Stimulators and inhibitors of lymphocyte DNA synthesis in supernatants from human lymphoid cell lines.

Some T and B lymphoid cell lines (LCL) were found to secrete into their supernatants a substance able to stimulate lymphocyte proliferation. This substance produced an increase in [3H]thymidine uptake by mononuclear cells when added to unstimulated cultures (mitogenic effect) or when added to cultures stimulated with phytohemagglutinin (PHA) or pokeweed mitogen (PWM) (potentiating effect). When complete supernatants were used, the potentiating effect was sometimes masked by an inhibitor of DNA synthesis. Fractionation on Sephadex G-100 separated these two activities. The stimulatory substance eluted at a m.w. range of 15,000 to 30,000, and the inhibitor eluted with the albumin peak. B cells with or without monocytes were the most sensitive to the mitogenic effect, whereas T cells were unaffected. Responses to PHA and PWM were potentiated when T cells were present, but the maximum effect was observed when the proportion of T cells was less than 50%. The stimulatory material may be similar to lymphocyte mitogenic factor and may function as a T cell-replacing factor in B cell stimulation.     

Generation and characterization of continuous lines of CD8+ suppressor T lymphocytes

The ability to grow normal T lymphocytes in long term culture has advanced our understanding of T cell biology. The growth of CD4+ cell lines allowed a further evaluation and appreciation of functional subtypes within this group. Cytotoxic CD8+ T cells have been characterized as well. The routine and continuous culture of Ag-nonspecific CD8+ Ts cells has been difficult to achieve. We have found that CD8+ T cells that suppress T cell proliferation and lack cytotoxic activity against T cells can be routinely obtained from PWM or PHA-stimulated PBMC. Continuous culture of T cell blasts from PWM or PHA-stimulated PBMC resulted in the growth of CD4+ and CD8+ T cells. These lines developed suppressor cell activity within 7 days after stimulation with PWM and 3 to 4 wk after stimulation with PHA. Concomitant with the development of suppressor activity was the loss of CD4+ T cells resulting in homogeneous lines of CD8+ suppressor cells. These cell lines have been maintained in continuous culture for greater than 6 mo by addition of rIL-2 twice weekly and restimulation with feeder cells and PHA every 2 wk. Activity of these cell lines was relatively resistant to irradiation or treatment with mitomycin C. Both cell lines suppressed proliferation of autologous or heterologous CD4+ T cells stimulated with PWM, OKT3, or tetanus toxoid but failed to suppress proliferation of CD4+ T cells in a mixed lymphocyte reaction. CD4+ T cells stimulated with PWM produced equivalent amounts of IL-2 in the presence or absence of Ts cells but failed to express the IL-2R (TAC) on their surface in the presence of Ts cells. By contrast, CD4+ T cell lines or cytotoxic CD8+ T cell lines failed to suppress proliferation of CD4+ T cells. With these results we describe methods for the generation and continuous culture of Ag-nonspecific CD8+ Ts cells and define some of their properties. These cells lines should be helpful in further elucidating the functional and phenotypic repertoire of CD8+ Ts cells.     

Stimulation of chicken lymphocytes by T- and B-cell mitogens.

Cultures of chicken spleen, peripheral blood, thymus, and bursal lymphocytes were tested for mitogenic stimulation by phytohaemagglutinin (PHA), concanavalin A (ConA), pokeweed mitogen (PWM), bacterial lipopolysaccharide (LPS), trypsin, and insulin. Spleen and blood leukocytes were stimulated by both the lectins and LPS, and also to some degree by trypsin and insulin as judged by increased incorporation of [³H]thymidine into acid-insoluble material. This was observed in cultures incubated in serum-free medium as well as in the presence of foetal bovine serum or autologous plasma. Thymus cells were reproducibly stimulated by high concentrations of PHA. No significant responses were obtained in bursal cell cultures with any of the compounds tested. Removal of cotton wool-adherent cells from the spleen cell suspensions resulted in a subpopulation of cells which were stimulated by PHA but showed little response to ConA, PWM, or LPS. This procedure did not remove surface immunoglobulin-bearing cells from the original suspension. Both these enriched spleen lymphocytes and the unfractionated spleen, blood and thymus leukocyte cultures were effectively stimulated by a partially purified PHA but with a highly purified PHA preparation only at very high concentrations. These and other results suggest that the mitogenic components in crude PHA preparations are different for chicken and human or mouse cells.     

Proliferation of peripheral blood mononuclear cells causes increased expression of the sodium-dependent multivitamin transporter gene and increased uptake of pantothenic acidopen star

Antigenic or mitogenic stimulation of peripheral blood mononuclear cells (PBMC) causes rapid cell proliferation. PBMC proliferation is associated with increased activities of pantothenic acid-dependent metabolic pathways, suggesting increased demand for pantothenic acid. We sought to determine whether PBMC respond to proliferation by increased cellular uptake of pantothenic acid and, if so, by what mechanism(s) the increased uptake is mediated. Uptake of pantothenic acid into PBMC was mediated by the sodium-dependent multivitamin transporter, SMVT, as judged by sodium dependency of uptake, substrate affinity and specificity, and RT-PCR of PBMC RNA. Proliferating PBMC accumulated two times more [3H]pantothenic acid than quiescent PBMC. Rates of [3H]pantothenic acid uptake paralleled rates of PBMC proliferation, as judged by uptake of [3H]thymidine. The increased uptake of [3H]pantothenic acid into proliferating PBMC was mediated by increased expression of SMVT (as judged by RT-PCR using total RNA from PBMC), leading to an increased number of transporters on the cell surface (as judged by maximal transport rates for pantothenic acid). We conclude that proliferating PBMC increase expression of the gene encoding SMVT to increase uptake of pantothenic acid.     

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.     

Human T lymphocyte activation in the presence of acute myelogenous leukaemia blasts; studies of normal polyclonal T cells and T lymphocyte clones derived early after allogeneic bone marrow transplantation

 T cell clones (CD4⁺CD8^–TCRαβ⁺γδ^–) derived from bone marrow transplant recipients were stimulated with phytohaemagglutinin (PHA) +interleukin-2 (IL-2) in the presence of irradiated (50 Gy) peripheral blood mononuclear cells (PBMC) derived from acute leukaemia patients(leukaemic PBMC containing more than 95% blast cells). Leukaemic PBMC could function as accessory cells during mitogenic T cell activation resulting in both T cell proliferation and a broad T cell cytokine response [IL-3, IL-4, IL-10, granulocyte/macrophage-colony-stimulating factor (GM-CSF) tumour necrosis factor α (TNFα) and interferon γ (IFNγ) secretion]. Blockade of IL-1 effects by adding IL-1 receptor antagonist together with PHA+IL-2+leukaemia blasts increased T cell proliferation, whereas IL-6-neutralizing antibodies did not alter T cell proliferation. A qualitatively similar T cell cytokine response and a similar cytokine profile (highest levels detected for GM-CSF and IFNγ) were detected when normal polyclonal T cell lines were stimulated with PHA in the presence of non-irradiated leukaemic PBMC. When leukaemic PBMC derived from 18 acute myelogenous leukaemia patients were cultured with PHA and cells from a polyclonal T cell line, increased concentrations of the T cell cytokines IFNγ and IL-4 were detected for all patients. We conclude that T cell activation resulting in proliferation and a broad cytokine response can take place in the presence of excess acute myelogenous leukaemia blasts. Received: 30 November 1995 / Accepted: 9 January 1996     

Bacteria-derived human leukocyte interferons alter in vitro humoral and cellular immune responses

Cultures of gradient-purified human peripheral blood mononuclear cells (PBMC) have been employed to examine the effects of three bacteria-derived human leukocyte interferon subtypes on certain aspects of in vitro immune responses. The addition of highly purified IFN-alpha 1, -alpha 2, -alpha 2/alpha 1 to PMBC cultures stimulated with phytohemagglutinin (PHA) or pokeweed mitogen resulted in a significant suppression of the mitogenic response. This suppression required the presence of interferon in the cultures because pretreatment of cells and removal of interferon had no effect on their response to PHA. The presence of these interferons at 200 U/ml also caused a substantial reduction of human mixed-lymphocyte reactions (MLR) as measured by [3H]thymidine incorporation by responder cells. Interestingly, pretreatment of stimulator cells was sufficient for this reduction to occur whereas pretreatment of responder cells had no effect on their ability to respond to allogenic stimulation. In contrast to these suppressive effects, the three interferons enhanced human in vitro primary immune response to sheep red blood cells (SRBC). These data demonstrate that both purified interferon subtypes and genetic hybrids of human interferons produced by recombinant DNA technology have effects on in vitro immune responses.     

Homogentisic acid autoxidation and oxygen radical generation: implications for the etiology of alkaptonuric arthritis

The metabolic disorder, alkaptonuria, is distinguished by elevated serum levels of 2,5-dihydroxyphenylacetic acid (homogentisic acid), pigmentation of cartilage and connective tissue and, ultimately, the development of inflammatory arthritis. Oxygen radical generation during homogentisic acid autoxidation was characterized in vitro to assess the likelihood that oxygen radicals act as molecular agents of alkaptonuric arthritis in vivo. For homogentisic acid autoxidized at physiological pH and above, yielding superoxide (O2-)2 and hydrogen peroxide (H2O2), the homogentisic acid autoxidation rate was oxygen dependent, proportional to homogentisic acid concentration, temperature dependent and pH dependent. Formation of the oxidized product, benzoquinoneacetic acid was inhibited by the reducing agents, NADH, reduced glutathione, and ascorbic acid and accelerated by SOD and manganese-pyrophosphate. Manganese stimulated autoxidation was suppressed by diethylenetriaminepentaacetic acid (DTPA). Homogentisic acid autoxidation stimulated a rapid cooxidation of ascorbic acid at pH 7.45. Hydrogen peroxide was among the products of cooxidation. The combination of homogentisic acid and Fe3+-EDTA stimulated hydroxyl radical (OH.) formation estimated by salicylate hydroxylation. Ferric iron was required for the reaction and Fe3+-EDTA was a better catalyst than either free Fe3+ or Fe3+-DTPA. SOD accelerated OH. production by homogentisic acid as did H2O2, and catalase reversed much of the stimulation by SOD. Catalase alone, and the hydroxyl radical scavengers, thiourea and sodium formate, suppressed salicylate hydroxylation. Homogentisic acid and Fe3+-EDTA also stimulated the degradation of hyaluronic acid, the chief viscous element of synovial fluid. Hyaluronic acid depolymerization was time dependent and proportional to the homogentisic acid concentration up to 100 microM. The level of degradation observed was comparable to that obtained with ascorbic acid at equivalent concentrations. The hydroxyl radical was an active intermediate in depolymerization. Thus, catalase and the hydroxyl radical scavengers, thiourea and dimethyl sulfoxide, almost completely suppressed the depolymerization reaction. The ability of homogentisic acid to generate O2-, H2O2 and OH. through autoxidation and the degradation of hyaluronic acid by homogentisic acid-mediated by OH. production suggests that oxygen radicals play a significant role in the etiology of alkaptonuric arthritis.     

The ApoCorrect assay: a novel, rapid method to determine the biological functionality of radiolabeled and fluorescent Annexin A5

N-[4-(3)H]Benzoylglycylglycylglycine ([(3)H]BzG(3)) was tested as a probe for detecting hydroxyl radicals (*OH). Aerated solutions of l-ascorbate generated *OH, which oxidized [(3)H]BzG(3), yielding hydrophilic (probably hydroxylated) derivatives plus tritiated water. The (3)H(2)O was separated from organic products and remaining [(3)H]BzG(3) on Dowex-1. (3)H(2)O production was much greater with *OH than with other reactive oxygen species (ROS) (e.g., H(2)O(2), superoxide). The slight (3)H(2)O production in the presence of H(2)O(2) or superoxide was blocked by *OH scavengers (e.g., glycerol, mannitol, butan-1-ol) that do not scavenge H(2)O(2) or superoxide. This indicates that (3)H(2)O production was caused by *OH and that other ROS only generated any (3)H(2)O by forming traces of *OH. Doses of *OH that caused detectable nonenzymic polysaccharide scission also caused (3)H(2)O production, indicating that [(3)H]BzG(3) is a sensitive *OH probe in studies of polymer scission. The ability of scavengers and chelators to protect against ascorbate-mediated polysaccharide scission paralleled their ability to inhibit concurrent (3)H(2)O production, indicating that both processes were due to *OH. Thus, [(3)H]BzG(3) is a simple, specific, sensitive, and robust probe for detecting *OH production in vitro. It may have applications for in vivo detection of extracellular *OH in arthritic joints and of apoplastic *OH in plant cell walls.     

The co-oxidation of ammonia to nitrite during the aerobic xanthine oxidase reaction

The xanthine oxidase reaction causes a co-oxidation of NH3 to NO2-, which was inhibitable by superoxide dismutase, catalase, hydroxyl radical scavengers, or by the chelating agents, desferrioxamine or diethylene triaminepentaacetic acid. Hydroxylamine was oxidized to NO2- much more rapidly than was NH3, and in this case superoxide dismutase or the chelating agents inhibited but catalase or the HO. scavengers did not. Hydrazine was not detectably oxidized to NO2-, and NO2- was not oxidized to NO3-, by the xanthine oxidase reaction. These results are accommodated by a reaction scheme involving (a) the metal-catalyzed production of HO. from O2- + H2O2; (b) the oxidation of H3N to H2N. by OH.; (c) the coupling of H2N. with O2- to yield peroxylamine, which hydrolyzes to hydroxylamine plus H2O2; (d) the metal-catalyzed oxidation of HO-NH2 to (Formula: see text), which couples with O2- to yield (Formula: see text), which finally dehydrates to yield NO2-.     

DNA damage and lethal effects of hydrogen peroxide and menadione in Chinese hamster cells: distinct mechanisms are involved

Menadione (Md)-resistant variants of V79 Chinese hamster cells were derived by culturing cells in progressively higher concentrations of this drug. Along with Md resistance these cells acquired cross-resistance to H2O2, which was retained when cells were cultured back in the absence of Md for 18 cell passages. This indicates that some stable alteration is responsible for the modification and may suggest that the toxicity of Md is mediated by oxygen activation. In agreement with the latter a 2.8-fold increase in catalase activity and a 1.5-fold increase in glutathione content were observed in Md-resistant cells as compared to parental cells, whereas superoxide dismutase and glutathione peroxidase remained unaltered. The use of inhibitors of Fenton reaction, inhibitors of enzymatic and nonenzymatic lipid peroxidation and OH radical scavengers, indicated that both DNA damage and cytotoxic effects of H2O2 and Md are mediated by OH radical, without intervention of lipid peroxides. However whereas the catalysis by iron was required for toxicity of extracellular H2O2, it was not involved in Md-induced toxicity. Possible explanations for this difference have been considered, one of them assuming that an excess of the semiquinone form of Md in the cell might replace iron II as a H2O2 reductant, producing OH radical by an organic Fenton reaction.     

Effect of T3 modulation on pokeweed mitogen-induced T cell activation: evidence for an alternative pathway of T cell activation

Modulation of the T3 molecule on human T cells with monoclonal anti-T3 antibodies has been shown to result in the disappearance of the T3-Ti complex from the membrane and to preclude subsequent T cell activation by various mitogenic and antigenic stimuli. We have examined the effect of T3 modulation on pokeweed mitogen (PWM)-induced T cell activation. T3 modulation was accomplished by incubating peripheral blood mononuclear cells (PBMC) or mixtures of T cells and non-T cells at 37 degrees C for 18 hr in the presence of UCHT-1, a mouse IgG1 anti-T3 monoclonal antibody. Only donors whose PBMC were unresponsive to the mitogenic activity of this antibody were selected. Although T3 modulation resulted in complete to substantial inhibition of T cell proliferation induced by low PWM concentrations of 5 or 50 ng/ml, it had no effect on T cell proliferation when PWM was added at a concentration of 0.5 and 5 micrograms/ml. The results demonstrate that the higher doses of PWM can induce T cell proliferation via an alternative pathway that does not involve participation of the T3-Ti complex. In contrast, irrespective of the PWM dose added, T3 modulation almost totally inhibited PWM-induced interleukin 2 (IL 2) production. The differential effect of T3 modulation on IL 2 production and on T cell proliferation induced by high doses of PWM suggests that this alternative pathway of T cell proliferation is IL 2 independent. This suggestion was additionally substantiated by the lack of effect of anti-Tac, and anti-IL 2 receptor antibody, on PWM-induced proliferation of T3-modulated T cells. In conclusion our data demonstrate that high doses of PWM can induce T cells to proliferate via an alternative pathway that does not involve perturbation of the T3-Ti complex.     

Evidence that hydroxyl radicals mediate auxin-induced extension growth

Reactive oxygen intermediates, i.e. the superoxide radical (O*-)(2), hydrogen peroxide (H2O2) and the hydroxyl radical (*OH), are generally regarded as harmful products of oxygenic metabolism causing cell damage in plants, animals and microorganisms. However, oxygen radical chemistry may also play a useful role in polymer breakdown leading to wall loosening during extension growth of plant cells controlled by the phytohormone auxin. Backbone cleavage of cell wall polysaccharides can be accomplished in vitro by (*OH) produced from H2O2 in a Fenton reaction or in a reaction catalyzed by peroxidase supplied with O2 and NADH. Here, we show that coleoptile growth of maize seedlings is accompanied by the release of reactive oxygen intermediates in the cell wall. Auxin promotes release of (O*-)(2) and subsequent generation of (*OH)when inducing elongation growth. Experimental generation of (*OH) in the wall causes an increase in wall extensibility in vitro and replaces auxin in inducing growth. Auxin-induced growth can be inhibited by scavengers of (O*-)(2), H2O2 or (*OH), or inhibitors interfering with the formation of these molecules in the cell wall. These results provide the experimental background for a novel hypothesis on the mechanism of plant cell growth in which (*OH), produced from (O*-)(2) and H2O2 by cell wall peroxidase, acts as a wall-loosening agent.     

Stimulation and inhibition of human T cell subsets by wheat germ agglutinin

Wheat germ agglutinin (WGA), a tetravalent lectin, has both stimulatory and inhibitory effects on human T lymphocytes. It has been suggested that these actions are related and that WGA selectively stimulates a suppressive subset of T cells. We studied the ability of WGA to stimulate and inhibit subpopulations of human peripheral blood mononuclear cells (PBMC) known to have helper or suppressor activity. Fresh human PBMC were depleted of either T4+ or T8+ cells by using antibody-mediated complement lysis. The resultant cell populations were stimulated with WGA, and the proliferative response was assessed by [3H]thymidine incorporation, IL 2 receptor expression, the ability to elaborate IL 2 in culture supernatants, and the susceptibility to inhibition by the monoclonal antibody anti-Tac. Similar experiments with cells from a WGA-responsive continuous T cell culture were also performed. WGA inhibited phytohemagglutinin (PHA)-induced proliferation of PBMC depleted of either T4+ or T8+ cells. WGA also inhibited PBMC that had been depleted of adherent cells and Ia+ cells and then induced to proliferate with a combination of TPA and PHA. Our findings indicate that WGA induces IL 2-dependent proliferation in a small proportion of both T4+ and T8+ lymphocytes. We also provide evidence that the inhibitory activity of WGA is not mediated by a T4+, T8+, or Ia+ cell, suggesting that WGA acts directly on the proliferating cell rather than selectively stimulating a suppressive subpopulation.     

Manganese complexes and the generation and scavenging of hydroxyl free radicals

In a wide variety of biological systems non-enzyme complexes of the metals copper (Cu) and iron (Fe) have been shown to enhance oxygen radical damage by increasing the production of an oxidative species generally believed to be the hydroxyl free radical (.OH) via "Fenton" and possibly "Haber-Weiss" type reactions. However, the behavior of the chemically and biologically similar transition metal manganese (Mn) with .OH is unknown. Unlike Fe and Cu, inorganic complexes of Mn are known to exist in high concentrations in certain cells. Three different oxygen free radical generating systems and four .OH detection methods were used to investigate the activity of biologically relevant inorganic Mn complexes. These complexes were compared to compounds reported to scavenge and generate .OH. The direct and indirect effects of Mn on the .OH flux were compared by attempting to distinguish the effects of hydrogen peroxide (H2O2), superoxide (O2-), and .OH through the use of selective scavengers and generators. Mn-EDTA and biologically relevant Mn-pyrophosphates and polyphosphates, in contrast to Fe-EDTA, do not generate .OH in these systems. The results suggest that Mn in various forms does, indeed, inhibit oxy-radical damage mediated by .OH, but only if the .OH production is dependent on the presence of O2- or H2O2. Thus, with .OH, as with O2- and H2O2, Mn complexes appear to behave in a fundamentally different fashion from Cu and Fe.     

The role of the thymus in maturational development of phytohemagglutinin and pokeweed mitogen responsiveness

A sensitive culture system for measuring lymphocyte transformation under physiological conditions by thymidine incorporation into DNA has been developed to study mouse and chick cell responses to mitogens. Both phytohemagglutinin (PHA) and pokeweed mitogen (PWM) stimulated thymus and spleen lymphocytes. Reduced but definite responses were obtained with lymph nodes, but negligible response with bone marrow cells.Thymocytes of newborn mice did not respond to PHA, but responded well to PWM. PHA responsiveness of thymocytes increased with aging until 12 weeks of postnatal life and then decreased in older animals. The level of background thymidine incorporation increased with advancing age. Spleen cells of 2-week-old mice were transformed by PHA and PWM, but in contrast to mouse thymus there was no decrease in older animals.Neonatal thymectomy of mice reduced the response of spleen cells to both PHA and PWM, especially in younger animals. The reduction was almost complete in the case of the PHA response, but only partial with the PWM response. Spleen cells from bursectomised chickens, checked for absence of B cell function, still responded well to both PWM and PHA.The results suggest PHA is a marker for T-lymphocytes in a certain “mature” stage of differentiation. PWM appears to stimulate a wider spectrum of cells.     

Effect of thyrotropin-releasing hormone on immune functions of peripheral blood mononuclear cells

The tripeptide thyrotropin-releasing hormone (TRH) works as a hypothalamic hormone, but is found also outside the brain in intrinsic nerve fibers of the gastrointestinal tract. There is evidence that TRH modulates the activity of immunocompetent cells, although there are only very few data on TRH-mediated immune effector functions. Since we could recently show that TRH inhibits monocyte activities we were also interested in other possible TRH modulated immune functions. Peripheral blood mononuclear cells (PBMC) from ten healthy subjects were cultured for 7 days and pulsed with 0.125 and 0.250 microgram/ml Pokeweed mitogen (PWM). 10(-12) to 10(-6) M TRH was added simultaneously with PWM. Lymphocyte proliferation [(3H]thymidine incorporation), interferon-gamma (IFN-gamma) activity (RIA) and immunoglobulin activities (IgG, IgM, IgA; ELISA) were determined in the supernatants. We could demonstrate a TRH-dependent decrease in PWM-pulsed IgG activity with significant (alpha = 0.05) values at 10(-8) and 10(-10) M (-29 +/- 6%/-16 +/- 3% for PWM 0.125 microgram/ml and -17 +/- 9%/-11 +/- 9% for PWM 0.250 microgram/ml). This inhibitory effect could be abolished by an anti-TRH antiserum. There was no TRH effect on IgM and IgA activities, IFN-gamma activity and lymphocyte proliferation compared with the PWM stimulated values alone. The described TRH effect on the polyclonal IgG response by PBMC gives further evidence for a functional link between the immune system and the endocrine system, although its underlying mechanism is not yet clear.     

HIV-induced immunodeficiency. Relatively preserved phytohemagglutinin as opposed to decreased pokeweed mitogen responses may be due to possibly preserved responses via CD2/phytohemagglutinin pathway

We studied the proliferative response of PBL to the mitogens PHA and PWM and Candida albicans Ag in 301 HIV seropositive homosexual men, of whom 55 had AIDS. The responses to PHA were reduced only in the clinically ill HIV seropositive subjects. In contrast, the responses to PWM were profoundly reduced in most HIV seropositive subjects including the asymptomatic group. Further analysis of 16 HIV seropositive subjects showed that the proliferative responses were reduced in both CD4 and CD8 T cell subsets. A total of 15 HIV seropositive individuals with low responses to PWM, of whom seven had AIDS and eight controls were chosen for the following studies. Expression of T3, Ti, delta receptors, and CD2 was investigated and showed an increased percentage of CD2 receptors positive cells in HIV seropositive subjects without AIDS. The proliferative responses of PBL to stimulation with PHA, PWM, antibodies to CD3, or antibodies to CD2 were investigated and showed significant correlation in controls, whereas in contrast, only the responses to PHA and CD2ab correlated in patients with AIDS. The proliferative responses to CD2ab and CD3ab in controls were larger than the responses to both PHA and PWM. In patients, these responses were less suppressed than the responses to PWM indicating that stimulation with mitogens is more complex than a simple stimulation of Ti/T3 and CD2 receptors. Further investigations were done on resting T cells, i.e., lymphocytes depleted of macrophages and pre-activated cells. Addition of PHA to these cells resulted in preactivation with expression of IL-2R (CD25) but not in proliferation. In contrast, addition of PHA plus SRBC, which bind to the CD2 receptors caused IL-2R expression, IL-2 production, and proliferation. Addition of PWM + SRBC did not result in proliferation. A comparison of the responses to PHA + SRBC of resting T cells from 26 HIV seropositive individuals, of whom seven had AIDS and 12 seronegative controls, showed that these responses were normal or only slightly decreased in the 19 seropositive men without AIDS whereas it was decreased in AIDS patients. Nevertheless, all AIDS patients showed clear-cut responses in this assay. Thus, the discrepancy between responses to PHA and PWM may be explained by an at least partially preserved function of the PHA/CD2-dependent pathway. We suggest that the defect induced by the HIV infection primarily concerns T3/Ti-induced responses.     

Interleukin 2 receptor expression by T cells in human aging

Aged individuals have depressed cell-mediated immunity and diminished T cell proliferation to mitogenic and antigenic stimuli. Because T cell responses depend on the surface expression and normal function of interleukin 2 receptors, we measured the quantities and affinities of cell surface IL-2R and the amount of soluble IL-2R alpha chain (p55) release in vitro in PHA-stimulated mononuclear cells from healthy aged (greater than or equal to 65 years old) and young (less than or equal to 39 years old) donors. At the peak of the PHA response, the fraction of cells expressing IL-2R alpha chain (CD25+) was lower in the aged (43% vs 56%, P = 0.033). Relative to the lower proliferation and CD25 expression, old donor cells released unexpectedly high quantities of soluble alpha chain into culture supernatants. However, the average affinities and the mean numbers of high- and low-affinity surface receptors per CD25+ cell were equivalent in cells from eight pairs of aged and young donors (1850 vs 1586 high affinity, and 20,655 vs 23,466 low affinity, P greater than 0.2 for both). The soluble IL-2R released by stimulated cells had no effect on proliferative responses, because addition of saturating doses of exogenous recombinant IL-2 did not increase cellular proliferation, and addition of soluble anchor-minus recombinant IL-2R alpha chain did not suppress it. These results indicate that in healthy older individuals, diminished numbers of T cells can be induced to express cell surface IL-2R following mitogenic stimulation, although aged CD25+ can express a normal complement of IL-2R molecules. In the aged, either CD25+ cells release excessive quantities or a subset of cells synthesizes and releases soluble IL-2R alpha chain into the extracellular environment without expressing it on the cell surface.