Comparison of lymphokine secretion and mRNA expression in the CD45RA+ and CD45RO+ subsets of human peripheral blood CD4+ and CD8+ lymphocytes

Flow cytometric analysis of human peripheral blood T lymphocytes demonstrated that the majority of the CD4⁺ cells were CD29⁺ or CD45RO⁺ “mature” cells while the CD8⁺ cells were primarily CD45RA⁺ “naive” cells. After an initial separation into CD4⁺ and CD8⁺ cells and a secondary separation into CD45 subsets, lymphokine secretion was assessed after phorbol 12-myristate 13-acetate and ionomycin or fixed anti-CD3 stimulation. Within the respective CD45 subsets, CD4⁺ cells produced more interleukin (IL)-2, IL-4, and IL-6; but the CD8⁺ cells secreted more interferon-γ and granulocyte/macrophage-colony-stimulating factor. Tumor necrosis factor-α secretion was similar in the matched CD45 subsets. Northern analysis revealed a parallel pattern of lymphokine mRNA expression in the four lymphocyte subsets. These results suggest that human CD8⁺ peripheral blood lymphocytes have a significant capacity to secrete lymphokines, and that the low lymphokine production observed in unseparated CD8⁺ cells reflects the higher percentage of less functional CD45RA⁺ cells.     

C-C chemokines,but not the C-X-C chemokines interleukin-8 and interferon-γ inducible protein-10, stimulate transendothelial chemotaxis of T lymphocytes

Eight chemokines were tested for ability to elicit transendothelial chemotaxis of unstimulated peripheral blood T lymphocytes. The C-C chemokines monocyte chemotactic protein (MCP)-2, MCP-3, RANTES, macrophage inflammatory protein (MCP)-lα, MIP-1β, and, as previously described, MCP-1 induced significant, dose-dependent transendothelial chemotaxis of CD3⁺ T lymphocytes. In contrast, the C-X-C chemokines interleukin-8 (IL-8) and interferon-γ inducible protein-10 (IP-10) failed to induce transendothelial chemotaxis of CD3⁺ T lymphocytes or T lymphocyte subsets. RANTES, MIP-1α, and MIP-1β induced significant transendothelial chemotaxis of CD4⁺, CD8⁺, and CD45RO⁺ T lymphocyte subsets. Phenotyping of mononuclear cells that underwent transendothelial migration to MCP-2, MCP-3, RANTES, or MIP-1α showed both monocytes and activated (CD26 high), memory-type (CD45RO⁺) T cells. Both CD4⁺ and CD8⁺ T lymphocytes were recruited, but not natural killer cells or significant numbers of B cells. MCP-2 was the only C-C chemokine tested that attracted a significant number of naive-type (CD45RA⁺) T lymphocytes. In the absence of endothelium, IL-8 but not IP-10 promoted modest but significant chemotoxis of CD3⁺ T lymphocytes. Our data support the hypothesis that C-C, not the C-X-C chemokines IL-8 or IP-10, promote transendothelial chemotaxis of T lymphocytes.     

CD45RB expression defines two interconvertible subsets of human CD4+ T cells with memory function

Reciprocal expression of CD45RA and CD45RO in human CD4⁺ T cells defines populations understood to be naive cells (CD45RA⁺CD45RO^?) and memory cells (CD45RA^?CD45RO⁺). We investigate two subsets of CD45RA^?CD45RO⁺ CD4⁺ human T cells which differ by fourfold in their expression of the CD45RB isoform; one is CD45RB^bright and the other is CD45RB^intermediate. In contrast, CD45RA⁺ naive cells are all CD45RB^bright. Both subsets of CD45RA^? cells proliferate in response to recall antigens so we designate them MEM 1 (CD45RO⁺RB^bright) and MEM 2 (CD45RO⁺RB^intermediate). CD45RA and CD45RB expression are regulated independently during in vitro activation of naive cells. When MEM 1 cells are activated they tend to down-regulate CD45RB expression, whereas activated MEM 2 cells tend to up-regulate CD45RB expression. Thus, in contrast to the stability of the CD45RA^?CD45RO⁺ phenotype, the MEM 1 and MEM 2 phenotypes are labile and may interconvert. MEM 1 and MEM 2 cells produced comparable amounts of interleukin(IL)?2, IL?4, and IL-5 though MEM 1 cells produced slightly more interferon(IFN)-γ (mean 1.7-fold more). MEM 1 cells consistently proliferated more (mean 2.3-fold more) than MEM 2 cells early during in vitro activation. Thus, differential expression of CD45RB within CD45RA^? cells defines two subsets that have similar properties except for somewhast greater IFN-γ production and proliferative responses by MEM 1 cells. Variability in CD45RB expression may represent a mechanism for fine-tuning the responsiveness of memory cells in vivo.     

CD4+CD45RA+T cells from adults respond to recall antigens after CD28 ligation

The leukocyte common antigen isoforms CD45RA and CD45RO havelong been used to discriminate human naive and memory T cellsrespectively. This model was largely based on the observationthat CD45RO⁺ T cells respond preferentially to and show a higherfrequency of precursors specific for recall antigens. However,CD45RA⁺ T cells have more stringent requirements for stimulationand standard in vitro assays may favour CD45RO⁺ cells in thisrespect. We tested the hypothesis that CD45RAf T cells respondpoorly to in vitro stimulation with recall antigens becauseof inadequate stimulation rather than a lack of precursors.Limiting dilution analyses (LDA) for tetanus toxoid (lT)-specificT cells were performed in the presence or absence of exogenousantLCD28 antibody. Addition of antLCD28 yielded no proliferationin the absence of specific antigen. The precursor frequencyfor lT in the CD4⁺ CD45RO⁺ population was –1:4000, whilethe frequency of CD4⁺ CD45RA⁺ T cells specific for lT was 4-to >>20-fold lower. Addition of anti-CD28 antibody didnot significantly alter the apparent precursor frequency forCD45RA⁺ cells but yielded an enhancement of the value for CD45RA⁺cells by 3- to >>5-fold. No enhancement of antigen-specificproliferation by antLCD28 was observed with CD45RA⁺ T cellsderived from cord blood, although phytohemagglutinin responsesof these cells were amplified by CD28 antibody. These resultsindicate that conventional LDA underestimate the true precursorfrequency of antigen-specific cells within the adult CD45RA⁺population and support the possibility that a small number ofcells revert from a primed (CD45RO⁺) to an unprimed (CD45RA⁺)state. The majority of memory T cells, however, appear to residein the CD45RO⁺ population     

Differential effect of transforming growth factor-{beta}1 on the activation of human naive and memory CD4+ T lymphocytes

Transforming growth factor-ß1 (TGF-ß1) canhave stimulatory or inhibitory effects on cell growth. For severalcell types, the effect of TGF-ß1 was found to correlatewith the differentiation stage of the cells and the presenceof other cytoklnes. We have studied here the influence of TGF-ß1on CD4⁺ T cell activation in relation to the differentiationstage of the cells by evaluating the effect of TGF-ß1on the prollferatlve responses of purified CD4⁺CD45RA⁺ (unprfmed)and CD4⁺CD45RO⁺ (primed) lymphocytes. Under certain conditions,TGF-ß1 exerted a co-stlmulatory effect on peripheralblood CD4⁺CD45RA⁺ T cells whereas the outgrowth of CD4⁺CD45RO⁺T cells was suppressed in any activation system tested. Theenhancement of prollferatlve responses by TGF-ß1 inTCR/CD3 or CD2 stimulated cultures of CD45RA⁺ cells involvedup-regulatlon of CD25 expression and was dependent on the presenceof exogenous IL-2 or CD28 mAbs; IL-7 driven proliferatlve responseswere suppressed by TGF-ß1. These observations wereconfirmed in experiments with purified cord blood (CB) CD4⁺T cells inasmuch as addition of TGF-ß1 caused a 2-to 7-fold increase in IL-2 driven proliferatlve responses ofthese cells. Finally we show that, in contrast to the effectof TGF-ß1 during primary stimulation of CB CD4⁺ Tcells, TGF-ß1 suppressed T cell proliferation for40% in secondary cultures of these cell. Our findings indicatethat TGF-ß1 Is a blfunctlonal regulator of CD4⁺ Tcell growth in vitro, with co-stimulatory capacities duringCD45RA⁺ T cell mediated primary responses and growth suppresslveeffects during secondary responses of CD45RO⁺ T cells.     

Age-related accumulation of LFA-1high cells in a CD8+CD45RAhigh T cell population

The differential expression of CD45 isoforms has been suggested as a marker for stages of post-thymic T cell development, that is, CD45RA+CD45R0^? T cells and CD45RA^?CD45R0⁺ T cells are supposed to be virgin and memory cells respectively. Recently, several adhesion molecules have been shown to be up-regulated on the cell surface of memory T cells, and have been suggested to serve as a memory marker. In this study, we investigated the levels of LFA-1 expression on T cells in various subpopulations defined by CD45 isoform expression in donors of various ages. In CD4⁺ T cells, the proportion of LFA-1^high cells among CD45RA^highCD45R0-T cells remained low in all age groups and did not show significant accumulation with age. CD4⁺CD45RA^?CD45R0^highTcells expressed LFA-1 at a higher level than CD4⁺CD45RA^highCD45R0^? T cells. Thus, the currently prevailing view that CD45RA and CD45R0 can be markers for virgin and primed cells was consistent with LFA-1 expression in CD4⁺ T cell population. In CD8⁺ T cells, however, CD45RA^highCD45R0^? T cells consisted of two distinct subpopulations, LFA-1^low and LFA-1^high cells, whereas CD45RA^?CD45R0^high T cells were almost exclusively LFA-1^high When CD29 expression was examined in place of LFA-1 expression, similar results were obtained; CD45RA^high CD45R0^? T cells consisted of two distinct subpopulations, CD29-^{to low} and CD^29high cells, while CD45RA-CD45R0^high T cells were mostly CD29^high. The proportion of LFA-1^high cells in the CD8+CD45RA^high T cell subpopulation increased significantly as a function of age (r = 0.9, p < 0.001). It ranged from 8% in a 14-year-old donor to 94% in a 79-year-old donor. Furthermore, the proportion of CD8⁺CD45RA^highLFA-1^high cells in the CD8⁺ T cell population increased significantly as a function of age (r = 0.85, p < 0.001). On the other hand, the proportion of LEA-1^high cells in CD8⁺CD45RA^? T cell subpopulation exceeded 90% in most donors irrespective of age. These results indicate that the CD8⁺CD45RA^highCD45R0^? T cell subpopulation contains a considerable number of LFA-1^high cells and CD29^high cells, phenotypically similar to previously activated cells. Thus, in terms of LFA-1 and CD29 expressions, the simple scheme that CD45RA is a marker of virgin cells is not applicable to the CD8⁺ T cell population.     

Circulating CD4+CD8+ T lymphocytes in patients with Kawasaki disease

We serially monitored cell surface antigen expression on mononuclear cells in peripheral blood isolated from patients with Kawasaki disease (KD), and found, for the first time, that a markedly increased number of CD4⁺CD8⁺ T lymphocytes was present in some of the patients (11 of the 24 cases). The cases of five of these 11 patients were complicated with coronary artery lesion (CAL); the 13 patients with normal numbers of CD4⁺CD8⁺ T lymphocytes did not have CAL. The patients' age, sex and grade of systemic inflammation evaluated by peripheral leucocyte count and serum C-reactive protein levels were not correlated to the number of CD4⁺CD8⁺ T lymphocytes. Other cell surface antigen characteristics of the CD4⁺CD8⁺ T lymphocytes included CD3⁺, CD45RA⁺, CD45RO⁺, CD16^?, and HLA-DR⁺. These results indicate that the surface antigen characteristics of the KD peripheral blood examined were the same as those of Epstein–Barr virus infection without CD45RA⁺. These findings provide useful information for the analysis of the pathogenesis of KD.     

Naive and memory T cell infiltrates in chronic hepatitis C: phenotypic changes with interferon treatment

The phenotypes of infiltrating lymphocytes in liver with chronic hepatitis C, including changes associated with interferon (IFN) treatment, were characterized. Specimens obtained from 22 patients treated with IFN were examined using avidin-biotin-peroxidase immunohistochemistry. In areas of lobular and periportal inflammation, most lymphocytes were CD8⁺ T cells of the CD45RO⁺ (memory) subset. The centres of lymphoid follicles were occupied by CD20⁺ B cells and a few CD4⁺ T cells which were CD45RA⁺ (naive subset). Follicular centres were surrounded mainly with CD4⁺ T cells. CD8⁺ T cells, mostly CD45RO⁺, were scattered through the mantle zones of follicles and extended around them. No significant changes in CD45RA⁺ lobular infiltrates accompanied IFN treatment. On the other hand, the number of CD45RO⁺ lobular infiltrates decreased after IFN treatment in complete responders (P <0.01). Moreover, there were significant correlations between CD45RO⁺ cell counts and serum alanine aminotransferase concentrations, CD45RO⁺ cell counts and the liver histologic grade and CD45RO⁺ cell counts and CD8⁺ cell counts. These results suggest that CD8⁺ memory T cells participate in hepatocyte injury in chronic hepatitis C, and that a decrease of CD8⁺ memory T cells correlates with the decreased liver inflammation with IFN treatment.     

Interleukin-13 is produced by activated human CD45RA+ and CD45R0+ T cells: modulation by interleukin-4 and interleukin-12

Interleukin (IL)-13 is a cytokine originally identified as a product of activated T cells. Little is known, however, about IL-13 production by human T cells and its modulation by other cytokines. Here, we show that IL-13 is produced by activated human CD4⁺ and CD8⁺ CD45R0⁺ memory T cells and CD4⁺ and CD8⁺ CD45RA⁺ naive T cells. In contrast, IL-4, which shares many biological activities with IL-13, is only produced by CD45R0⁺ T cells following activation. Analysis of intracellular cytokine production by single CD45RA⁺ and CD45R0⁺ T cells indicated that IL-13 continued to be produced for more than 24 h after stimulation, whereas IL-4 could not be detected after 24 h. These data were confirmed by measurement of specific mRNA and suggest that IL-13, unlike IL-4, but like interferon-γ (IFN-γ), is a cytokine with long-lasting kinetics. The majority of human CD45R0⁺ T cells produced IL-4 and IL-13 simultaneously. In contrast, IFN-γ protein was generally not co-expressed with IL-4 or IL-13. IL-4 added to primary cultures of highly purified peripheral blood T cells activated by the combination of anti-CD3+anti-CD28 mAb enhanced IL-13 production by CD45RA⁺ and to a lesser extent by CD45R0⁺ T cells. Under these conditions, however, IL-12 inhibited IL-13 production by CD45RA⁺ T cells and to a lesser extent by CD45R0⁺ T cells in a dose-dependent fashion. These inhibiting effects were not related to enhanced IFN-γ production induced by IL-12, since IFN-γ by itself did not affect IL-13 production. Collectively, our data indicate that IL-13 is produced by peripheral blood T cells which also produce IL-4, but not IFN-γ, and by naive CD45RA⁺ T cells which, in contrast, fail to produce IL-4. These observations, together with the long-lasting production of IL-13, suggest that IL-13 may have IL-4-like functions in situations where T cell-derived IL-4 is still absent or where its production has already been down-regulated.     

Antigen-independent adhesion of CD4 CD45RA T cells from cord blood

Antigen-independent adhesion of resting adult CD4⁺ CD45RO⁺ T cells to B lymphocytes has been shown to be transient and can be down-regulated by CD4 major histocompatibility complex (MHC) class II molecule interactions. Conversely, adhesion of adult CD4+ CD45RA+ subpopulation to B cells is not regulated by ligands of CD4. We have investigated the regulation of adhesion of cord blood CD45RA⁺ CD4⁺ T lymphocytes. In contrast to adult CD45RA⁺ CD4⁺ T cells, cord blood CD45RA⁺ CD4⁺ T cells were strongly sensitive to the down-regulation of adhesion mediated by the CD4-HLA class II interaction, since adhesion to MHC class II(⁺) B cells was transient and inhibited by an anti-CD4 antibody. In addition, human immunodeficiency virus gpl60, synthetic gpl06-derived peptides encompassing a CD4 binding site inhibited conjugate formation between cord blood CD45RA⁺ CD4+ T cells and B cells. Following activation of the cord blood CD4 T cells by an anti-CD3 antibody, a conversion from a transient to a stable adhesion pattern of cord blood CD4 T cells to B cells occurred in 2 days. The reversal to a transient adhesion occurred at day 8 following anti-CD3 activation in correlation with a complete shift to a CD45RO phenotype of the cord blood CD4 T cells. These data suggest that CD4 T cell adhesion can be developmentally regulated.     

Selective disbalances of peripheral blood T lymphocyte subsets in human CD3γ deficiency

The selection of T lymphocytes in the thymus and their activation upon the encounter with foreign antigens in the periphery require the aggregation and signals of the Tcell receptor (TcR)/CD3 complex and several surface molecules termed coreceptors (notably CD4 or CD8 and CD45). The spatial arrangement and interactions of the different molecules in the resulting multimolecular recognition structure are mostly unknown. Here we report, from studies on a healthy human CD3γ deficiency, that the lack of the CD3γ component of the TcR/CD3 complex is associated with a long-term severe defect of peripheral blood CD4⁺CD45RA⁺ and CD8+ lymphocytes, whereas CD4⁺CD45RO⁺, B and natural killer lymphocytes are unaffected. These results suggest that the CD3y site of the TcR/CD3 complex is required for the peripheral representation of certain Tcell types.     

Human CD45RA+ and CD45R0+ T cells exhibit similar CD3/T cell receptor-mediated transmembrane signaling capacities but differ in response to co-stimulatory signals

CD45RA⁺ cells have been described to be less responsive to CD3/T cell receptor (TcR)-mediated activation than CD45R0⁺ T cells. To analyze the underlying mechanism of the differential responses we compared CD3/TcR-triggered tyrosine phosphorylation in the two subsets and studied the role of co-stimulatory signals provided either by accessory cells or pharmacologic activation of protein kinase C by phorbol ester. Stimulation of purified CD45RA⁺ and CD45R0⁺ T cells with CD3/TcR antibodies induced similar patterns and intensities of tyrosine phosphorylation in the two subsets, but no proliferation. If accessory cells were used as the source of co-stimulatory signals, strong expression of the 55-kDa chain of the interleukin-2 (IL-2) receptor (CD25), significant IL-2 production and vigorous proliferation were observed in CD45R0⁺ cells, whereas CD45RA⁺ cells responded weakly. However, when CD3/TcR-mediated triggering was combined with activation of protein kinase C by phorbol ester, CD45RA⁺ cells responded strongly. These data indicate that the transmembrane signaling capacity of the T cell receptor expressed by CD45RA⁺ and CD45R0⁺ cells is similar and, therefore, is presumably not responsible for the differential reactivities of the two subsets. It is more likely that co-stimulatory signals determine whether CD3/TcR-initiated activation results in strong or weak responses.     

The CD7− T cell subset represents the majority of IL-5-secreting cells within CD4+CD45RA− T cells

Absence of CD7 is a stable phenotype in a subset of normal human T cells. Most circulating CD7⁻ T cells express the CD4⁺CD45RO⁺CD45RA⁻ memory phenotype. We analysed CD4⁺CD45RA⁻ peripheral blood lymphocytes that were separated into CD7⁺ and CD7⁻ for their in vitro cytokine secretion in response to different stimuli. The CD4⁺CD7⁻ subpopulation was found to secrete significantly higher levels of IL-5 compared with the CD4⁺CD7⁺ subset upon stimulation with ionomycin/phorbol myristate acetate (PMA) plus anti-CD28 MoAbs. In contrast to IL-5 secretion, IL-4 and interferon-gamma (IFN-γ) secretion was not significantly different in CD7⁺ and CD7⁻ T cells upon stimulation in vitro. The data indicate that the CD4⁺CD7⁻ T cell represents the majority of IL-5-secreting cells within the population of CD4⁺CD45RA⁻ memory T cells. Since CD4⁺CD7⁻ T cells were found to be enriched in various skin lesions associated with eosinophilic infiltration, the results of our study support the hypothesis that skin-infiltrating CD7⁻ T cells are one of the major sources of IL-5 responsible for the development of eosinophilic inflammation in certain skin diseases.     

Cytomegalovirus infection induces the accumulation of short-lived, multifunctional CD4+CD45RA+CD27+ T cells: the potential involvement of interleukin-7 in this process

The relative roles that ageing and lifelong cytomegalovirus (CMV) infection have in shaping naive and memory CD4⁺ T-cell repertoires in healthy older people is unclear. Using multiple linear regression analysis we found that age itself is a stronger predictor than CMV seropositivity for the decrease in CD45RA⁺ CD27⁺ CD4⁺ T cells over time. In contrast, the increase in CD45RA⁻ CD27⁻ and CD45RA⁺ CD27⁻ CD4⁺ T cells is almost exclusively the result of CMV seropositivity, with age alone having no significant effect. Furthermore, the majority of the CD45RA⁻ CD27⁻ and CD45RA⁺ CD27⁻ CD4⁺ T cells in CMV-seropositive donors are specific for this virus. CD45RA⁺ CD27⁻ CD4⁺ T cells have significantly reduced CD28, interleukin-7 receptor α (IL-7Rα) and Bcl-2 expression, Akt (ser473) phosphorylation and reduced ability to survive after T-cell receptor activation compared with the other T-cell subsets in the same donors. Despite this, the CD45RA⁺ CD27⁻ subset is as multifunctional as the CD45RA⁻ CD27⁺ and CD45RA⁻ CD27⁻ CD4⁺ T-cell subsets, indicating that they are not an exhausted population. In addition, CD45RA⁺ CD27⁻ CD4⁺ T cells have cytotoxic potential as they express high levels of granzyme B and perforin. CD4⁺ memory T cells re-expressing CD45RA can be generated from the CD45RA⁻ CD27⁺ population by the addition of IL-7 and during this process these cells down-regulated expression of IL-7R and Bcl-2 and so resemble their counterparts in vivo. Finally we showed that the proportion of CD45RA⁺ CD27⁻ CD4⁺ T cells of multiple specificities was significantly higher in the bone marrow than the blood of the same individuals, suggesting that this may be a site where these cells are generated.     

CD31/PECAM-1-driven chemokine-independent transmigration of human T lymphocytes

We assessed the relative contribution of CD31/PECAM-1 (platelet-endothelial cell adhesion molecule-1) to T lymphocyte transmigration by the use of transfected murine fibroblasts stably expressing either the human CD31/PECAM-1 or the intercellular adhesion molecule-1 (CD54/ICAM-1). Unlike CD54/ICAM-1, CD31/PECAM-1 supported migration of activated T cells in the absence of chemokines: most of the migrating lymphocytes were CD31⁺ and displayed a phenotype corresponding to the naive subpopulation (LFA-1^dull and CD45RA⁺). Migration of activated T lymphocytes through CD54/ICAM-1⁺ transfected monolayers could be induced by creating a chemotactic gradient with the chemokine monocyte chemotactic protein-1, and the migrating cells mainly displayed a memory phenotype (LFA-1^brightCD45RO⁺) under these conditions. Furthermore, we found that in transfected cells CD54/ICAM-1 is uniformly distributed along the apical surface of the cells, while CD31/PECAM-1 is concentrated at the intercellular junctions, suggesting the existence of a haptotactic gradient (i.e. a gradient of substrate- or cell-bound molecules) responsible for T cell migration. This was also confirmed by the finding that monolayers of murine fibroblasts transfected with a CD31/PECAM-1 mutant lacking the cytoplasmic domain (CD31/PECAM-1-Δcyto), which has a reduced tendency to localize at cell-cell contact areas, supported efficient adhesion but were unable to induce migration of activated T cells unless a chemotactic gradient was created. We propose that in lymphocytes, homophilic CD31/PECAM-1 adhesion may be primarily involved in transmigration of naive T cells and that its role is complementary to that of CD54/ICAM-1.     

Age-related increase of CD45RO+ lymphocytes in physically active adults

The CD45RO phenotype of peripheral blood CD4⁺ and CD8⁺ lymphocytes were determined in physically active males (n = 171) and females (n = 70) ranging in age from 15–68 years. Direct immunofluorescence and dual color flow cytometry was performed for analysis. Absolute cell numbers (r = 0.473) and percentages of CD4⁺ CD45RO⁺ (r = 0.648) within the CD4⁺ population, percentage of CD8⁺ CD45RO⁺ cells within the CD8+ lymphocytes (r = 0.498) and total lymphocyte number (r = ?0.242) correlated significantly (p < 0.001) with age. We conclude that the age-related increase of CD45RO⁺ T cells indicates a gradual increase of activated T cells.     

CD3 antigen-mediated calcium signals and protein kinase C activation are higher in CD45R0+ than in CD45RA+ human T lymphocyte subsets

T lymphocytes may be separated into subsets according to their expression of CD45 isoforms. The CD45R0⁺ T cell subset has been reported to proliferate in response to recall antigen and to mitogenic mAb to a much greater extent than the CD45RA⁺ subset. This difference could be due to more efficient coupling of the T cell antigen receptor complex to mitogenic signaling pathways. To investigate this possibility, CD3 antigen-induced calcium signals, diacylglycerol (DAG) production and protein kinase C (PKC) activation levels were compared in CD45RA⁺ and CD45R0⁺ human T lymphocyte subsets derived from peripheral blood. The mean CD3-induced rise in intracellular calcium was 80% greater in CD45R0⁺ than in CD45RA⁺ cells. Basal DAG levels in CD45R0⁺ cells were found to be, on average, 60% higher than in CD45RA⁺ cells (p = 0.002), but the CD3-induced production of DAG over background was not different in the two subsets (p = 0.4). Basal PKC activity, and CD3-induced PKC activation levels over background, were found to be 50% and 140% higher, respectively, in CD45R0⁺ cells than in CD45RA⁺ cells (p = 0.015 and 0.023). The CD45R0⁺ subset contained a higher proportion of cells expressing activation markers, such as CD25, CD71 and major histocompatibility complex class II, when compared to the CD45RA⁺ subset. Our results suggest that the elevated basal DAG levels observed in the CD45R0⁺ subset may reflect the recent activation of these cells. Both the higher basal DAG and CD3-induced elevation in intracellular calcium observed in the CD45R0⁺ cells may contribute to the greater PKC activation signals triggered by CD3 mAb in this subset. These findings elucidate the greater response of CD45R0⁺ T cells to mitogenic stimuli compared to CD45RA⁺ cells.     

CD57+ T lymphocytes are derived from CD57− precursors by differentiation occurring in late immune responses

CD3⁺ T cells expressing the 110-kDa CD57 antigen are found in survivors of renal, cardiac and bone marrow transplants, in patients with acquired immune deficiency syndrome and in patients with rheumatoid arthritis. They are also present in normal individuals and expand upon ageing. They do not grow in culture and their role in the immune response is poorly understood. The expression of the various isoforms of the leukocyte common antigen (CD45) identifies a spectrum of differentiation in CD4⁺ and CD8⁺ T cells ranging from naive (CD45RA⁺CD45RB^brightCD45RO^?) through early primed cells (CD45RA^?RB^brightRO^dull) to highly differentiated memory cells which are CD45RA^?RB^dullRO^bright. CD45 isoforms expressed by CD57⁺ T cells showed distinct differences between CD4⁺ and CD8⁺ populations, but in each case indicated an advanced state of differentiation. The expression of T cell receptor Vβ families was highly variable between individuals, but both CD57⁺ and CD57^? cells show a full range of the specificities tested. Vβ expression was more closely related within either the CD4⁺ or the CD8⁺ subsets, irrespective of CD57 expression, than between these subsets, suggesting a relationship between CD57⁺ and CD57^? cells within the same T cell pool. This possibility was supported by experiments showing that CD3⁺CD57⁺ lymphocytes were similar to CD3⁺CD57^? T cells in terms of the production of basic T cell cytokines [interleukin (IL)-2, IL-4, and interferon-γ]. Furthermore, in vitro stimulation of CD3⁺CD57^? T cells in secondary mixed leukocyte reaction or by co-culture with IL-2 and IL-4 induced the appearance of CD3⁺CD57⁺ cells with phenotypic and functional similarities to in vivo CD3⁺CD57⁺ cells. These data strongly suggest that the expression of CD57 is a differentiation event which occurs on CD57^? T cells late in the immune response.     

Differential expression of type I insulin-like growth factor receptors in different stages of human T cells

Insulin-like growth factor I (IGF-I) has been implicated to play a regulatory role in T cell development and in T cell function. We investigated the expression of type I IGF receptors on human peripheral T cells related to the maturation and activation stage using the type I IGF receptor-specific monoclonal antibody αIR3. It appeared that 87% of the CD4⁺CD45RA⁺ cells and 66% of the CD8⁺CD45RA⁺ cells were αIR3⁺, whereas only 37% of the CD4⁺CD45RO⁺ cells and 38% of the CD8⁺CD45RO⁺ cells bound αIR3. We also found that the fraction of αIR3⁺ cells within in vivo or in vitro activated (HLA-DR⁺) T cells is markedly lower than in nonactivated (HLA-DR^?) cells. In vitro phytohemagglutinin-activated T cells and CD4⁺CD45RO⁺ cells activated with recall antigens also contained less αIR3⁺ cells (1–6%) than nonactivated cells (30–54%).