Gene/Protein
Disease
Symptom
Drug
Enzyme
Compound
Pivot Concepts:
Gene/Protein
Disease
Symptom
Drug
Enzyme
Compound
Target Concepts:
Gene/Protein
Disease
Symptom
Drug
Enzyme
Compound
Query: UMLS:C0393754 (
HSA
)
2,996
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
1-2% of adult mouse thymocytes express the T cell receptor alpha/beta (TCR-alpha/beta) together with the interleukin (IL) 2R beta (p70), but not the alpha (p 55) chain. We show that the previously described alpha/beta-TCR +CD4-8- and the partially overlapping Ly6C+ thymocytes are contained within this subset. Most IL-2R beta+ alpha/beta-TCR+ cells have a mature and activated (heat stable antigen [
HSA
]-, thymic shared antigen 1 [TSA-1]-, CD44high, CD69+) phenotype. Overrepresentation of V beta 8.2 in both
CD4
-8- and
CD4
and/or CD8+ IL-2R beta+ thymocytes suggests that IL-2R beta expression is induced by a TCR-mediated activation event. In mice transgenic for an H-2Kb-specific TCR, IL-2R beta+ cells were abundant under conditions of mainstream negative selection, i.e., in the presence of Kb, but absent under conditions of mainstream positive selection or in a nonselecting environment. Together, these results show that in addition to clonal deletion, self-recognition by immature thymocytes leads to phenotypic maturation of a small subset of thymocytes expressing IL-2R beta. IL-2-deficient mice contain normal numbers of IL-2R beta+ alpha/beta-TCR+ thymocytes, indicating that like mainstream T cell development, this minor pathway of positive selection does not depend on IL-2. However, in the absence of IL-2, the
CD4
/CD8 subset composition of IL-2R beta+ thymocytes is skewed towards
CD4
-8+, mostly at the expense of
CD4
-8-. A possible relevance of this finding for the development of the immune pathology of IL-2-deficient mice is discussed.
...
PMID:Induction of interleukin 2 receptor beta chain expression by self-recognition in the thymus. 796 50
Whole body irradiation produces profound thymic atrophy. After sublethal irradiation, regeneration begins promptly and the earliest regeneration is from radioresistant intrathymic precursors. The progeny of these precursors expand rapidly and restore thymic cellularity to near normal within 2 weeks. We have used monoclonal antibodies specific for a variety of differentiation markers of the T lineage to analyze the early events in thymic regeneration. A three-color flow microfluorometric analysis revealed that the majority of the cells found early in the regenerative process have the phenotype of mature T cells. These include
CD4
-/CD8-; CD3hi as well as CD4+/CD8-; CD3hi and Cd4-/CD8+; CD3hi. The proportion of cells with mature phenotypes declines rapidly between day 6 and day 12. Not all of the early appearing cells have mature phenotypes. Among the early cells that do not express CD3 are both
CD4
and CD8 single positive cells that express
HSA
and resemble the intrathymic precursors found in other systems. In these mice
CD4
single positive predominate. There are other cells that are
HSA
positive but express low levels of
CD4
and very low levels of Thy-1. These appear to include the earliest members of the T-lineage. In addition to relatively mature conventional T cells and early progenitors, the early developing population includes cells that express markers of the T-cell lineage including the T-cell receptor but do not express Thy-1. These Thy-1 negative T cells comprise a significant number of the earliest cells found after regeneration.
...
PMID:Early thymic regeneration after irradiation. 800 3
Transgenic (TG) mice with TCR alpha and beta chain genes from a
CD4
-dependent auto-I-Ak reactive T cell clone were generated. H-2k TG mice had a large number of thymic and splenic
CD4
T cells expressing the autoreactive TCR without manifestation of autoimmunity. The cells were not anergic, as they could respond to autologous antigen presenting cells and anti-TCR antibodies in vitro to proliferate and to produce interleukins. Various degrees of down-regulation of CD2 and CD44 was observed in TG mice, indicating the presence of a defective co-stimulatory process in TG T cells. These features indicate that the self tolerance in autoreactive TCR TG mice is due not to clonal deletion and anergy but to a novel mechanism where T cells cannot sufficiently respond to normally existing self ligand in vivo. That such an in vivo unresponsiveness of autoreactive T cells is dictated in the thymus during
CD4
T cell differentiation atypical form of positive selection of autoreactive T cells was suggested by the abnormal surface expression of CD69 and
HSA
.
...
PMID:A novel form of self tolerance dictated in the thymus of transgenic mice with autoreactive TCR alpha and beta chain genes. 801 99
Thymectomy of 3-day-old mice induces organ-specific autoimmune disease. To define a relationship between the development of T cells early in the neonatal period and autoimmunity, we studied the thymus and peripheral lymphoid tissues of 3-day-old mice. Lymph nodes, but not spleens, of 3- to 4-day-old mice contained a significant number of thymus-derived CD4+CD8+ cells that are phenotypically similar to CD4+CD8+ thymocytes in their level of expression of CD3 and
HSA
. It is likely that the prematurely exported cells are the progenitors of autoreactive T cells because the lymph nodes from 3- to 4-day-old male, but not female, mice which express a transgenic TCR specific for the H-Y Ag contained a large number of CD4+CD8+Tg+ as well as
CD4
-CD8+Tg+ T cells. Thus, the neonatal thymus is capable of exporting immature T cells that in the absence of a thymus may differentiate into autoimmune effector cells.
...
PMID:Premature escape of double-positive thymocytes to the periphery of young mice. Possible role in autoimmunity. 812 Mar 65
Cadherins mediate homotypic adhesion between lineage-related cells in epithelia and other tissues. One cadherin, E-cadherin, is also responsible for adhesion of murine epidermal Langerhans cells to keratinocytes in vitro, and may play a role in the localization of Langerhans cells in epidermis. The thymus is another tissue in which important adhesive interactions between bone marrow-derived cells and keratinizing epithelia occur. To determine whether cadherins might be involved in interactions between thymocytes and thymic epithelial cells, we examined thymocytes from C57BL/6 mice of various gestational ages for cadherin expression. Most day 14 (D14) and essentially all D16 isolated fetal thymocytes expressed cell surface E-cadherin. After D16, the proportion of fetal thymocytes expressing E-cadherin and the level of E-cadherin expressed by individual thymocytes decreased with increasing gestational age. A minority of neonatal thymocytes and very few adult thymocytes expressed E-cadherin. E-cadherin was maximally expressed by the least mature (
CD4
-CD8-,
HSA
(J11d)high, CD5 (Ly-1)low, CD25 (IL-2R alpha)+) thymocytes. P-cadherin, another epithelial cadherin, was not detected on thymocytes at any stage of development. Immunohistologic studies revealed that thymic epithelial cells also expressed E-cadherin. Similar levels of E-cadherin were expressed by neonatal and adult thymic epithelial cells in situ, and E-cadherin was easily demonstrable on the thymic epithelial cell line, TE-71. In contrast, P-cadherin was transiently expressed by thymic epithelial cells in situ, and only small amounts of P-cadherin were detected on TE-71 cells. These studies demonstrate that thymocytes and thymic epithelial cells each have the capacity to express the homotypic adhesion molecule E-cadherin. E-cadherin may play a role in developmentally regulated interactions between early thymocytes and thymic stromal cells.
...
PMID:Expression of the homotypic adhesion molecule E-cadherin by immature murine thymocytes and thymic epithelial cells. 820 98
The main steps in intrathymic T cell differentiation have been defined using bromodeoxyuridine as a postmitotic cell tracer. Thymocytes with a high surface expression of the TCR are generated in the first 24 h after DNA synthesis. The phenotype of these TCR(high) cells was studied during 10 days by using pairs of surface markers associated with BrdUrd. During the first 2 days, TCR(high) cells were of the CD4+CD8+HSA(high) phenotype, transiently expressed the early activation marker CD69, and contained a high percentage of cycling cells. This activation step preceded the transition from CD4+CD8+ to CD4+CD8- and then to
CD4
-CD8+ cells, followed by progressive
HSA
down regulation and increase in the expression of H-2K, Qa-2, and CD45RB. The phenotypic maturation was completed in 9 days. In Mls-1a mice, negative selection of V beta 6+ cells was observed at the earliest step of TCR(high) cell generation, and positive selection of V beta 8.2+ and V beta 14+ cells took place later and was correlated to the activation step. These data suggest that high TCR expression and cell activation are necessary for positive selection and subsequent T cell maturation.
...
PMID:Production, selection, and maturation of thymocytes with high surface density of TCR. 820 55
"In vivo" kinetics of T cell differentiation and TCR expression in the normal murine thymus were re-evaluated using a new technique for simultaneous detection of bromodeoxyuridine and two surface markers. The transition from
CD4
-8- precursors to CD4+8+ immature cells was directly observed during cell proliferation, and shown to proceed through transitory intermediates expressing no or low amounts of
CD4
. CD3-TCR expression also started during this transition and resulted in the production of a majority of TCRlo cells but also of a significant number (1 to 2 x 10(6) of TCRhi immature (heat-stable Ag+) thymocytes. After cessation of proliferation, the maturational transition from CD4+8+ to CD4+8- and
CD4
-8+ (in this order) was restricted to TCRhi cells produced during CD4+8+ cell generation. The acquisition of the single positive phenotype preceded
HSA
down-regulation, suggesting that maturation of TCRhi thymocytes proceeds in two separate steps. The major TCRloCD4+8+ subset appeared a dead end subset and showed no up-regulation of TCR expression at any time.
...
PMID:Normal sequence of phenotypic transitions in one cohort of 5-bromo-2'-deoxyuridine-pulse-labeled thymocytes. Correlation with T cell receptor expression. 840 19
CD4+8- or
CD4
-8+ thymocytes have been regarded as direct progenitors of peripheral T cells. However, recently, we have found a novel NK1.1+ subpopulation with skewed T cell antigen receptor (TcR) V beta family among heat-stable antigen negative (HSA-) CD4+8- thymocytes. In the present study, we show that these NK1.1+ CD4+8- thymocytes, which represent a different lineage from the major NK1.1- CD4+8- thymocytes or CD4+ lymph node T cells, vigorously secrete interleukin (IL)-4 and interferon (IFN)-gamma upon stimulation with immobilized anti-TcR-alpha beta antibody. On the other hand, neither NK1.1- CD4+8- thymocytes nor CD4+ lymph node T cells produced substantial amounts of these lymphokines. A similar pattern of lymphokine secretion was observed with the NK1.1+ CD4+T cells obtained from bone marrow. The present findings elucidate the recent observations that
HSA
- CD4+8- thymocytes secrete a variety of lymphokines including IFN-gamma, IL-4, IL-5 and IL-10 before the CD4+8- thymocytes are exported from thymus. Our evidence indicates that NK1.1+ CD4+8- thymocytes are totally responsible for the specific lymphokine secretions observed in the
HSA
- CD4+8- thymocytes.
...
PMID:NK1.1+ CD4+ CD8- thymocytes with specific lymphokine secretion. 841 84
Studies were performed to characterize the thymocyte subset responsible for the efficient inhibition of spleen cell interleukin-2 (IL-2) production. By different cell separation techniques, C-mediated cytotoxicity, immunoabsorbance, and cell sorting by flow cytometry, we have identified two phenotypically distinct subpopulations of thymocytes. One subset, belonging to the minor population (3-5%) of the
CD4
-CD8-, i.e., double-negative thymocytes, is defined as the subset from which the suppressive thymocytes are generated. After 28 hr of Con A stimulation, these cells undergo a phenotypical change in vitro and generate a population exerting the inhibitory effect. This latter subset inhibits 95-99% of the IL-2 produced by spleen cells and is characterized by expressing the CD8 antigen, high levels of
HSA
, low levels of CD3, and being IL-2R positive (HSA+CD4-CD8+CD3lowIL-2R+). Based on the experiments where stimulated CD4+CD8+, i.e., double-positive thymocytes, failed to suppress IL-2 production, we conclude that the CD8+ immature single-positive thymocytes are generated directly from the DN subset as an intermediate stage to the DP cells. When CD8(+)-stimulated thymocytes were enriched, the suppression was efficient even at thymocyte:spleen cell ratio of 0.01:1. It is suggested that this subpopulation of thymocytes may serve as a regulatory set of cells during critical stages of thymic maturation.
...
PMID:Murine thymocytes with ability to inhibit IL-2 production. II. Characterization of a subpopulation with regulatory function in the thymus. 849 82
Dominant second signals for T cell activation can be generated through interactions between CD28 and CTLA-4 on T cells with their co-stimulatory ligands B7-1 and B7-2 on APC. Nevertheless, some B7-negative cell lines appear capable of providing second signals to T cells, illustrating that B7-independent co-stimulatory pathways may exist. One such cell line, the peptide-transporter defective T lymphoma RMA-S, was investigated in the present study, to determine the origin of the co-stimulatory effects it provides. RMA-S can support clonal expansion of purified
CD4
or CD8 T cells from unprimed mice activated with concanavalin A (ConA) or immobilized anti-CD3. Nevertheless, RMA-S does not express B7-1 or B7-2, nor does it express other known co-stimulatory molecules, i.e. CD40, gp39, CD70 and
HSA
. Also, co-stimulation provided by RMA-S could not be blocked by antibodies or fusion proteins specific for these co-stimulatory molecules, excluding their participation. However, RMA-S' co-stimulatory activity is dependent on adhesive interactions. RMA-S is incapable of IL-2 production in the presence of ConA or anti-CD3, but T cells co-stimulated by RMA-S produce IL-2 and IFN-gamma upon anti-CD3- or ConA-induced activation. Furthermore, co-stimulation of antigen-specific T cell proliferation of both class I- and class II-restricted T cell clones can be provided by RMA-S, and RMA-S can preclude induction of anergy by 1-ethyl-3-(3-dimethyl amino propyl)carboiimide-fixed APC in a class II-restricted T cell clone. The results suggest that potent co-stimulatory pathways can be induced by cellular interactions between a T lymphoma, RMA-S and T cells, not involving gp39, CD40, CD70,
HSA
, B7-1 (CD80) or B7-2 (CD86). Characterization of the molecules involved is in progress.
...
PMID:A T cell lymphoma can provide potent co-stimulatory effects to T cells that are not mediated by B7-1, B7-2, CD40, HSA or CD70. 858 81
<< Previous
1
2
3
4
5
6
Next >>
