SDS-PAGE under reducing conditions. The most interesting mAb, 7-34-1 (IgG2a), precipitated a putative MUC class I molecule composed of a 50,000 MW heavy chain and a 12,000 MW light chain (β2m). This is the third SLA class I-reactive monoclonal antibody to be described for swine. Properties of the mAb described in this paper, mAb 7-34-1, are different from the two other SLA class I-specific mAb that have been described elsewhere in the literature (mAb 74-11-10 and mAb FF85). M onoclonal antibody 7-34-1 recognized class I antigens of SLA haplotypes a, c and din an equivalent manner. This mAb should be especially useful as a general anti- SLA class I reagent for experiments on NIH miniature swine. [ABSTRACT FROM AUTHOR]
- Published
- 1988
7. The absence of delayed-type hypersensitivity reactivity in a syngeneic murine tumour system.
- Author
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Los, G., De Weger, R. A., Mobertes, R. M., Van Loveren, H., Sakkers, R. J., and Den Otter, W.
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DELAYED hypersensitivity , *ANTIGENS , *SEROTONIN , *T cells , *LYMPH nodes , *LYMPHOCYTES , *LABORATORY mice , *IMMUNOSUPPRESSION - Abstract
In different murine systems, delayed-type hypersensitivity (DTH) swelling responses at 24–48 hr after antigen challenge were preceeded by an early 2-hr swelling response. The 24-hr DTH response is thought to depend on this early (DTH-initiating) hypersensitivity response. In this paper we show that in the syngeneic DBA/2-SL2 routine turnout system only an early 2-hr swelling response can be evoked. This early hypersensitivity response was tumour specific and serotonin dependent. The early hypersensitivity response in contact hypersensitivity has been ascribed to antigen-specific T-cell factors. To test whether similar T-cell factors were involved in the early hypersensitivity response in this syngencic turnout system, we have transferred lymph node, spleen lymphocytes and scram from immunized mice into naive recipients. The serum was fractionated in two fractions, a 50,000–80,000 MW fraction, and a 120,000–190,000 MW fraction. In recipients of lymphocytes, total serum and the 50,000–80,000 MW fraction of the serum, an early hypersensitivity response can be evoked. So, these data suggest the involvement of specific T-cell factors in the development of an early hypersensitivity response against syngeneic tumour cells. Despite the development of an early (DTH initiating) hypersensitivity swelling response these immunized animals cannot develop a classical 24-hr swelling response. This absence of the 24-hr response in the presence of the 2-hr response is discussed in relation to the frequently observed immune suppression in tumour-bearing mice. [ABSTRACT FROM AUTHOR]
- Published
- 1987
8. Studies on the differentiation of T lymphocytes in sheep I. RECOGNITION OF A SHEEP T-LYMPHOCYTE DIFFERENTIATION ANTIGEN BY A MONOCLONAL ANTIBODY T-80.
- Author
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Miyasaka, M., Heron, I., Dudler, L., Cahill, R.N.P., Forni, L., Knaak, T., and Trnka, Z.
- Subjects
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T cells , *CELL differentiation , *ANTIGENS , *MONOCLONAL antibodies , *IMMUNOGLOBULINS , *CELL migration - Abstract
The results presented in this paper demonstrate that a mouse IgM monoclonal antibody (T-80) recognizes an antigen on cells of the T-lymphocyte lineage of sheep. However, this antibody does not identify all T cells, as 10-20% of thymocytes and some peripheral-blood T cells are negative. T-80- thymocytes reside in the medulla. The majority of cortical thymocytes are T-80+ and classified as dull cells on the basis of antigen density per cell as measured by flow microfluorometry. In contrast, T-80+ cells in the periphery can be categorized into two populations, i.e., dull cells and bright cells. Suggestive evidence was obtained that bright T-80+ cells are fast recirculating T cells, whereas dull ceils are sessile or less easily mobilizable T cells in the periphery. In foetal environment, over 90% of thymocytes and approximately 5% of spleen cells are T-80+ at 54 days of gestation (gestation period = 150 days), which may indicate that T-cell emigration from the thymus commences well before mid-gestation in sheep. [ABSTRACT FROM AUTHOR]
- Published
- 1983
9. The role of I-J in the suppressor T-cell circuit which influences the effector stage of contact sensitivity: antigen together with syngeneic I-J region determinants induces and activates T suppressor cells.
- Author
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Colizzi, V., Asherson, G. L., and James, Bridget M. B.
- Subjects
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T cells , *SUPPRESSOR cells , *VASCULAR endothelium , *CELLS , *BLOOD vessels , *ANTIGENS - Abstract
One of the T suppressor circuits induced by picrylsulphonic acid includes the T suppressor cell (Ts-eff) which acts at the efferent stage of the contact sensitivity reaction and produces antigen-specific T suppressor factor (TsF). This factor does not act directly but arms a T acceptor cell (Tacc). This Tacc liberates a non-specific inhibitor when it is armed with TsF and then exposed to picrylated cells sharing the I-J genotype of the source of the TsF. This paper investigates the role of I-J region gene products in this T suppressor circuit. Two approaches were used. Syngeneic CBA (H-2k) lymphocytes were separated into I-J+ and I-J- cells by treatment with anti-I-Jk serum followed by panning on anti-immunoglobulin plates. The cells were then picrylated and used as a source of antigen. Alternatively, B10.A congeneic mice syngeneic (SR) or allogeneic (3R) with CBA at the I-J locus were picrylated and used similarly. The main findings were as follows. (i) The intravenous injection of picrylated I-J+ spleen cells but not a similar number of I-J- cells induced Ts-eff which blocked the transfer of contact sensitivity. Picrylated unseparated cells syngeneic, but not allogeneic, at the I-J locus were also effective. (ii) It is known that the lymphocytes of mice injected with picrylsulphonic acid and then re-exposed to antigen by painting with picryl chloride liberate TsF in vitro. The re-exposure to antigen can be replaced by the intravenous injection of picrylated I-J+ cells or by cells syngeneic at the I-J locus the day before harvesting the spleen cells. (iii) The release of non-specific inhibitor by Tacc armed with TsF requires exposure to picrylated I-J+ cells or cells syngeneic at the I-J locus. The requirement for antigen on a cell bearing syngeneic I-J suggests that antigen together with I-J is an activation signal in this T-cell circuit. The simplest explanation is that the receptor of the pristine Ts and of the mature Ts-eff is similar to T suppressor factor. [ABSTRACT FROM AUTHOR]
- Published
- 1983
10. Desensitization <em>in vitro</em>: the role of T-suppressor cells, T-suppressor factor and T-acceptor cells in the inhibition of the passive transfer of contact sensitivity to picryl chloride by exposure to antigen <em>in vitro</em>.
- Author
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M. Zembala, Asherson, G.L., Colizzi, V., and Watkins, Madeleine C.
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T cells , *LYMPHOCYTES , *IMMUNITY , *IMMUNOLOGY , *ANTIGENS , *LYMPH nodes , *SPLEEN - Abstract
This paper investigates desensitization in vitro, e.g. the inhibition of the transfer of contact sensitivity to picryl chloride by incubation of the passive transfer population with picrylated spleen cells. It asks whether desensitization is based on the same T-suppressor circuit which is responsible for the inhibition of passive transfer by antigen-specific T-suppressor factor (TsF). In this circuit, the T-suppressor cell which acts at the efferent stage (Ts-eff) makes TsF. This TsF depresses contact sensitivity indirectly by arming a T-acceptor cell (Tacc). The armed Tacc, when exposed to antigen (picrylated spleen cells), liberates a non-specific inhibitor which blocks the transfer of contact sensitivity. The three elements of this T-suppressor circuit occur in nylon wool-purified T cells prepared from the lymph nodes and spleens of mice four days after immunization with picryl chloride. This population transfers contact sensitivity and can be desensitized in vitro. It contains Ts-eff which can be isolated by panning (adherence) on picrylated albumin and detected by their ability to inhibit passive transfer. The 24 hr supernatant of cultures of these cells contains TsF. Finally the population contains Tacc which appear in the spleen 2 days after immunization and virtually disappear by 10 days. Further experiments demonstrated that the Ts-eff and the Tacc were not merely present but actually required for desensitization in vitro. Immune cells depleted of both Ts-eff (by panning on picrylated albumin) and Tacc (by arming with anti-oxazolone TsF and panning on oxazolonated albumin) cannot be desensitized. To restore desensitization both Ts-eff and Tacc must be added back. The Ts-eff were characterized as cyclophosphamide resistant, adult thymectomy sensitive cells (Cyr, ATx5), which adhered to antigen and were produced only by specific immunization. The Tacc were characterized as CF5, ATx5 cells which adhered to antigen only after arming with antigen-specific T-suppressor factor and were produced after immunization with an unrelated contact sensitizer, 'oxazolone'. It was concluded that desensitization in vitro was due to the interaction of two distinct T cells: the T-suppressor cell which acts at the efferent stage of the contact sensitivity reaction and the T-acceptor cell which becomes armed with the specific T-suppressor factor produced by the Ts-eff. [ABSTRACT FROM AUTHOR]
- Published
- 1982
11. <em>In vitro</em> responses to the liver antigen F.
- Author
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Sunshine, G.H., Cyrus, Muriel, and Winchester, Guil
- Subjects
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ANTIGENS , *LIVER , *AUTOIMMUNITY , *CELL proliferation , *T cells , *IMMUNOGLOBULINS - Abstract
In this paper we describe the first in vitro response to the liver alloantigen F. The anti-F response serves as a valuable model for autoimmune phenomena since priming appropriate strains of mice (responders) with allogeneic but not syngeneic type F leads to autoantibody production. The in vitro system is based on the proliferation of T cells, from mice primed in vivo with F, when coincubated with splenic adherent cells (SAC) prepulsed with F in vivo. The system displays two important correlates of the in vivo antibody response to F:1.T cells from mice primed with syngeneic F do not proliferate when incubated with SAC prepulsed with syngeneic F and 2. Mice that do not make antibody responses to allo F in vivo (DBA/2) do not show in vitro proliferative responses. These findings indicate that the proliferative assay is a good in vitro model for the F response. [ABSTRACT FROM AUTHOR]
- Published
- 1982
12. Absence of any male-specific antigen recognized by T lymphocytes in X/X<em>Sxr′</em> male mice.
- Author
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McLaren, A., Hunt, R., and Simpson, E.
- Subjects
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CHROMOSOMES , *LYMPHOCYTES , *T cells , *TRANSPLANTATION immunology , *GRAFT rejection , *ANTIGENS - Abstract
Previous work has established that whereas X/X mice carrying the sex-reversing chromosomal fragment Sxr are positive for the male-specific transplantation antigen, H-Y, X/X mice carrying the variant Sxr', although they too develop as phenotypic males, are H-Y negative. In this paper we show that X/XSxr' male mice do not express any male-specific antigen that can induce skin-graft rejection. [ABSTRACT FROM AUTHOR]
- Published
- 1988
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