Proliferative effects of 12-O-tetradecanoylphorbol-13-acetate (TPA) and calcium ionophores on human large granular lymphocytes (LGL)

The proliferative responses of natural killer (NK) cells to 12-O-tetradecanoylphorbol-13-acetate (TPA), which directly activates protein kinase c(PKC), and to the Ca2+ ionophores A23817 and ionomycin, known to enhance the intracellular calcium, have been investigated. Highly purified large granular lymphocytes (LGL) were cultured for 12-30 hr in the presence of TPA, ionomycin, or A23817. TPA alone (1-20 ng/ml) triggered rapid LGL proliferation, whereas the calcium ionophores were ineffective. The addition of either calcium ionophore to suboptimal doses or TPA (0.1-0.5 ng/ml) resulted in a synergistic effect on LGL proliferation. Under these conditions high levels of IL-2 activity were released by the LGL. Phenotypic analysis revealed the rapid loss of the Fc gamma receptors (CD16) on LGL and the induction of the expression of IL-2 (CD25) and transferrin receptors and of HLA-DR, but not of CD3. Removal of extracellular Ca2+ by addition of EGTA at the beginning of the culture greatly depressed LGL proliferation and IL-2 production, and blocked phenotypic changes, such as the expression of Tac antigen. Finally, progression to the proliferative phase of LGL, activated by TPA alone or with ionomycin, was completely abrogated by a hyperimmune anti-IL-2 antiserum.     

TGF-beta 1 regulates lymphocyte homeostasis by preventing activation and subsequent apoptosis of peripheral lymphocytes

TGF-beta1 plays an important role in the maintenance of immune homeostasis and self-tolerance. To determine the mechanism by which TGF-beta1 prevents autoimmunity we have analyzed T cell activation in splenic lymphocytes from TGF-beta1-deficient mice. Here we demonstrate that unlike wild-type splenic lymphocytes, those from Tgfb1(-/-) mice are hyporesponsive to receptor-mediated mitogenic stimulation, as evidenced by diminished proliferation and reduced IL-2 production. However, they have elevated levels of IFN-gamma and eventually undergo apoptosis. Receptor-independent stimulation of Tgfb1(-/-) T cells by PMA plus ionomycin induces IL-2 production and mitogenic response, and it rescues them from anergy. Tgfb1(-/-) T cells display decreased CD3 expression; increased expression of the activation markers LFA-1, CD69, and CD122; and increased cell size, all of which indicate prior activation. Consistently, mutant CD4(+) T cells have elevated intracellular Ca(2+) levels. However, upon subsequent stimulation in vitro, increases in Ca(2+) levels are less than those in wild-type cells. This is also consistent with the anergic phenotype. Together, these results demonstrate that the ex vivo proliferative hyporesponsiveness of Tgfb1(-/-) splenic lymphocytes is due to prior in vivo activation of T cells resulting from deregulated intracellular Ca(2+) levels.     

FK-506 and cyclosporin A inhibit highly similar signal transduction pathways in human T lymphocytes.

This report compares the ability of cyclosporin A and FK-506 to inhibit human T cell activation triggered via cell surface molecules that utilize different intracellular processes. We stimulated highly purified peripheral blood T lymphocytes with mitogens (Con A and PHA), ionomycin + PMA, or monoclonal antibodies specific for cell surface antigens involved in activation (CD2, CD3, CD28) either in combination with each other or in conjunction with PMA. Using measurements of the proliferative response, IL-2 production, and changes in intracellular Ca2+ ([Ca2+]i), we demonstrate that FK-506 exerts its inhibitory effect on early events of T-cell activation in a manner indistinguishable from that of CsA. An important finding in this study is the strict correlation between those activation pathways that are inhibited by FK-506 and CsA and the requirement that the sensitive pathways induce a measurable rise in [Ca2+]i. This correlation held even for the CD28/CD2 pathway which was previously shown to be calcium-independent; however by employing FACS analysis of [Ca2+]i within individual cells, a subset of cells activated via CD28/CD2 was found to respond with a measurable rise in [Ca2+]i. We also noted that the proliferative response induced by certain stimuli, such as ionomycin + PMA and PHA + PMA, was partially resistant to FK-506 and CsA, while IL-2 production was completely suppressed. The partial FK-506/CsA-resistance of these responses was shown to be determined by the amount of PMA added to the cultures. We conclude from our investigations that FK-506 and CsA inhibit highly similar signal transduction pathways in human T lymphocytes.     

Comparative study of the functional expression of the Na/K-pump in human lymphocytes, activated by phytohemagglutinin, phorbol ester, ionomycin, and interleukin-2

Rubidium (Rb) influxes via Na/K pump and ouabain-resistant pathways, and protein, RNA and DNA syntheses have been studied in human blood lymphocytes during the cell transit from quiescence to proliferation. In lymphocytes, stimulated either by phytohemagglutinin (PHA), phorbol 12,13-dibutyrate (PDBu) calcium ionophore, ionomycin, or by PDBu and interleukin-2 (IL-2), the late stages of the G0/G1-->S transit are accompanied by sustained 3-fold increased ouabain-sensitive Rb influxes. Using a two-pulse activation by a brief (1 h) PDBu/ionomycin treatment, followed by incubation with PDBu or IL-2 for 48 h, it has been found that both IL-2 and IL-2 receptor (IL-2R) are necessary for a long-term enhancement of Na/K pump. When present at the early stage of PDBu and ionomycin induction, cyclosporin A (CsA, 1 microgram/ml) inhibits the late increase in pump-mediated Rb influxes. However, when applied after the competence induction, CsA produced no effect on the flux increase at the progression stage. It is concluded that in activated human lymphocytes the functional expression of Na/K pump may by associated with IL-2-dependent progression of competent cells in the cell cycle.     

Corticosteroids inhibit the delivery of short-term activational pulses of phorbol ester and calcium ionophore to human peripheral T cells.

Although there is evidence that corticosteroids inhibit receptor-ligand-induced phospholipid hydrolysis, the immunosuppressive effects of these agents downstream of protein kinase C (PK-C) activation and cytosolic Ca2+ mobilization is unclear. Previous studies indicated that T cell proliferative activation could be achieved with simultaneous short-term (e.g., 15-120 min) exposure to agents activating PK-C and elevating cytosolic Ca2+. In the studies reported here, similar procedures were utilized for determining whether corticosteroids alter T cell activation signals downstream of second messenger events. Dexamethasone interfered with T cell activation induced by short-term exposure to phorbol 12,13-dibutyrate (PDBu) and the calcium ionophore, ionomycin. The inhibitory effect was evident with as little as 15 min of exposure to dexamethasone and T cell activating agents, making mechanisms involving de novo protein synthesis unlikely. Dexamethasone's effects in this system were blocked by the steroid receptor antagonist RU-486, indicating that the inhibition was mediated through the glucocorticoid receptor. The inclusion of recombinant interleukin-2 (IL-2) only partially overcame the dexamethasone inhibitory effect. Long-term (i.e., 48 hr) direct stimulation of PK-C with either PDBu or the non-tumor-promoting PK-C activator, bryostatin 1, also substantially overcame dexamethasone's effects, resulting in a recovery of IL-2 production and significant restoration of the T-cell proliferative response. These observations suggest that treatment with a PK-C-activating agent such as bryostatin 1 could reduce glucocorticosteroid-induced immunosuppression.     

Activation of human T lymphocytes by bryostatin

The immunologic effects of bryostatin (Bryo), a PKC activator with antineoplastic activity, were assessed and compared to PMA. Bryo induced IL-2R expression on CD4+ and CD8+ human T lymphocytes with a dose response comparable to PMA. However, Bryo induced only a marginal proliferative response as compared with the vigorous response induced by PMA. Bryo mediated functional receptor expression because the proliferative response was enhanced by addition of rIL-2. Furthermore, the proliferative response was inhibited by the relatively specific Ca+, phospholipid-dependent protein kinase (PKC) inhibitor, H-7, indicating a role of PKC in Bryo-induced activation. Addition of the calcium ionophore, ionomycin, to Bryo-stimulated lymphocytes resulted in the production and secretion of IL-2 with a concomitant proliferative response. This effect of the calcium ionophore could be inhibited by cyclosporine with identical results obtained in PMA-stimulated cultures. A most intriguing finding was that Bryo could effectively antagonize PMA-induced T cell proliferation. Although this mechanism of inhibition is unclear, a discussion with respect to differential effects on potential intracellular PKC isoforms is provided. These studies indicated that Bryo has potent immunopotentiating properties that share some similar effects of the phorbol ester, PMA, but offers the additional property of modulating other phorbol ester effects on proliferation.     

Comparison of the immunosuppressive properties of milk growth factor and transforming growth factors beta 1 and beta 2

The effects of the newly isolated bovine milk growth factor (MGF) which shows N-terminal homology to transforming growth factor beta 2 were compared with the effects of porcine transforming growth factor beta 1 and beta 2 (pTGF-beta 1 and -beta 2) on human T lymphocyte activation. Freshly isolated human PBMC were stimulated with either PHA, anti-CD3 + phorbol-12,13-dibutyrate (PDBu), or with a combination of ionomycin + PDBu. MGF, pTGF-beta 1, and pTGF-beta 2 decreased mitogen-induced [3H]thymidine incorporation by 30 to 75% in a dose-dependent manner. The maximum degree of inhibition was obtained at 1 ng/ml (40 pM) and could not be increased by increasing the concentration of teh transforming growth factor 10-fold. Stimulation of fresh T cells with the recall Ag tetanus toxoid was also inhibited (85%) by MGF at pM concentrations as was the proliferation of a human T cell clone specific for purified protein derivative. The effects of MGF and pTGF-beta 1 on anti-CD3-mediated increase of intracellular Ca2+ (Cai2+) was investigated by using the Fura-2 method. Neither MGF nor pTGF-beta 1 inhibited this increase in Cai2+ induced by a mitogenic concentration of anti-CD3 antibody. In order to determine whether TGF-beta preferentially inhibited the CD4+ or CD8+ subpopulation of human T cells, a limiting dilution analysis system, which allows every T cell to proliferate, was used. pTGF-beta 1 at a concentration of 5 ng/ml decreased the frequency of proliferating T cell precursors of both the CD4+ and CD8+ subsets to a similar extent. Furthermore, MGF, pTGF-beta 1, and pTGF-beta 2 also decreased IL-2 mediated [3H]thymidine incorporation into human PBL Con A blasts and the IL-4-mediated [3H]thymidine incorporation of purified T lymphocytes costimulated with PDBu by 70%. In conclusion, bovine MGF exerts suppressive effects on human T cells stimulated with Ag, mitogens, or interleukins, and the degree of T cell suppression is similar (or identical) to those of pTGF-beta 1 or -beta 2.     

Membrane potential changes associated with calcium signals in human lymphocytes and rat mast cells

Human lymphocytes and rat mast cells, two non-excitable cellular models, were used to investigate membrane potential changes accompanying Ca2+ signals. Cells were stimulated with agents known to induce both Ca2+ release from internal stores and influx of extracellular Ca2+, namely thapsigargin, ionomycin and compound 48/80. Thapsigargin and ionomycin were used to activate lymphocytes, while compound 48/80 was used to stimulate mast cells. Membrane potential changes and Ca2+ concentration were monitored with the fluorescent dyes bis-oxonol and fura-2, respectively. In lymphocytes, thapsigargin induced a hyperpolarization temporally correlated with the increase in intracellular Ca2+ concentration. This hyperpolarization is due to activation of a K+ conductance which consists of two phases, a first phase independent on external Ca2+ and a second one blocked in a Ca2+-free medium. Ionomycin induced a Ca2+-dependent depolarization attributed to a massive influx of external Ca2+. On the other hand, stimulation of mast cells with compound 48/80 produced a fast hyperpolarization and an increase in intracellular Ca2+ levels. Besides different time-courses, this hyperpolarization differs from that induced by thapsigargin in lymphocytes in two aspects, it is mainly due to a Cl(-)-entry current and exit of K+ and it is completely inhibited in the absence of extracellular Ca2+. Compound 48/80-induced histamine release is not related to membrane potential changes.     

Phenotypically and functionally distinct subsets of natural killer cells in human PBMCs

Human natural killer (NK) cells are one major component of lymphocytes that mediate early protection against viruses and tumor cells, and play an important role in immune regulatory functions. In this study, we demonstrated that human NK cells could be divided into four subsets, CD56hi CD16(-), CD56lo CD16(-), CD56+CD16+ and CD56(-)CD16+, based on the expression of cell surface CD56 and CD16 molecules. Phenotypic analysis of NK cell subsets indicated that the expression of activation markers, adhesion molecules, memory cell markers, inhibitory and activating receptors, and intracellular proteins (granzyme B and perforin) were heterogeneous. Following interleukin (IL)-2 stimulation, interferon-gamma was preferentially produced by CD56+CD16(-) NK cells and this subset showed more proliferative capacity. The cytolytic activity of both CD56+CD16(-) and CD56+/-CD16+ subsets could be augmented in response to IL-2. The data provided a new definition for NK cell subsets demonstrating their phenotypic and functional diversity and possible stage of NK cell differentiation in peripheral blood.     

Age-related defect in signal transduction during lectin activation of murine T lymphocytes

Interleukin 2 (IL-2) production and recognition are clearly involved in the age-associated proliferative defect of mitogen-stimulated T lymphocytes. The external signal delivered by mitogens is transmitted across the membrane via the release of two messenger molecules, diacylglycerol and inositol 1,4,5-trisphosphate (IP3), involved in the activation of protein kinase C (PK-C) and the elevation of cytosolic free Ca2+. In that Ca2+ mobilization and PK-C activation appear to be crucial events in the production of IL-2 and the expression of IL-2 receptors, a defect in transmembrane signaling would result in decreased synthesis and response to IL-2. We therefore examined PK-C activity and translocation, generation of inositol 1,4,5-trisphosphate, and cytosolic Ca2+ levels as a function of age in murine G0 T lymphocytes before and after exposure to mitogenic doses of concanavalin A (Con A). The basal levels and distribution of PK-C before and after direct activation of the enzyme by 2 or 20 nM phorbol myristate acetate were comparable in both age groups indicating no inherent age-associated functional defect in the enzyme. However, the Con A-induced PK-C translocation was reduced by 50% in cells from 24-mo-old animals. The Con A stimulation of G0 T lymphocytes increased free cytoplasmic Ca2+ concentration ([Ca2+]i) and the production of inositol phosphates to the same level, irrespective of the age of the donor. However, basal levels of both of these second messengers were consistently higher in lymphocytes derived from old mice. As a result, the net increase in inositol phosphates and [Ca2+]i was reduced by approximately the same extent as that observed for the translocation of PK-C. These results clearly point to an age-associated defect in the generation of phosphoinositide-derived second messengers and indicate that an alteration in signal transduction plays a primary role in the age-related impairment of the mitogen-induced, IL-2-mediated proliferative response of T lymphocytes.     

Thrombin and C-kinase activators potentiate calcium-stimulated arachidonic acid release in human platelets.

Human platelets were depleted of intracellular Ca2+ and then made selectively permeable to external Ca2+ by addition of the ionophore ionomycin. In this cell system a rapid release of arachidonic acid was seen in direct response to added Ca2+ at concentrations corresponding to cytosolic Ca2+ levels measured in thrombin-stimulated platelets. Thrombin and other activators of Ca2+/phospholipid-dependent protein kinase (C-kinase) potentiated the Ca2+-stimulated arachidonic acid release while exerting little or no effect in the absence of added Ca2+. Agents which increase (R59022) or decrease (isoquinolinesulphonylmethylpiperazine) the activation of C-kinase correspondingly enhanced or inhibited, respectively, the potentiation of arachidonic acid release caused by thrombin. These results support the hypothesis that arachidonic acid release in human platelets is regulated by a co-operative action between intracellular Ca2+ and C-kinase.     

Restricted expression of mitogen-induced high affinity IL-2 receptors in aging mice

Several lines of indirect evidence suggest that the number and/or affinity of IL-2R expressed by activated T lymphocytes declines with age and that this decline is implicated in the age-related proliferative impairment of Ag or mitogen-stimulated T cells. In an attempt to provide a direct demonstration of such a defect, various experimental approaches were used to analyze the expression of high and low affinity IL-2R as well as their functional properties in relation to age in purified populations of murine T lymphocytes. IL-2R were induced by Con A-activation which involves a transmembrane signaling mechanism or by exposure to phorbol dibutyrate (PDBu) which bypasses such a pathway. Consistent with the previously reported age-related defect in signal transduction, a major deficiency in the expression of high affinity IL-2R was observed in mitogen-activated cells derived from aged animals. As expected, PDBu-induction circumvented the transmembrane signaling defect and resulted in the restoration of a measurable amount of high affinity IL-2R expressed by cells from aged mice early after activation. The functional properties of the IL-2R expressed as a consequence of Con A or PDBu induction were investigated by assessing the proliferative response induced through the high affinity IL-2R as compared to that mediated by the beta-chain alone. Although Con A-induction resulted in a decreased expression of high affinity IL-2R by T lymphocytes derived from aged mice, the ability of these receptors as well as that of their beta-chain component to transmit a proliferative signal was identical in both age groups. In contrast, PDBu induced in both cell populations the expression of functionally aberrant IL-2R, unable to signal for proliferation unless excessively high concentrations of rIL-2 were available. The quantitative minimal estimate of the frequency of Con A-activated, IL-2-responsive cells showed a fourfold age-associated decrease, confirming the inability of a subpopulation of T lymphocytes from aged mice to express a sufficient density of high affinity IL-2R as a consequence of mitogenic activation.     

T cell activation via Leu-23 (CD69)

The CD69 (Leu-23) activation Ag is a phosphorylated 28 to 32-kDa disulfide-linked homodimer that is rapidly induced after lymphocyte activation. CD69 is not present on the surface of peripheral blood resting T cells, but is constitutively expressed by CD3bright thymocytes. Activation of protein kinase C (PKC) by stimulation of the TCR/CD3 or by phorbol esters directly induces CD69 expression on T cells. In the attempt to elucidate the function of CD69 we investigated the ability of the CD69 glycoprotein to transmit an activation signal. Cross-linking of CD69 by mAb induced a prolonged elevation of intracellular [Ca2+], mostly due to an influx of extracellular Ca2+. This signal alone was unable to effectively activate PKC. When PKC was simultaneously activated by PMA, stimulation of CD69 induced IL-2 and IFN-gamma gene expression, enhancement of CD25 expression, and ultimately IL-2-dependent T cell proliferation. Both CD4+ and CD8+ peripheral T cells responded to CD69-mediated activation. Stimulation of CD69 induced proliferation of thymocytes as well as peripheral T cells, but both required independent PKC activation by PMA. Cyclosporin A, which does not prevent PKC-induced CD69 expression, completely suppressed CD69-induced IL-2 and IFN-gamma gene expression. Although the signal delivered by the CD69 initiates T cell proliferation, it is unable to trigger cytotoxicity programs in CD69+-activated T cells or T cell clones.     

Augmentation of lymphocyte responses by monoclonal antibodies to the gangliosides GD3 and GD2: the role of protein kinase C, cyclic nucleotides, and intracellular calcium

Previous studies have shown that MAb's against the gangliosides GD3 and GD2 may augment T cell responses to a variety of stimuli. We present evidence that antiganglioside MAb's, like PHA, increase intracellular cGMP and protein kinase C yet have no effect on intracellular Ca2+. Stimulation of T cells with MAb's to GD3 was associated with increased cGMP levels, particularly in the CD8+ T cell subset which showed the highest degree of potentiation by the MAb's. Augmentation of T cell responses by the MAb's to GD3 and GD2 was also mimicked by activation of PKC with phorbol esters but both agents together produced marked synergistic effects on cell division, suggesting they had different but complementary modes of action. Furthermore, use of neomycin to inhibit PKC activation only partially reversed the augmentation of proliferative responses by the antiganglioside MAb's. It did however inhibit the MAb-induced increase in IL2 production and IL2 receptor (Tac) expression. These studies suggest therefore that the potentiation of IL2 production by the MAb's against GD2 and GD3 was due to enhanced activation of PKC whereas their augmentation of proliferative responses appeared to be due to effects on late events in T cell activation and was associated with both increased cGMP levels and activation of PKC.     

Time-dependent expression of CD25 in phytohemagglutinin- or interleukin-2-stimulated human peripheral blood lymphocytes

The dynamics of the expression of the high-affinity receptor for interleukin-2 (IL-2 receptor) evaluated by the method of flow cytofluorimetry based on changes in the number of cells that express the CD25 marker (CD25+) was studied in human peripheral blood lymphocytes stimulated by various mitogens. It has been shown that, in the resting lymphocyte culture, both phytohemagglutinin (PHA, 10 μg/ml) and 12,13-phorbol dibutyrate (PDBu, 10⁻⁸ M) with ionomycin (IM, 5 × 10⁻⁷ M) induce a long-lasting increase (for 48 h) in the number of CD25+ cells. Interleukin-2 (IL-2) has only been found to be capable of inducing time-dependent CD25 expression in competent (not resting) lymphocytes pretreated with submitogenic doses of PHA (1 μg/ml). A comparison of the dynamics of the number of CD25+ cells and blast transformation has shown that CD25 markers are revealed as early as on small stimulated lymphocytes, while, at the late activation stages, which correspond to the stage of cell growth and transition to DNA synthesis, the overwhelming majority of blasts are CD25+ cells with high-affinity α -receptors for IL-2. The obtained data allow one to suggest that the expression of an α -subunit of IL-2 receptor takes place at the IL-2-dependent stage of T lymphocyte proliferation and may be directly induced by IL-2 via IL-2 receptor.     

Mechanisms of T cell activation by the calcium ionophore ionomycin

We have investigated signaling mechanisms that may underlie the T cell mitogenic properties of the Ca2+ ionophore ionomycin. Ionomycin induces highly purified resting human T cells to proliferate in the presence of monocytes with accompanying IL-2R expression and IL-2 synthesis. Treatment of T cells with ionomycin triggers the hydrolysis of phosphoinositides, as evidenced by the accumulation of the hydrolytic by-products phosphatidic acid and inositol phosphates. Ionomycin also induces the activation of protein kinase C (PKC), as demonstrated by the auto-phosphorylation of PKC and the phosphorylation of the PKC target proteins CD4 and CD8. Ionomycin synergizes with PMA in enhancing the activation of PKC. It is concluded that, in addition to its putative activation of Ca2+/calmodulin-dependent signaling pathways, ionomycin induces the hydrolysis of phosphoinositides and the activation of PKC in human T cells. The synergy of ionomycin with phorbol esters in triggering T cell activation may relate, at least in part, to enhanced activation of PKC.     

Functional and immunological responses of Jurkat lymphocytes transfected with the substance P receptor

1. We have transfected the rat substance P receptor (SPR) cDNA into the leukemic T-lymphocyte cell line Jurkat (J-wt) in order to study the effects of substance P (SP) on lymphocyte signaling mechanisms and the resultant neuropeptide-induced immunological changes. 2. The SPR cDNA was transfected into J-wt by the method of electroporation. Clones expressing SPRs were selected using a functional assay that measured SP-induced mobilization of intracellular Ca2+ ([Ca2+]i) in a fluorescence activated cell sorter (FACS) and by their expression of specific 125I-SP binding. 3. One clone, J-SPR, was identified and shown by Northern blot and 125I-SP saturation binding techniques to express the 2.2-kb SPR message and approximately 50,000 SPRs/cell with a Kd of 0.3 nM, respectively. Stimulation of J-SPR by SP resulted in the rapid mobilization of [Ca2+]i. This response was dose dependent in the range 10(-11)-10(-6) M SP and was maximal at 10(-7) M SP, with an EC50 of 0.3-0.5 nM SP. We further demonstrated that the SPR is rapidly desensitized following SP stimulation and by activation of the cell's T-cell receptor (TCR). Whole-cell patch-clamp experiments on J-SPR show that SP stimulation induces a Cl- current by a Ca2+ mediated process dependent on Ca2+/calmodulin-dependent protein kinase (CaMK). 4. Stimulation of J-SPR by SP results in changes in the cell surface expression of a number of molecules that play important roles in cell adhesion and activation: the expression of LFA-1 is decreased, and CD2 and IL-2 receptors are increased by 30 min, 6 hr, and 24 hr, respectively, following stimulation, as assessed by antibody staining in a FACS. 5. The expression of functional SPRs in Jurkat lymphocytes will not permit a detailed examination of how the activation of SPRs result in altered immune responses and further elucidate the role this neuropeptide receptor plays in inflammation.     

Stimulation of AIDS lymphocytes with calcium ionophore (A23187) and phorbol ester (PMA): studies of cytoplasmic free Ca, IL-2 receptor expression, IL-2 production, and proliferation

We have studied whether the decreased lymphocyte proliferative responses of AIDS lymphocytes to stimulation by mitogens and antigens may be overcome when challenged with a combination of calcium ionophore A23187 and phorbol ester PMA. Comparison of the proliferative response of lymphocytes from nine patients with AIDS with the response of lymphocytes from nine control subjects showed that the response of AIDS lymphocytes was severely decreased when stimulated with PHA and no further response could be achieved by stimulation with A23187/PMA. On the other hand, no significant difference between the PHA-induced rise of cytoplasmic free calcium concentration ([Ca2+]1) in normal and AIDS lymphocytes was observed. The percentage of cells expressing IL-2 receptors (CD25) was also normal both after addition of PHA and after addition of A23187/PMA and the expression was normal on both CD4 and CD8 cells. The production of IL-2 in normal lymphocytes stimulated with A23187/PMA was 33 times higher than that after stimulation with PHA. In AIDS lymphocytes the production of IL-2 induced by all activators was severely decreased compared to control subjects, although the production of IL-2 after stimulation with A23187/PMA was higher than that in control lymphocytes after stimulation with PHA. The present study shows that a direct activation of protein kinase C combined with mobilization of cytoplasmic calcium does not overcome the lymphocyte proliferative deficiency of AIDS lymphocytes.     

Subpopulations of fetal thymocytes defined by expression of T cell receptor/CD3 and IL-2 receptor. CD3 and IL-2 receptor alpha-chain are expressed on reciprocal cell populations

The expression of the TCR/CD3 complex and the IL-2R alpha chain (p55) on fetal thymocytes has been analyzed by flow cytometry (FCM). Two-parameter immunofluorescence identified three subpopulations which were respectively IL-2R alpha-/CD3+, IL-2R alpha+/CD3-, or IL-2R alpha-/CD3-; no detectable population of IL-2R alpha+/CD3+ cells was found in unstimulated fetal thymocytes. Fractionation by "panning" and by sterile flow cytometric separation was used to characterize the functional responsiveness of these three subpopulations to a variety of stimuli. All three populations proliferated in response to PMA + ionomycin + rIL-2. In contrast, stimulation with anti-CD3 + IL-2 induced proliferation in IL-2R alpha-/CD3+ and IL-2R alpha-/CD3- but not in IL-2R alpha+/CD3- thymocytes. IL-2R alpha- cells, including sorted IL-2R alpha-/CD3- thymocytes, underwent a phenotypic change in response to in vitro stimulation with anti-CD3 + IL-2, resulting in the appearance of an IL-2R alpha+/CD3+ population that was not detected in freshly isolated thymocytes. The ability of fractionated fetal thymocytes to produce lymphokine in response to PMA + ionomycin was also evaluated. Only the IL-2R alpha-/CD3- fraction generated detectable IL-2. These findings demonstrate for the first time that CD3 and IL-2R alpha are expressed in a mutually exclusive fashion in fetal thymocytes and define three subpopulations of thymocytes that differ significantly in their proliferative and differentiative responses to TCR-mediated, IL-2R-mediated, and pharmacologic stimulation.