C-fos, c-myc and IL-2R mRNA expression in PHA activated T lymphocytes treated with a monoclonal anti-HLA class I antibody (MAb 01.65)

Monoclonal anti HLA class I antibodies inhibit the proliferative response of PHA-stimulated T lymphocytes. We studied the effects of MAb 01.65 anti-HLA class I on c-fos, c-myc and IL-2R mRNA expression. We found that MAb treatment does not modify either c-fos mRNA levels observed after 10 minutes to 3 hrs or the early c-myc mRNA expression revealed after 1 to 6 hrs, but decreases the intensity of autoradiographic signals of late c-myc and IL-2R mRNA expression. Since we had previously ascertained that MAb 01.65 treatment induces a decrease in PKC enzymatic activity after few minutes, the correlation of that result with the data presented in this paper will be discussed.     

Anchored anti-HLA class I monoclonal antibody fails to induce inhibition of PHA-activated lymphocytes proliferation.

It is known that anti-HLA Class I antibodies inhibit the proliferative response of PHA-activated T-lymphocytes. We found that plastic- or sepharose-linked anti-HLA Class I monoclonal antibody 01.65 does not inhibit either [3H]Thymidine incorporation or recruitment in the cell cycle, nor does it reduce the expression of c-myc mRNA and the membrane expression of Interleukin-2 Receptor and Transferrin Receptor. Furthermore, particulate Protein Kinase C is not affected by anchored anti-HLA Class I monoclonal antibody 01.65. We suggest that anti-HLA Class I monoclonal antibody may act through crosslinking or internalization of HLA Class I antigens.     

Inhibition by anti-HLA class II monoclonal antibodies of monoclonal antibody OKT3-induced T cell proliferation. Studies at the mRNA level

mAb to monomorphic determinants of HLA class II Ag have been shown to inhibit monocyte-dependent OKT3-induced T cell proliferation, indicating that MHC class II molecules play a regulatory role also in Ag nonrestricted, CD3-induced T cell proliferation. This effect involves several steps in the process of T cell activation and proliferation, including IL-1 beta, IL-6, and IL-2 secretion and IL-2R alpha expression. In the present study, we analyzed the effect of an anti-HLA class II mAb (Q5/6) on the mRNA expression of genes related to monocyte and T cell activation. mRNA levels for early (early c-myc, c-fos) and late (late c-myc, N-ras, c-myb) genes involved in T cell activation were determined as well as mRNA levels for IL-1 beta, IL-6, IFN-gamma, IL-2, and IL-2R alpha. The kinetics of mRNA induction for ICAM-1 was also investigated. The results show that in T lymphocytes the expression of c-fos and early c-myc mRNA was unaffected by mAb Q5/6, whereas the c-myb and N-ras mRNA levels were strongly diminished as well as those of IL-2, IL-2R alpha, and IFN-gamma mRNA. An early increase of ICAM-1 mRNA was partially inhibited. In monocytes, a marked reduction of IL-1 beta and IL-6 mRNA was found. It is concluded that the HLA class II determinant involved in the inhibition mechanism can be engaged in the control of IL-1 beta and IL-6 mRNA levels and constitute an accessory signal up-regulating IL-2 and IL-2R alpha gene activation, through a pathway not affecting c-myc and c-fos expression.     

IL-12 receptor. I. Characterization of the receptor on phytohemagglutinin-activated human lymphoblasts.

IL-12 is a 75-kDa heterodimeric cytokine composed of disulfide-bonded 35-kDa and 40-kDa subunits. Included among the biologic activities mediated by IL-12 is induction of proliferation of PHA-activated human PBL. The concentration of IL-12 required to stimulate maximum proliferation of PHA-activated lymphoblasts is 50 to 100 pM. In this study, highly purified 125I-labeled IL-12 (7 to 15 microCi/microgram; 50 to 100% bioactive) was used to characterize the receptor for IL-12 on 4-day PHA-activated lymphoblasts. The binding of 125I-labeled IL-12 to PHA-activated lymphoblasts was saturable and specific because the binding of radiolabeled ligand was only inhibited by IL-12 and not by other cytokines. The kinetics of [125I]IL-12 binding to PHA-activated lymphoblasts was rapid at both 4 degrees C and 22 degrees C; reaching equilibrium within 60 min. At 22 degrees C, the rate of dissociation of [125I]IL-12 was slow in the absence of competing IL-12 (t1/2 = 5.9 h) and more rapid in the presence of 25 nM competing IL-12 (t1/2 = 2.5 h). The kinetically derived equilibrium dissociation constant ranged from 10 to 83 pM. Analysis of steady state binding data by the method of Scatchard identified a single binding site with an apparent equilibrium dissociation constant of 100 to 600 pM and 1000 to 9000 sites/lymphoblast. The equilibrium dissociation constant for competing ligands and sites per cell calculated from unlabeled IL-12 competition experiments ranged from 164 to 315 pM and 1067 to 3336, respectively, which is in good agreement with the values determined from steady state binding. The variations in KD and sites per cell were dependent on the individual preparations of lymphoblasts. Although the steady state binding data were consistent with a single class of high affinity binding sites, the kinetic dissociation data indicates a cooperative interaction between receptors on PHA-activated lymphoblasts. Affinity cross-linking of surface bound [125I]IL-12 to PHA-activated lymphoblasts at 4 degrees C identified a major complex of approximately 210 to 280 kDa. Anti-IL-12 antibodies also immunoprecipitated a complex of approximately 210 to 280 kDa that was produced by cross-linking unlabeled IL-12 to 125I-labeled lymphoblast cell-surface proteins. Cleavage of this complex with reducing agent identified one radiolabeled protein of approximately 110 kDa. These data suggest that the IL-12 binding site on PHA-activated lymphoblasts may be composed of a single protein of approximately 110 kDa.(ABSTRACT TRUNCATED AT 400 WORDS)     

Suppression of interleukin-2 production by human concanavalin A-induced suppressor cells

When PHA-activated normal responder cells (R cells) were cocultured with mononuclear cells (MN cells) which had been preincubated for 48 hr in medium alone (C cells) an enhanced proliferative response was observed. This enhancement was only obtained when the R cells were cultured with allogeneic C cells or when PHA was in the cocultures for the entire culture period. This effect was due to greater production of interleukin 2 (IL-2) by irradiated C cells in the presence of allogeneic or mitogenic stimulation. Con A-treated mononuclear cells (S cells) cultured with PHA-activated allogeneic or autologous responder cells showed reduced [3H]thymidine incorporation and IL-2 production as compared to activated R cells alone. Glutaraldehyde-treated S cells (which retained the ability to absorb IL-2) did not affect the proliferative response or IL-2 production by the R cells, indicating that passive absorption of IL-2 was not entirely responsible for suppression induced by S cells. S cells, pretreated with IL-2, still inhibited R-cell activity. These results show that Con A-treated MN cells suppressed or prevented [3H]thymidine incorporation by actively inhibiting IL-2 production.     

Abnormalities of lymphokine gene expression in patients with common variable immunodeficiency

Common variable immunodeficiency (CVI) is a syndrome characterized by hypogammaglobulinemia, recurrent bacterial infections, and increased occurrence of both autoimmune disease and malignancy. In our study we examine the expression of lymphokine genes in mitogen-activated T cells from four patients with CVI. T cells from patients with CVI did not differ significantly from normals in total T cell number, CD4/CD8 ratio, CD45R expression, or proliferation in response to PHA. However, T cells from this group of patients did exhibit significant abnormalities of mitogen-induced lymphokine gene expression. T cells from patients exhibited significantly decreased expression of IL-2, IL-4, IL-5, and IFN-gamma when compared to normal controls. In contrast to these abnormal findings, mitogen-activated T cells from patients with CVI expressed normal amounts of IL-2R alpha and c-myc suggesting that these patients have a selective abnormality of T cell activation. Furthermore, it is likely that the deficient production of IFN-gamma by patient T cells is partially due to the abnormality of IL-2 production as the levels of IFN-gamma mRNA detected during the initial IL-2-independent phase of T cell activation were normal and the addition of exogenous rIL-2 was able to normalize IFN-gamma production by PHA-stimulated patient cells. Finally, supernatants from PHA-activated cultures of patients PBMC were deficient in their ability to support Ig secretion by Staphylococcus A Cowan's-activated normal B cells suggesting that these T cell abnormalities may contribute to the pathogenesis of this syndrome.     

A cell-free Salmonella typhimurium extract modulates interleukin-2 (IL-2) receptor expression but not IL-2-stimulated responses of murine splenic lymphocytes

Abstract In a previous study, we observed that a cell-free Salmonella typhimurium extract induced suppression of mitogen-induced T-cell proliferation and this suppression involved non-responsiveness of T-cells to interleukin-2 (IL-2). In this study, we found that a cell-free S. typhimurium extract modulated IL-2 receptor (IL-2R) expression on phytohemagglutinin (PHA)-stimulated murine spleen cells and this was a mechanism of T-cell non-responsiveness to IL-2, but did not affect IL-2 binding to IL-2R and the consequent responses. Western blotting using anti-phosphotyrosine antibodies showed that IL-2R-mediated tyrosine phosphorylation of protein substrates in PHA-activated murine splenic T-cells, which express a high-affinity IL-2R (α- and β-chains), was not affected by treatment with the S. typhimurium cell-free extract. Furthermore, PHA-activated spleen T-cells responded to recombinant IL-2 and this was not inhibited by the extract. Surprisingly, IL-2R expression was augmented by treatment with the extract, although this was independent of IL-2 production. These results suggest that the suppression of T-cell proliferation induced by the Salmonella cell-free extract was associated with augmentation of IL-2R expression, rather than down-regulation of the IL-2 response. This may be a mechanism responsible for the Salmonella extract-evoked suppression of mitogen-induced T-cell proliferation.     

Anti HLA class I monoclonal antibody effect on PKC kinetics in PHA activated human peripheral blood mononuclear and E+ cells

Cytoplasmic protein kinase C (PKC) has been studied in phytohemagglutinin (PHA) activated peripheral blood mononuclear cells (PBMC) and macrophage depleted E+ cell culture. Within 10' after contemporanous addition of PHA and anti HLA class I monoclonal antibody 01.65 (MoAb) PKC is depleted in both cell types. Enzyme activity recovers in the following hours however at 72 hours is at control values in E+ cultures while in PBMC cultures it is still depleted at 68% of the control. Anti HLA class I MoAb induced tritiated lymidine (3H-TdR) incorporation inhibition appears to be related to low levels of PKC activity.     

Impairment of IL-12-dependent STAT4 nuclear translocation in a patient with recurrent Mycobacterium avium infection

We examined the immunological abnormality in a patient with recurrent Mycobacterium avium infection. T cells from the patient showed decreased ability both to produce IFN-gamma and to proliferate in response to IL-12. Despite decreased expression of IL-12R beta1 and beta2 chains in the patient's PHA-activated T cells, there was no difference in IL-12-induced tyrosine and serine phosphorylation of STAT4 in PHA-activated T cells between the patient and healthy subjects, suggesting that IL-12R signals are transmitted to STAT4 in the patient's PHA-activated T cells. Using EMSA, confocal laser microscopy, and Western blotting, we demonstrated that the nuclear translocation of STAT4 in response to IL-12 is reduced in PHA-activated T cells from the patient when compared with those from healthy subjects. Leptomycin B was used to examine whether nuclear export of STAT4 is increased in the patient's T cells. However, leptomycin B treatment did not reverse impaired IL-12-induced nuclear accumulation of STAT4. Although the exact mechanism responsible for the impaired STAT4 nuclear translocation in this patient remains unclear, the absence of mutation in the IL-12Rbeta1, IL-12Rbeta2, STAT4, and STAT4-binding sequence of the IFN-gamma gene and preservation of STAT4 tyrosine and serine phosphorylation suggest the existence of a defective STAT4 nuclear translocation. This defect is likely responsible for the impaired STAT4 nuclear translocation in IL-12-stimulated T cells, leading to impairment of both IFN-gamma production and cell proliferation. To the best of our knowledge, this is the first report of a patient with atypical mycobacterial infection associated with impairment of STAT4 nuclear translocation.     

Tissue kallikrein protects cortical neurons against hypoxia/reoxygenation injury via the ERK1/2 pathway

Systemic or local delivery of human tissue kallikrein gene (hTK) has been shown to be an effective strategy to alleviate cerebral ischemia/reperfusion (I/R) injury, and tissue kallikrein (TK) administration can suppress glutamate- or acidosis-mediated neurotoxicity in vitro. In the present study, the role of TK in hypoxia/reoxygenation (H/R) induced neuronal cell death was investigated. We found that TK administration could remarkably alleviate H/R-induced neuronal injury by reduction of LDH release and promotion of neuron viability. The protective effects of TK could be counteracted by bradykinin B2 receptor (B2R) antagonist HOE140, which could suppress up-regulation of TK on the ERK signal pathway under H/R condition. These results indicate that TK plays an important role in preventing neurons from H/R damage at least partially through the TK-B2R-ERK1/2 pathway.     

Possible association between IL-2 receptors and class I HLA molecules on T cells

In the process of evaluating murine hybridomas for an antibody to the beta-subunit of the IL-2R (p70) we identified an antibody that immunoprecipitated a 55- to 57-kDa complex from cross-linked lysates. We demonstrate that this complex is composed of IL-2 (15.5 kDa) cross-linked to the H chain of HLA class I (40 to 42 kDa), suggesting a molecular interaction between HLA class I molecules and IL-2R. Although the exact role of this association remains to be determined, the specific cross-linking of IL-2 to HLA class I Ag is intriguing in view of published claims for a role of HLA class I in OKT3-induced lymphocyte proliferation and in NK cell lytic activity.     

Competitive effect of anti-HLA class I monoclonal antibody (01.65) and N-N-staurosporine on prolipherative response of PHA activated T-lymphocytes

N-N-Staurosporine (STAR) inhibits in a dose dependent manner Tritiated-Thymidine (3H-TdR) incorporation in phytohemagglutinin (PHA) activated Peripheral Blood Mononuclear Cells (PBMC) treated with anti-HLA class I monoclonal antibody (MAb) 01.65 and its effect results competitive with MAb 01.65. Cytosolic and particulate Protein Kinase C (PKC) have been studied. Only when PKC particulate activity is no more detectable, the effect of STAR on 3H-TdR incorporation is evident.     

An anti-HLA class I monoclonal antibody alters the progression in the cell cycle of phytohemagglutinin-activated human T lymphocytes

The monomorphic anti-HLA Class I monoclonal antibody 01.65 inhibits the incorporation of tritiated thymidine ([3H]TdR) in Phytohemagglutinin (PHA)-activated human T lymphocytes. Our data indicate that 01.65 affects the average duration of the cell cycle by increasing the length of the early S subphase. As a consequence of the increase in the doubling time of the cell population, the absolute number of cells at harvesting time was reduced in 01.65-treated cultures compared to that of untreated cultures. The lengthening of the S-phase and the decrease in the cell number can together quantitatively account for the reduction of [3H]TdR incorporation observed in 01.65-treated cultures.     

Requirements for the simultaneous presence of phorbol esters and calcium ionophores in the expression of human T lymphocyte proliferation-related genes

We have investigated the synergistic effects of phorbol ester and calcium ionophore on human T lymphocyte proliferation and the expression of the proliferation-related genes, c-myc, c-fos, interleukin 2 receptors (IL-2R) and interleukin 2 (IL-2). Incubation of T lymphocytes with both the phorbol ester, phorbol 12,13-dibutyrate (PDB), and the calcium ionophore, ionomycin, leads to the expression of a series of proliferation-related genes, followed by T cell proliferation. In contrast, stimulation of T cells sequentially with PDB and then ionomycin did not induce mitogenesis, demonstrating that simultaneous exposure to both agents is necessary for proliferation. Exposure of T cells to both agents together for different time periods resulted in a proliferative response in proportion to the duration of the exposure, with more than 6 hr required for maximum proliferation. In contrast, a 1-hr exposure to both drugs was sufficient for maximum expression of c-fos or c-myc proto-oncogene mRNA. The expression of IL-2R and the production of IL-2 were also dependent on the duration of simultaneous exposure to both phorbol ester and calcium ionophore. Levels of IL-2 mRNA became detectable at 1 hr and peaked at 3 hr after stimulation. The induction of IL-2 mRNA occurred only in the presence of both agents and became undetectable within 2 hr after the drugs were removed. In contrast, the expression of IL-2R mRNA became detectable at 1 hr, but was maintained even after the drugs were removed and reached a peak at 24 hr. Both IL-2 and IL-2R mRNA accumulated in proportion to the duration of the exposure. Augmentation of cell proliferation by exogenous IL-2 was observed in T cells exposed to the drugs for less than 3 hr. These data demonstrated that the induction of maximum expression of the nuclear proto-oncogenes c-myc and c-fos was not sufficient for PDB-ionomycin-induced T cell proliferation. The level of IL-2 mRNA accumulation and resultant IL-2 secretion is one of the limiting factors for proliferation of T cells exposed to the drugs for less than 3 hr, but not for longer exposures. Additional events such as accumulation of IL-2R mRNA and protein triggered by a long exposure to the drugs were obligatory for obtaining maximum proliferation.     

Cell cycle dependent gene expression in quiescent stimulated and asynchronously cycling arterial smooth muscle cells in culture.

The expression of a set of cell cycle dependent (CCD) genes (c-fos, c-myc, ornithine decarboxylase (ODC), and thymidine kinase (TK)) was comparatively studied in cultured arterial smooth muscle cells (SMC) during exit from quiescence and exponential proliferation. These genes, which were not expressed in quiescent SMC, were chronologically induced after serum stimulation. c-fos mRNA were rapidly and transiently expressed very early in the G1 phase; c-myc and ODC peaked a few hours after serum stimulation and then remained at an intermediary level throughout the first cell cycle; TK mRNA and activity then appeared at the G1/S boundary and peak in G2/M phases. Except for c-fos, the other genes were also expressed in asynchronously cycling SMC (ACSMC); their expression was studied in elutriated subpopulations representative of cell cycle progression. c-fos mRNA were undetectable in any sorted subpopulations, even in the pure early G1 population. Despite a slight increase as the cell cycle advanced, c-myc and ODC genes were expressed throughout the ACSMC cell cycle. A faint TK activity was found in G1 subpopulations and increased in populations enriched in other phases; in contrast, TK mRNA remained highly expressed in all elutriated subpopulations. This study demonstrates significant modulations in CCD gene expression between quiescent stimulated and asynchronously cycling SMC in culture. This suggests that the events occurring during the emergence of SMC from quiescence are probably different from those in the G1 phase of ACSMC.     

Changes in gene expression associated with IFN-beta and IL-2-induced augmentation of human natural killer cell function

NK function can be augmented by a variety of agents, including the cytokines IL-2 and IFN. The mechanisms associated with IL-2- and IFN-mediated augmentation of NK function are largely unknown. In order to learn more about the regulation of NK activity, we have studied changes in gene expression that occur upon treatment of a cloned line of NK cells (NK 3.3) with rIL-2 and rIFN-beta. Both IL-2 and IFN-beta induced rapid augmentation of lysis mediated by NK 3.3, which was significant within 1 h, peaked at 6 h of treatment, and declined by 12 h. This enhancement of lytic function was independent of proliferation and associated with a corresponding increase in steady state levels of RNA coding for both the nuclear proto-oncogene c-myb and for the IL-2R. These changes were specific in that RNA levels of another nuclear proto-oncogene, c-myc, were increased by IL-2 but not by IFN-beta, whereas HLA class I RNA levels were relatively unchanged by either IL-2 or IFN-beta treatment. Treatment of NK 3.3 with the combination of IL-2 and IFN enhanced both lysis and c-myb expression in an additive fashion. These findings suggest that c-myb may play a regulatory role in the cytolytic activity of NK cells.     

Expression of the murine homologue of the cell cycle control protein p34cdc2 in T lymphocytes.

The mammalian homologue of the cdc2 gene of the fission yeast Schizosaccharomyces pombe encodes a p34cdc2 cyclin-dependent kinase that regulates the cell cycle of a wide variety of cell types. Resting murine T lymphocytes contained no detectable p34cdc2 protein, histone kinase activity, or specific mRNA for the cdc2 gene. Activation of the T cells by immobilized anti-CD3 resulted in the expression of specific mRNA late in the G1 phase of the cell cycle, and p34cdc2 protein was detectable at or near G1/S. At this point in the cell cycle, the protein was phosphorylated at tyrosine and displayed no H1 histone kinase activity. As the cells progressed through the cycle, the amount of specific mRNA and p34cdc2 increased, and H1 histone kinase activity was detectable when the cells were blocked at G2/M by nocodazole. The activation of T cells by phorbol dibutyrate induced the expression of IL-2R but failed to induce the synthesis of IL-2 or the expression of cdc2-specific mRNA. Under these conditions, the activated cells failed to enter the S phase of the cell cycle. Because the presence of IL-2 added exogenously during activation by phorbol dibutyrate resulted in the expression of cdc2-specific mRNA and progression through the cell cycle, either IL-2 or the interaction with IL-2R may be involved in the expression of cdc2 and regulation of the G1/S transition.     

Biochemical changes in the gastric mucosa after injury in young and aged rats

Changes in gastric mucosal thymidine kinase (TK) activity (an indicator of proliferative activity) were examined in young (4 month) and aged (24 month) Fischer-344 male rats 6 h after intragastric administration of either 2 M NaCl (1 ml/130 g b.w.) or an equivalent volume of water (control). These changes were related to the expression of c-myc gene, tyrosine kinase (Tyr-K) activity and tyrosine-specific phosphorylation of proteins in the gastric mucosa. Basal gastric mucosal TK activity (data from the controls) in the aged rats was found to be 75% (P less than 0.001) above the young animals. This was accompanied by increased expression of c-myc gene and a 67% (P less than 0.001) enhancement in Tyr-K activity. Intragastric administration of 2 M NaCl resulted in gastric mucosal damage (as evidenced by lesions index) in both age groups. However, in aged rats, the lesions index was found to be about 75% higher than in their younger counterparts. In young rats, mucosal injury resulted in a 95% rise in TK activity, whereas in aged rats it was increased by only 38%, when compared with corresponding controls. This 2-fold rise in TK activity in young rats was also associated with increased expression of the c-myc gene. In young rats, administration of hypertonic saline caused a 90% (P less than 0.001) increment in Tyr-K activity and significantly stimulated tyrosine-specific phosphorylation of five mucosal proteins with an apparent molecular mass of 170, 120, 100, 55 and 43 kDa. On the other hand, administration of hypertonic saline to the aged rats caused only a small 16% (P less than 0.025) increase in Tyr-K activity, and produced no apparent change in either expression of c-myc gene or tyrosine-specific phosphorylation of any of the proteins in the gastric mucosa, when compared with the corresponding controls. We conclude that aging increases the susceptibility of the gastric mucosa to damaging agents and diminishes its regenerative capacity. We also suggest that Tyr-K may play a role in determining these events.