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Target Concepts:
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Query: EC:3.4.21.69 (
APC
)
16,337
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
The role of microfilaments in human T4 cell proliferation and lymphokine production triggered via various pathways of activation was examined by investigating the effects of cytochalasins on these responses. The data demonstrate that the effects of cytochalasins vary depending on the nature of the stimulus and on the concentration of the cytochalasin. Concentrations of cytochalasin that would be expected to bind both the low and high affinity binding sites (5-20 microM), that represent cytosolic and surface actin filaments, respectively inhibited T4 cell proliferation regardless of the stimulus. T4 cell proliferation stimulated by antigen-bearing
APC
or anti-CD3 was inhibited much more markedly than responses stimulated by ionomycin and PMA. In contrast, concentrations of cytochalasin expected to bind only high affinity binding sites (0.125-1 microM), represented by surface actin filaments, enhanced T4 cell proliferation and
interleukin 2
production stimulated by mAb to CD2, CD3, or class I major histocompatibility complex (MHC) molecules, but not those induced by mAb to the T cell receptor, paraformaldehyde fixed, or viable antigen-bearing
APC
, allogeneic
APC
, or ionomycin and PMA. The enhancing effect of cytochalasins on responses stimulated by cross-linking class I MHC molecules was studied in detail. Enhancement of T4 cell proliferation induced in this manner required that cytochalasin B was present between 4 and 18 hr of culture, but not before or after. The data demonstrate that T cell microfilaments play a number of roles in determining the magnitude of T cell responses induced by engaging specific cell surface receptors and imply that different components of the microfilament system exert opposing intrinsic regulatory effects on T cell function.
...
PMID:Regulatory role of microfilaments in the induction of T4 cell proliferation and interleukin 2 production. 197 24
The present study investigates the effects of i.v. presensitization with class II H-2-disparate allogeneic cells on various L3T4+ T cell functions including the capability of rejecting the corresponding allogeneic skin graft. C57BL/6 (B6) mice were i.v. presensitized with class II H-2 disparate B6-C-H-2bm12 (bm12) spleen cells. Such presensitization did not affect the bm12-specific L3T4+ T cell-mediated proliferative and
interleukin 2
(
IL-2
)-producing capacities. A single cell suspension of (B6 x bm12)F1 spleen cells was depleted of
APC
by two round-passages over Sephadex G-10 columns. This
APC
-depleted fraction of (B6 x bm12)F1 cells failed to stimulate B6 responding cells in mixed lymphocyte reactions (MLR). The addition of recombinant IL-1 to the MLR restored anti-bm12 MLR responses, indicating that
APC
-depleted (B6 x bm12)F1 cells bear bm12 alloantigens but are unable to stimulate B6 anti-bm12 L3T4+ T cells. A single i.v. administration of
APC
-depleted (B6 x bm12)F1 cells into B6 mice resulted in almost complete abrogation of the capacity of recipient B6 lymphoid cells to give anti-bm12 MLR and IL2 production. This suppression was bm12 alloantigen-specific and attributed to the elimination or functional impairment of anti-bm12 T cell clones rather than the induction of suppressor cells. The tolerance was also observed in graft-rejection responses. The strikingly prolonged survival of bm12 skin grafts was produced when grafts were implanted into B6 mice which had been presensitized with
APC
-depleted, but not with untreated (B6 x bm12)F1 spleen cells. These results indicate that allo-class II H-2 antigen-reactive L3T4+ T cells are rendered tolerant by i.v. presensitization with
APC
-depleted fraction of the corresponding allogeneic cells.
...
PMID:Tolerance induction of allo-class II H-2 antigen-reactive L3T4+ helper T cells and prolonged survival of the corresponding class II H-2-disparate skin graft. 252 64
Synthetic peptides corresponding to sequences 46-62 and 51-62 of mouse lysozyme and 46-61 of hen egg-white lysozyme (HEL) were used as competitors in a variety of T cell responses. The competitors, according to their binding specificity for major histocompatibility complex (MHC) were expected to inhibit T cell responses restricted to I-Ak, but not those restricted to I-Ad, I-Ek molecules. In competition experiments with T cell hybridomas, the poor binder I-Ed molecule required 10- to 15-fold higher competitor concentrations than the good binder I-Ak molecule to achieve 50% inhibition of antigen presentation. Similarly, the nonresponder state of H-2d mice to HEL peptide 46-61 could be overcome by increasing the immunizing dose, and proliferative T cell responses to different antigens in association with a variety of class II MHC molecules could be blocked by the mouse lysozyme and HEL peptides. Thus, the capability of some and failure of other MHC molecules to bind certain peptides appeared quantitative, rather than of an all or none nature, in these experimental systems. The susceptibility of uncloned T cell lines to peptide competitors was found to decrease with time. Lines maintained by repeated restimulation with antigen and
APC
, but without exogenous
interleukin 2
, acquired resistance within weeks. In contrast, T cell clones retained their susceptibility to peptide competitors over a long period of time. The latter data raise the possibility that a competition between ubiquitous (self) peptides and foreign antigen may result in the selection of T cells that have high avidity for the activating antigen-MHC complex, and are thus relatively resistant to competition at the level of antigen presentation.
...
PMID:Inhibition of T cell response with peptides is influenced by both peptide-binding specificity of major histocompatibility complex molecules and susceptibility of T cells to blocking. 278 51
We investigated the antigenic requirements for restimulation of H-2- restricted cytolytic T lymphocytes (CTL) in vitro to determine whether H-2 I region-restricted helper T cells are required in these responses. In one set of experiments, we studied the in vitro response of (responder x nonresponder)F(1) female T cells to the male antigen H-Y. We chose to examine this response because it has been suggested that the defect in nonresponder strains is a failure of helper T cells to recognize H-Y in association with nonresponder I region determinants. However, we find that nonresponder male stimulator cells are as effective as F(1) male stimulator cells at inducing H-Y-specific CTL responses. This finding calls into question reports that secondary CTL responses to H-Y are dependent upon the activation of H-Y- specific helper T cells restricted to responder type I region determinants. In a second set of experiments, we examined the requirements for restimulation of H-2-restricted T cells specific for minor-histocompatibility antigens from long-term mixed lymphocyte cultures. These cultures were established by repeatedly restimulating cultures of specific T cells with H- 2-matched stimulator cells expressing foreign minor histocompatibility antigens. We found that H-2D-restricted T ceils, including CTL, could be restimulated with cells that were matched with the responding cells at only the D region genes. This response did not appear to result from positive allogeneic effects or from antigen processing and "representation" by responder type
APC
that might contaminate the cultures. Thus, we find no evidence for a requirement for I region-restricted helper T cells in these CTL responses. However, helper T cells are required because we find that CTL lines derived by limit-dilution cloning from these long-term MLC are absolutely dependent upon exogenous helper factors for growth. The most simple interpretation of these results is that the helper cells are restricted to H-2 antigens other than I region antigens or to antigens that code outside of the H-2 complex. Finally, we show that factor-dependent CTL lines must recognize their specific antigen to proliferate, even in the presence of exogenous factors. The requirement of activated CTL for antigen to proliferate provides an explanation for how specific CTL can be selectively enriched in MLC by specific antigen stimulation. Furthermore, it is at variance with reports that memory CTL or activated CTL require only
interleukin 2
for restimulation.
...
PMID:Helper T cells for cytotoxic T lymphocytes need not be I region restricted. 617 68
Murine low-density spleen cells have potent antigen-presenting ability in a hapten-specific cytolytic T lymphocyte (CTL) system using the hapten azobenzenearsonate (ABA). Exposure of these cells to 0.33 KJ/m2 of ultraviolet radiation (UVR) after coupling to hapten results in markedly inhibited antigen-presenting function that can be substantially corrected or bypassed by interleukin 1 (IL 1). These results have been interpreted to reflect an inhibition of Lyt-1+ T cell activation by UVR-treated
APC
. Treatment of these cells sequentially with 1500 rad of gamma-radiation (GR) prior to hapten coupling, followed by 0.33 KJ/m2 of UVR radiation after coupling, results in an antigen-presenting defect only minimally improved by IL 1. However, partially purified
interleukin 2
(IL 2) can completely bypass or correct this defect. Thus, combined GR and UVR induces a different or more profound defect in
APC
function when compared to UVR alone. However, these cells do provide a signal(s) other than hapten necessary for CTL activation because ABA-coupled high density spleen cells do not activate CTL cells, even with the addition of IL 2. Fluorescence-activated cell sorter analysis demonstrates that exposure of these low density spleen cells to GR or UVR results in decreased I-A antigen expression at 24 hr than either alone. The addition of nonhapten-coupled low-density
APC
partially reconstitutes the ability of combined GR/UVR-treated LD-
APC
to present antigen, and this effect is enhanced by the administration of exogenous IL 1. This occurs despite a lack of significant accessory cell activity by the LD-
APC
for the ABA hapten, and indicates that combined GR/UVR-treatment of
APC
is not functionally equivalent to completely removing them.
...
PMID:Molecular signals in antigen presentation. II. Activation of cytolytic cells in vitro after ultraviolet radiation or combined gamma and ultraviolet radiation treatment of antigen-presenting cells. 660 92
Induction of alloreactivity in human adult and umbilical cord blood T cells was evaluated in mixed leukocyte culture by exposure to an allogeneic lymphoblastoid line that expresses known costimulatory molecules. Initial exposure to alloantigen-presenting cells (allo-APC) induced strong proliferative responses in both adult and cord blood T cells. However, in contrast to adult T cells, cord blood T cells exhibited little proliferation after restimulation with donor
APC
. Primed cord blood T cells could respond to
interleukin 2
(
IL-2
), but unresponsiveness to alloantigen was not overcome by addition of exogenous
IL-2
. Unresponsiveness was long-lasting and appeared to be maintained by a combination of induction of anergy and activity of CD8+ suppressor cells. This information may contribute to use of human cord blood as an allogeneic source of transplantable stem cells.
...
PMID:Alloantigen priming induces a state of unresponsiveness in human umbilical cord blood T cells. 789 81
BALB/cA mice were used to study the interaction of diabetes and meticillin-resistant Staphylococcus aureus (MRSA) infection on pathogen distribution, cytokine profile and inflammatory and endothelial-injury markers, as well as coagulation and anticoagulation factors. Meticillin-susceptible S. aureus (MSSA) infection did not cause death within the experimental period. MRSA-infected nondiabetic and diabetic mice died on 19.1+/-1.4 and 10.6+/-0.7 days post-infection (p.i.), respectively. MRSA and MSSA infection in diabetic mice did not result in symptomatic bacteraemia; however, MRSA infection in diabetic mice significantly reduced glucose levels (P<0.05). Diabetic mice showed significantly higher levels of C-reactive protein, fibrinogen, fibronectin and von Willebrand factor than nondiabetic mice (P<0.05), and MRSA infection further elevated the plasma levels of these inflammatory and endothelial markers (P<0.05). Before infection, diabetic mice had significantly higher plasminogen activator inhibitor-1 (PAI-1) activity, lower antithrombin III (AT-III) and
protein C
activities (P<0.05), and MRSA infection significantly increased PAI-1 activity further and reduced the activity of AT-III and
protein C
(P<0.05). MRSA infection increased the production of three Th1 cytokines,
interleukin 2
(
IL-2
), tumour necrosis factor alpha and gamma interferon, in diabetic mice (P<0.05); however, three Th2 cytokines, IL-4, IL-6, IL-10, were elevated at 2 and 4 days p.i., and then dropped gradually. MRSA infection in diabetic mice accelerated the inflammation process, endothelial injury and blood coagulation in diabetic mice. Therefore, the development of proper infection diagnosis and timely use of effective treatments for MRSA-infected diabetic individuals is important and necessary.
...
PMID:Meticillin-resistant Staphylococcus aureus infection in diabetic mice enhanced inflammation and coagulation. 1653 84
