scholarly journals POTENTIATION OF T-CELL-MEDIATED IMMUNITY BY SELECTIVE SUPPRESSION OF ANTIBODY FORMATION WITH CYCLOPHOSPHAMIDE

1974 ◽  
Vol 139 (6) ◽  
pp. 1529-1539 ◽  
Author(s):  
P. H. Lagrange ◽  
G. B. Mackaness ◽  
T. E. Miller
Keyword(s):  
T Cells ◽  
T Cell ◽  
Antibody Formation ◽  
Specific Antigen ◽  
Cell Activity ◽  
Antigenic Stimulation ◽  
Delayed Type Hypersensitivity ◽  
Cell Mediated Immunity ◽  
Inhibitory Influence ◽  
Resting Cells

Delayed-type hypersensitivity (DTH) appears in mice immunized with less than an optimal immunogenic dose of sheep red blood cells (SRBC), but is blocked progressively as antibody production increases in response to larger doses of SRBC. Treatment with cyclophosphamide (CY) was shown to release T cells from this inhibitory influence of the humoral response, and cause enhancement of DTH. The magnitude of this enhancing effect on T-cell activity was markedly dependent on the time of treatment relative to the time of immunization, and on the time chosen for measuring DTH. The reasons for these pronounced effects of timing are threefold: (a) CY given before antigenic stimulation has a long-lasting effect on antibody formation, but no apparent effect on the precursors of activated T cells. (b) After antigenic stimulation, T cells also become susceptible to CY. (c) The production of a nonspecific participant (monocyte) in the DTH reaction is also suppressed by CY, though the supply of circulating monocytes is not immediately affected by the drug. The differential effect of CY on T and B lymphocytes depends on the differing physiological states of the majority of cells that make up these two populations. The former are resting cells that are insensitive to CY until exposed to specific antigen, while the latter are drawn from a rapidly replicating precursor pool and are susceptible to CY at all times.

scholarly journals Delayed Clearance of Ehrlichia chaffeensis Infection in CD4+ T-Cell Knockout Mice†

2004 ◽  
Vol 72 (1) ◽  
pp. 159-167 ◽  
Author(s):  
Roman R. Ganta ◽  
Chuanmin Cheng ◽  
Melinda J. Wilkerson ◽  
Stephen K. Chapes
Keyword(s):  
T Cells ◽  
T Cell ◽  
Cytotoxic T Cells ◽  
Cell Activity ◽  
Helper T Cells ◽  
Cytotoxic T Cell ◽  
Mouse Strains ◽  
Cell Mediated Immunity ◽  
Ehrlichia Chaffeensis ◽  
Wild Type

ABSTRACT Human monocytic ehrlichiosis is an emerging tick-borne disease caused by the rickettsia Ehrlichia chaffeensis. To examine the role of helper T cells in host resistance to this macrophage-tropic bacterium, we assessed E. chaffeensis infections in three mouse strains with differing functional levels of helper T cells. Wild-type, C57BL/6J mice resolved infections in approximately 2 weeks. Major histocompatibility complex class II (MHCII) knockout, B6.129-Abb tm1 mice lacking helper T cells developed persistent infections that were not resolved even after several months. CD4+ T-cell-deficient, B6.129S6-Cd4 tm1Knw mice cleared the infection, but the clearance took 2 weeks longer than it did for wild-type mice. C57BL/6J mice resolved infection more rapidly following a second experimental challenge, but B6.129S6-Cd4 tm1Knw mice did not. The B6.129S6-Cd4 tm1Knw mice also developed active E. chaffeensis-specific immunoglobulin G responses that were slightly lower in concentration and slower to develop than that observed in C57BL/6J mice. E. chaffeensis-specific cytotoxic T cells were not detected following a single bacterial challenge in any mouse strain, including wild-type C57BL/6J mice. However, the cytotoxic T-cell activity developed in all three mouse strains, including the MHCII and CD4+ T-cell knockouts, when challenged with a second E. chaffeensis infection. The data reported here suggest that the cell-mediated immunity, orchestrated by CD4+ T cells is critical for conferring rapid clearance of E. chaffeensis.

scholarly journals Specific Lyt 123 cells are involved in protection against Listeria monocytogenes and in delayed-type hypersensitivity to listerial antigens.

1979 ◽  
Vol 150 (4) ◽  
pp. 1033-1038 ◽  
Author(s):  
S H Kaufmann ◽  
M M Simon ◽  
H Hahn
Keyword(s):  
T Cells ◽  
Listeria Monocytogenes ◽  
T Cell ◽  
T Lymphocytes ◽  
Antibody Formation ◽  
Peritoneal Exudate ◽  
The Other ◽  
Delayed Type Hypersensitivity ◽  
The One

Specific anti-Lyt antisera and complement were used to determine the Lyt phenotype of peritoneal exudate T lymphocytes from Listeria monocytogenes-immune mice. It was found that Lyt 123+ T cells are crucially involved both in protection against listerial infection and in delayed-type hypersensitivity (DTH) to listerial antigens. Thus, both functions critically depend on a T-cell subclass phenotypically different from that which mediates DTH to noninfectious antigens and help in antibody formation on the one hand, as well as those T cells mediating cytotoxic reactions on the other.

Blocking the regulatory T cell molecule LAG-3 augments in vivo anti-tumor immunity in an autochthonous model of prostate cancer

2006 ◽  
Vol 24 (18_suppl) ◽  
pp. 2573-2573
Author(s):  
C. G. Drake ◽  
C. Kelleher ◽  
T. Bruno ◽  
T. Harris ◽  
D. Flies ◽  
...  
Keyword(s):  
Prostate Cancer ◽  
T Cells ◽  
T Cell ◽  
Regulatory T Cell ◽  
Specific Antigen ◽  
Cell Activity ◽  
Cd8 T Cell ◽  
Regulatory Function

2573 Background: LAG-3 is a CD4 homolog expressed on activated T cells, NK cells, tumor infiltrating lymphocytes (TIL), and plasmacytoid dendritic cells. Recently, we showed that LAG-3 was relatively overexpressed in specific T cells rendered unresponsive in vivo by the presence of cognate self-antigen. These anergic T cells display regulatory function both in vitro and in vivo, and blockade of LAG-3 with a non-depleting monoclonal antibody significantly mitigates their regulatory T cell activity. Methods: Using a novel model of prostate cancer in which a tumor-specific antigen is expressed in autochthonous tumors, we tested whether treatment with a non-depleting anti-LAG-3 antibody affected trafficking and function of tumor-specific T cells. Results: LAG-3 blockade significantly augments specific CD8 T cell trafficking to antigen-expressing tumors, but not to normal tissue. Most significantly, LAG-3 blockade functionally reversed CD8 T cell tolerance as assayed by an in vivo cytotoxic T lymphocyte (CTL) assay. Combining LAG-3 blockade with specific anti-tumor vaccination results in a dramatic increase in activated CD8 T cells in the tumor parenchyma. Conclusions: Taken together, these data support the concept that treatment with a LAG-3 blocking antibody may significantly delay disease progression in patients with cancer. We have recently generated a panel of monoclonal antibodies directed against human LAG-3; several of these antibodies significantly augment human T cell responses in vitro. No significant financial relationships to disclose.

Differing lymphokine profiles of functional subsets of human CD4 and CD8 T cell clones

Science ◽  
1991 ◽  
Vol 254 (5029) ◽  
pp. 279-282
Author(s):  
P Salgame ◽  
JS Abrams ◽  
C Clayberger ◽  
H Goldstein ◽  
J Convit ◽  
...  
Keyword(s):  
T Cells ◽  
T Cell ◽  
Interferon Gamma ◽  
Antibody Formation ◽  
T Cell Subsets ◽  
Interleukin 4 ◽  
Reciprocal Relation ◽  
Cell Mediated Immunity ◽  
T Cell Clones ◽  
Cell Clones

Functional subsets of human T cells were delineated by analyzing patterns of lymphokines produced by clones from individuals with leprosy and by T cell clones of known function. CD4 clones from individuals with strong cell-mediated immunity produced predominantly interferon-gamma, whereas those clones that enhanced antibody formation produced interleukin-4. CD8 cytotoxic T cells secreted interferon-gamma. Interleukin-4 was produced by CD8 T suppressor clones from immunologically unresponsive individuals with leprosy and was found to be necessary for suppression in vitro. Both the classic reciprocal relation between antibody formation and cell-mediated immunity and resistance or susceptibility to certain infections may be explained by T cell subsets differing in patterns of lymphokine production.

scholarly journals Targeting autoantigen to B cells prevents the induction of a cell-mediated autoimmune disease in rats.

1992 ◽  
Vol 175 (3) ◽  
pp. 655-659 ◽  
Author(s):  
M J Day ◽  
A G Tse ◽  
M Puklavec ◽  
S J Simmonds ◽  
D W Mason
Keyword(s):  
T Cells ◽  
T Cell ◽  
B Cells ◽  
Autoimmune Disease ◽  
Antibody Production ◽  
Specific Antigen ◽  
Reciprocal Relationship ◽  
Delayed Type Hypersensitivity ◽  
A Cell

Immunization protocols that induce high levels of delayed-type hypersensitivity are often associated with low levels of antibody production, whereas alternative immunization strategies can produce the opposite effect. This reciprocal relationship appears to depend, at least in part, on the fact that T cell-derived lymphokines that are predominantly involved in one type of response inhibit the development of those T cells that promote the alternative one. Such a regulatory mechanism is likely to be bistable in that whenever one form of response is established, spontaneous development of the alternative one will be inhibited. We have applied this concept to the control of a cell-mediated autoimmune disease in rats. By covalently linking the autoantigen to anti-IgD antibody, we have targeted it to B cells for presentation to antigen-specific T cells. This form of presentation favors antibody production and may be expected to antagonize the cell-mediated disease-inducing response to the same antigen. To test this hypothesis, use was made of the fact that experimental allergic encephalomyelitis (EAE), when induced with the encephalitogenic peptide of guinea pig myelin basic protein, is purely a cell-mediated disease. The experiments show that Lewis rats, immunized with the peptide in its encephalitogenic form, were protected from disease when simultaneously injected with the peptide coupled to anti-IgD monoclonal antibodies. Control experiments showed that neither peptide nor anti-IgD alone were protective, and the peptide covalently coupled to irrelevant antibodies also failed to protect. Spleen cells from animals protected from disease by the anti-IgD-peptide conjugate, when activated in vitro with the encephalitogen, were able to transfer EAE to naive recipients. The results demonstrate that a cell-mediated immune response can be controlled by appropriate targeting of the specific antigen without inducing T cell anergy and suggest a potential strategy for preventing autoimmune diseases that are essentially cell-mediated in type.

The Role of Acquired Immunity and Periodontal Disease Progression

2003 ◽  
Vol 14 (4) ◽  
pp. 237-252 ◽  
Author(s):  
Yen-Tung A. Teng
Keyword(s):  
T Cells ◽  
Immune System ◽  
T Cell ◽  
Periodontal Disease ◽  
Disease Progression ◽  
Periodontal Diseases ◽  
Delayed Type Hypersensitivity ◽  
Secretory Iga ◽  
Cell Mediated Immunity ◽  
Recent Advances

Our understanding of the pathogenesis in human periodontal diseases is limited by the lack of specific and sensitive tools or models to study the complex microbial challenges and their interactions with the host’s immune system. Recent advances in cellular and molecular biology research have demonstrated the importance of the acquired immune system not only in fighting the virulent periodontal pathogens but also in protecting the host from developing further devastating conditions in periodontal infections. The use of genetic knockout and immunodeficient mouse strains has shown that the acquired immune response—in particular, CD4+ T-cells—plays a pivotal role in controlling the ongoing infection, the immune/inflammatory responses, and the subsequent host’s tissue destruction. In particular, studies of the pathogen-specific CD4+ T-cell-mediated immunity have clarified the roles of: (i) the relative diverse immune repertoire involved in periodontal pathogenesis, (ii) the contribution of pathogen-associated Th1-Th2 cytokine expressions in periodontal disease progression, and (iii) micro-organism-triggered periodontal CD4+ T-cell-mediated osteoclastogenic factor, ‘RANK-L’, which is linked to the induction of alveolar bone destruction in situ. The present review will focus on some recent advances in the acquired immune responses involving B-cells, CD8+ T-cells, and CD4+ T-cells in the context of periodontal disease progression. New approaches will further facilitate our understanding of their underlying molecular mechanisms that may lead to the development of new treatment modalities for periodontal diseases and their associated complications. Abbreviations used in the paper are as follows: Antibody, Ab; antigen, Ag; antigen-presenting cells, APC; Actinobacillus actinomycetemcomitans, A. actinomycetemcomitans or Aa; β2-microglobulin, β2m; cytotoxic CD8+ αβ T-lymphocytes, CTL; dendritic cells, DC; delayed-type hypersensitivity, DTH; immunoglobulin, Ig; Fc receptor, Fc-R; interferon-γ, IFN-γ; receptor activator of NF-κB ligand, RANK-L; molecular weight, MW; Porphyromonas gingivalis, P. gingivalis or Pg; localized juvenile periodontitis, LJP; lipopolysaccharide, LPS; mouse mammalian tumor virus, MMTV; non-obese diabetic and severe combined immunodeficiency mice, NOD/SCID mice; osteoclast, OC; T-helper cells, Th; superantigen, SAg; transforming growth factor-β, TGF-β; secretory-IgA, s-IgA; T-cell receptor, TCR; T cytotoxic-1 cells, Tc1; and T cytotoxic-2 cells, Tc2.

Sphingomyelin breakdown in T cells: role in activation, effector functions and immunoregulation

2015 ◽  
Vol 396 (6-7) ◽  
pp. 749-758 ◽  
Author(s):  
Niklas Beyersdorf ◽  
Nora Müller
Keyword(s):  
T Cells ◽  
T Cell ◽  
T Cell Receptor ◽  
T Cell Activation ◽  
Cell Activation ◽  
Immunological Synapse ◽  
Cell Activity ◽  
Cell Receptor ◽  
Cell Mediated Immunity ◽  
Functional Responses

Abstract Host T cell activation, a key step in obtaining adaptive immunity against pathogens, is initiated by the binding of the T cell receptor to a foreign antigenic peptide presented by the major histocompatibility complex on the surface of an antigen-presenting cell and, consequently, formation of an immunological synapse. Within the immunological synapse, the engagement of the T cell receptor in cooperation with simultaneous ligation of co-stimulatory molecules induces a precisely organized cascade of signaling events and pathways that regulate clonal expansion and differentiation of naïve T cells into effector T cells contributing to pathogen clearance. The biochemical changes that underlie T cell activation and differentiation, however, not only involve proteins but also lipids. In particular, catabolic cleavage of sphingomyelin generating ceramide can substantially influence functional responses in cells of the immune system. Changes in sphingomyelin and ceramide content have been reported to directly impact on membrane physiology, thus modifying signal transmission and interfering with diverse aspects of T cell activity. In this review we will focus on sphingomyelin breakdown/ceramide generation in T cells with regard to their function and development of T cell-mediated immunity.

scholarly journals T cells that help B cell responses to soluble antigen are distinguishable from those producing interleukin 2 on mitogenic or allogeneic stimulation.

1986 ◽  
Vol 163 (4) ◽  
pp. 774-786 ◽  
Author(s):  
R P Arthur ◽  
D Mason
Keyword(s):  
T Cells ◽  
T Cell ◽  
B Cells ◽  
B Cell ◽  
Specific Antigen ◽  
T Cell Subsets ◽  
Cell Mediated Immunity ◽  
Soluble Antigen ◽  
Con A ◽  
Humoral Responses

An mAb MRC OX-22, reactive with the high molecular weight forms of the rat leukocyte-common antigen, has revealed a heterogeneity among CD4+ T cells in this species. Approximately two-thirds are CD4+, OX-22+, and one-third are CD4+, OX-22-. This phenotypic heterogeneity was found to be associated with a functional one. CD4+, OX-22+ cells proliferated well in mixed leukocyte culture, responded to the T cell mitogen Con A, and produced IL-2 on activation. In contrast, the CD4+, OX-22- cells performed poorly in these assays, but unlike CD4+, OX-22+ cells, did provide effective help for B cells. By sampling supernatants from cultures containing primed B cells and either of the two CD4+ T cell subsets, it was shown that, when specific antigen was included in the cultures, those containing the OX-22- subset of CD4+ cells produced high levels of antibody and some IL-2, whereas those containing the OX-22+ cells produced neither. In contrast, when specific antigen was replaced by Con A, the B cell cultures supplemented with CD4+, OX-22+ cells synthesized much higher levels of IL-2 than those containing CD4+, OX-22- cells, but only the latter cultures produced detectable levels of antibody. The data show that inducer/helper T cells comprise two functional subsets: one that, on appropriate stimulation, synthesizes high levels of IL-2, and may therefore be presumed to play an important role in cell-mediated immunity, and another that plays an essential role in humoral responses to soluble antigens. The significance of this functional heterogeneity, with regard to the possible independent regulation of cellular and humoral responses, is briefly considered.

scholarly journals Anti-tumor effects of RTX-240: an engineered red blood cell expressing 4-1BB ligand and interleukin-15

2021 ◽  
Author(s):  
Shannon L. McArdel ◽  
Anne-Sophie Dugast ◽  
Maegan E. Hoover ◽  
Arjun Bollampalli ◽  
Enping Hong ◽  
...  
Keyword(s):  
T Cells ◽  
T Cell ◽  
Blood Cell ◽  
Nk Cells ◽  
Red Blood Cell ◽  
Safety Profile ◽  
Nk Cell ◽  
Cell Activity ◽  
In Vivo Studies

AbstractRecombinant agonists that activate co-stimulatory and cytokine receptors have shown limited clinical anticancer utility, potentially due to narrow therapeutic windows, the need for coordinated activation of co-stimulatory and cytokine pathways and the failure of agonistic antibodies to recapitulate signaling by endogenous ligands. RTX-240 is a genetically engineered red blood cell expressing 4-1BBL and IL-15/IL-15Rα fusion (IL-15TP). RTX-240 is designed to potently and simultaneously stimulate the 4-1BB and IL-15 pathways, thereby activating and expanding T cells and NK cells, while potentially offering an improved safety profile through restricted biodistribution. We assessed the ability of RTX-240 to expand and activate T cells and NK cells and evaluated the in vivo efficacy, pharmacodynamics and tolerability using murine models. Treatment of PBMCs with RTX-240 induced T cell and NK cell activation and proliferation. In vivo studies using mRBC-240, a mouse surrogate for RTX-240, revealed biodistribution predominantly to the red pulp of the spleen, leading to CD8 + T cell and NK cell expansion. mRBC-240 was efficacious in a B16-F10 melanoma model and led to increased NK cell infiltration into the lungs. mRBC-240 significantly inhibited CT26 tumor growth, in association with an increase in tumor-infiltrating proliferating and cytotoxic CD8 + T cells. mRBC-240 was tolerated and showed no evidence of hepatic injury at the highest feasible dose, compared with a 4-1BB agonistic antibody. RTX-240 promotes T cell and NK cell activity in preclinical models and shows efficacy and an improved safety profile. Based on these data, RTX-240 is now being evaluated in a clinical trial.

scholarly journals Quantitative analysis of the CD8 + T–cell response to readily eliminated and persistent viruses

2000 ◽  
Vol 355 (1400) ◽  
pp. 1093-1101 ◽  
Author(s):  
P. C. Doherty ◽  
J. M. Riberdy ◽  
G. T. Belz
Keyword(s):  
T Cells ◽  
T Cell ◽  
Influenza A ◽  
Flow Cytometric Analysis ◽  
T Cell Response ◽  
Basic Question ◽  
Cell Mediated Immunity ◽  
Specific Response ◽  
Turnover Rates

The recent development of techniques for the direct staining of peptide–specific CD8 + T cells has revolutionized the analysis of cell–mediated immunity (CMI) in virus infections. This approach has been used to quantify the acute and long–term consequences of infecting laboratory mice with the readily eliminated influenza A viruses (fluA) and a persistent γherpesvirus (γHV). It is now, for the first time, possible to work with real numbers in the analysis of CD8 + T CMI, and to define various characteristics of the responding lymphocytes both by direct flow cytometric analysis and by sorting for further in vitro manipulation. Relatively little has yet been done from the latter aspect, though we are rapidly accumulating a mass of numerical data. The acute, antigen–driven phases of the fluA and γHV–specific response look rather similar, but CD8 + T–cell numbers are maintained in the long term at a higher ‘set point’ in the persistent infection. Similarly, these ‘memory’ T cells continue to divide at a much greater rate in the γHV–infected mice. New insights have also been generated on the nature of the recall response following secondary challenge in both experimental systems, and the extent of protection conferred by large numbers of virus–specific CD8 + T cells has been determined. However, there are still many parameters that have received little attention, partly because they are difficult to measure. These include the rate of antigen–specific CD8 + T–cell loss, the extent of the lymphocyte ‘diaspora’ to other tissues, and the diversity of functional characteristics, turnover rates, clonal life spans and recirculation profiles. The basic question for immunologists remains how we reconcile the extraordinary plasticity of the immune system with the mechanisms that maintain a stable milieu interieur. This new capacity to quantify CD8 + T–cell responses in readily manipulated mouse models has obvious potential for illuminating homeostatic control, particularly if the experimental approaches to the problem are designed in the context of appropriate predictive models.

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