A novel miR-371a-5p-mediated pathway, leading to BAG3 upregulation in cardiomyocytes in response to epinephrine, is lost in Takotsubo cardiomyopathy

Molecular mechanisms protecting cardiomyocytes from stress-induced death, including tension stress, are essential for cardiac physiology and defects in these protective mechanisms can result in pathological alterations. Bcl2-associated athanogene 3 (BAG3) is expressed in cardiomyocytes and is a component of the chaperone-assisted autophagy pathway, essential for homeostasis of mechanically altered cells. BAG3 ablation in mice results in a lethal cardiomyopathy soon after birth and mutations of this gene have been associated with different cardiomyopathies including stress-induced Takotsubo cardiomyopathy (TTC). The pathogenic mechanism leading to TTC has not been defined, but it has been suggested that the heart can be damaged by excessive epinephrine (epi) spillover in the absence of a protective mechanism. The aim of this study was to provide more evidence for a role of BAG3 in the pathogenesis of TTC. Therefore, we sequenced BAG3 gene in 70 TTC patients and in 81 healthy donors with the absence of evaluable cardiovascular disease. Mutations and polymorphisms detected in the BAG3 gene included a frequent nucleotide change g2252c in the BAG3 3′-untranslated region (3′-UTR) of Takotsubo patients (P<0.05), resulting in loss of binding of microRNA-371a-5p (miR-371a-5p) as evidenced by dual-luciferase reporter assays and argonaute RNA-induced silencing complex catalytic component 2/pull-down assays. Moreover, we describe a novel signaling pathway in cardiomyocytes that leads to BAG3 upregulation on exposure to epi through an ERK-dependent upregulation of miR-371a-5p. In conclusion, the presence of a g2252c polymorphism in the BAG3 3′-UTR determines loss of miR-371a-5p binding and results in an altered response to epi, potentially representing a new molecular mechanism that contributes to TTC pathogenesis.

BAG3 regulates formation of the SNARE complex and insulin secretion

Insulin release in response to glucose stimulation requires exocytosis of insulin-containing granules. Glucose stimulation of beta cells leads to focal adhesion kinase (FAK) phosphorylation, which acts on the Rho family proteins (Rho, Rac and Cdc42) that direct F-actin remodeling. This process requires docking and fusion of secretory vesicles to the release sites at the plasma membrane and is a complex mechanism that is mediated by SNAREs. This transiently disrupts the F-actin barrier and allows the redistribution of the insulin-containing granules to more peripheral regions of the β cell, hence facilitating insulin secretion. In this manuscript, we show for the first time that BAG3 plays an important role in this process. We show that BAG3 downregulation results in increased insulin secretion in response to glucose stimulation and in disruption of the F-actin network. Moreover, we show that BAG3 binds to SNAP-25 and syntaxin-1, two components of the t-SNARE complex preventing the interaction between SNAP-25 and syntaxin-1. Upon glucose stimulation BAG3 is phosphorylated by FAK and dissociates from SNAP-25 allowing the formation of the SNARE complex, destabilization of the F-actin network and insulin release.

The activity of hsp90 alpha promoter is regulated by NF-kappa B transcription factors

Heat-shock proteins (HSP) 90 exert a relevant role in the survival and response to therapy of many neoplastic cell types. Here, we show that the promoter of hsp90alpha gene, that encodes the inducible form of HSP90, is regulated by nuclear factor-kappaB (NF-kappaB) activity. Indeed, we found that NF-kappaB factors bound to one of the two putative consensus sequences present in the hsp90alpha-flanking region; mutation of such motif hampered the phorbol-myristate-13-acetate-stimulated expression of a luciferase reporter gene under the control of the hsp90alpha promoter. Furthermore, the downmodulation of NF-kappaB (p65) levels by a specific small interfering (si) RNA resulted in reducing the levels of endogenous HSP90alpha protein. These findings disclose a previously unrecognized mechanism that contributes to connect NF-kappaB factors and HSPs in cell defence machinery.

Antiproliferative and pro-apoptotic activity of novel phenolic derivatives of resveratrol

Gloriosaols A-C, isolated from Yucca gloriosa (Agavaceae), are novel phenolic compounds structurally related to resveratrol. In the present study, we show that gloriosaols possess antiproliferative and pro-apoptotic activity on tumor cells of different histogenetic origin and that their cell growth inhibition potential is higher than that of resveratrol. Despite the close similarities in their structure, gloriosaols A-C exhibited different antiproliferative potency, as the EC(50) ascending order is: gloriosaol C, gloriosaol A, gloriosaol B. Further mechanisms of gloriosaol C cytotoxicity were elucidated in detail in U937 cells, the most sensitive of the cell lines tested. The effect of gloriosaol C on cell growth turned out to be strongly dependent upon the concentration. Gloriosaol C doses lower than the EC(50) value (8 mu-icroM) blocked the cell cycle in G(0)/G(1), with a concurrent decrease in the number of cells in the G(2)/M phases of the cell cycle. At higher doses, this arrest overlaps with the occurrence of apoptosis and necrosis. In the 10-25 microM range of doses, gloriosaol C caused cell death mainly by apoptosis, as measured by hypodiploidia induction, phosphatidyl serine externalization and disruption of mitochondrial transmembrane potential. A switch in the mode of death from apoptosis to necrosis occurred at doses of gloriosaol C higher than 30 microM. Gloriosaol C was found to induce production of reactive species dose-dependently, but also to counteract their elevation in stressed cells. Thus, the different fate of cells, that is cell cycle arrest or cell death, in response to different doses of gloriosaol C might be related to the extent of induced oxidative stress.

Regulation of cell survival in CD95-induced T cell apoptosis: role of NF-kappa B/Rel transcription factors

The activity of NF-kappa B/Rel transcription factors can inhibit the apoptosis induced by TNF, UV or cancer therapy drugs in a number of cell types, including human T lymphocytes. Furthermore, the NF-kappa B/Rel inducer, phorbol-12-myristate-13-acetate (PMA), has been reported to suppress the CD95-induced apoptosis of human T lymphocytes. To verify whether the survival-enhancing effect of PMA required NF-kappa B/Rel activity, we generated two Jurkat cell sublines (AL.7 and AL.8) transfected with a pCMV4-I kappa B alpha construct, and two (AL.3 and AL.5) with the void pCMV4 vector. Compared to wild type, AL.3 and AL.5 cells, the AL.7 and AL.8 sublines displayed markedly lower amounts of NF-kappa B/Rel nuclear complexes and a reduced expression of a kappa B-controlled CAT reporter gene after 1 and 4 h of incubation with PMA, respectively. All the five cell types displayed negligible levels of apoptosis when cultured with medium or PMA alone; when stimulated with the mAb CH-11, the AL.7 and AL.8 sublines displayed apoptotic responses only slightly (<0.5 fold) higher than control cells. On the other hand, the salvage activity of PMA was partially impaired in the AL.7 and AL.8 sublines. PMA inhibited apoptosis by >85% in wild type, AL.3 and AL.5 cells and by <60% in the AL.7 and AL.8 sublines; the apoptosis percentages in the mAb CH-11 + PMA cultures of the I kappa B alpha-transfected cells were >4-fold higher than in control cells. We conclude that the inhibition of the CD95-induced apoptosis by PMA relies on both NF-kappa B/Rel-dependent and -independent mechanisms. The partial contribution of these nuclear factors to the suppression of apoptosis indicates that the NF-kappa B/Rel activity can influence the extent of the CD95-induced T cell death.

NF-κB/Rel-mediated regulation of apoptosis in hematologic malignancies and normal hematopoietic progenitors

The activity of NF-kappaB/Rel transcription factors can downmodulate apoptosis in normal and neoplastic cells of the hematologic and other compartments, contributing in maintaining neoplastic clone survival and impairing response to therapy. Alterations in nfkappab or ikappaB genes are documented in some hematologic neoplasias, while in others dysfunction in NF-kappaB/Rel-activating signaling pathways can be recognized. The prosurvival properties of NF-kappaB/Rel appear to rely on the induced expression of molecules (caspase inhibitors, Bcl2 protein family members, etc.), which interfere with the apoptosis pathway. Constitutive NF-kappaB/Rel activity in some hematologic malignancies could be advantageous for neoplastic clone expansion by counteracting stress stimuli (consumption of growth factors and metabolites) and immune system-triggered apoptosis; it is furthermore likely to play a central role in determining resistance to therapy. Based on this evidence, NF-kappaB/Rel-blocking approaches have been introduced in antineoplastic strategies. The identification of NF-kappaB/Rel target genes relevant for survival in specific neoplasias is required in order to address tailored therapies and avoid possible detrimental effects due to widespread NF-kappaB/Rel inhibition. Moreover, comparative analyses of normal hematopoietic progenitors and neoplastic cell sensitivities to inhibitors of NF-kappaB/Rel and their target genes will allow to evaluate the impact of these tools on normal bone marrow.

Oxaliplatin (L-OHP) treatment of human myeloma cells induces in vitro growth inhibition and apoptotic cell death

Oxaliplatin (L-OHP), a diaminocyclohexane platinum derivative, is an active and well tolerated anticancer drug which is presently used in the treatment of gastrointestinal tumours. Since the efficacy of L-OHP in the treatment of multiple myeloma (MM) has not yet been evaluated, we studied the antiproliferative activity of this compound in vitro in a panel of MM cell lines (XG1, XG1a, U266 and IM-9). We found that L-OHP inhibited the growth of MM cells at therapeutically achievable concentrations (IC(50): 5-10 microM after 24 h of exposure) and was more active than Cisplatin (CDDP) or Carboplatin (CBDCA). The activity of L-OHP was apparently not affected by interleukin-6 (IL-6), the major growth and survival factor of MM cells. We also found that L-OHP induced apoptotic cell death. We demonstrated that the combination of L-OHP with Dexamethasone (Dex) resulted in the enhancement of the anti-myeloma effects. L-OHP and Dex both induced poly adenosine diphosphate (ADP)-ribose polymerase (PARP) cleavage and this induction was enhanced by the combined treatment. L-OHP-induced apoptosis correlated with caspase-3 cleavage, but this correlation could not be demonstrated in Dex-treated cells. Taken together, these in vitro results provide a rationale for the experimental use of L-OHP in the treatment of MM patients and suggest therapeutic combinations of potential value.

Oxidative stress and neuroAIDS: triggers, modulators and novel antioxidants

Neurological disorders represent one of the most common disturbances accompanying HIV infection. In the past few years, highly antiretroviral active therapy has significantly reduced the incidence of HIV-related diseases. However, neurological dysfunction in AIDS patients still remains an unresolved problem. Oxidative stress, which occurs in brain tissues of patients undergoing HIV infection and is implicated in cell death of both astroglia and neurones, has recently been suggested to play a role in the pathogenesis of neuroAIDS. Thus, a better understanding of the processes that trigger and modulate free radical formation in brain tissues of AIDS patients might help in a successful therapeutic approach to the neuropathogenesis of HIV infection.

Increased expression of CD40 ligand in activated CD4+ T lymphocytes of systemic sclerosis patients

CD40-CD154 interactions play a key role in regulating immune response and are involved in the development of some autoimmune diseases. We analysed the expression of CD154 antigen in CD3-activated PBMC from 10 systemic sclerosis (SSc) patients and 10 control subjects by immunofluorescence. PBMC from SSc patients showed an increased expression of this molecule, since, 6 h following CD3 stimulation, the percentage of CD154(+)cells was of 17. 53+/-2.0 (mean+/-SE) in control and 25.33+/-2.93 in patient cells (P< 0.03). The higher expression of CD154 antigen was ascribible to CD4(+)cells. The enhanced induction of CD154 following CD3 stimulation depended on protein synthesis, since was abolished when the cells were stimulated via CD3 in the presence of cycloheximide. By analysing the expression of the CD40-induced antigen CD80, we verified that a blocking anti-CD40 antibody inhibited CD80 appearance in SSc activated monocytes, indicating that CD154 molecule was functional. These results show an enhanced expression of a functional CD154 molecule in SSc CD4(+)activated T lymphocytes.

Enhancement of cytosine arabinoside-induced apoptosis in human myeloblastic leukemia cells by NF-kappa B/Rel- specific decoy oligodeoxynucleotides

The activity of NF-kappa B/Rel nuclear factors is known to inhibit apoptosis in various cell types. We investigated whether the subtraction of NF-kappa B/Rel activity influenced the response of 11 AML (M1, M2 and M4) patients' cells to AraC. To this end we used a phosphorothioate double-stranded decoy oligodeoxynucleotide (ODN) carrying the NF-kappa B/Rel- consensus sequence. Cell incubation with this ODN, but not its mutated (scrambled) form used as a control, resulted in abating the NF-kappa B/Rel nuclear levels in these cells, as verified by electrophoretic mobility shift assay (EMSA) of cells' nuclear extracts. We incubated the leukemic cells with AraC (32 or 1 microM), in either the absence or presence of the decoy or the scrambled ODN, and analyzed cell apoptosis. The spontaneous cell apoptosis detectable in the absence of AraC (<25%) was not modulated by the oligonucleotide presence in cell cultures. On the other hand, in 10 of the 11 samples tested, the decoy kappa B, but not the scrambled ODN significantly (P < 0.01 in a Student's t test) enhanced cell apoptotic response to AraC. Such an effect was particularly remarkable at low AraC doses (1 microM). These findings indicate that NF-kappa B/Rel activity influences response to AraC in human primary myeloblastic cells, and suggests that the inhibition of NF-kappa B/Rel factors can improve the effect of chemotherapy in AML. Gene Therapy (2000) 7, 1234-1237.

Growth inhibition and synergistic induction of apoptosis by zoledronate and dexamethasone in human myeloma cell lines

Bisphosphonates (BPs) are commonly used in the treatment of myeloma-associated osteolytic lesions. Recent reports have suggested that BPs may also exert direct antitumor effects on myeloma cells. Here, we show that the treatment of myeloma cell lines with the combination of the potent BP zoledronate and dexamethasone inhibits cell growth and synergistically induces apoptotic cell death, providing a rationale for potential applications in vivo.

HLA class I antigen downregulation by interleukin (IL)-10 is predominantly governed by NK-kappaB in the short term and by TAP1+2 in the long term

The present study was designed to determine the molecular mechanisms by which interleukin (IL)-10 prevents the HLA class I antigen expression at the cell surface. In this context, the potential role of transporter associated with antigen presentation 1+2 (TAP1+2) molecules and NF-kappaB transcription factors was addressed. The IL-10 effect was investigated in a human lymphoblastoid cell system defective for TAP1+2 genes (T2 cell line) and in the related TAP1+2 transfectants (T3 cell line). In this experimental system, after 48 h of incubation in the presence of IL-10, the HLA class I antigen downmodulation was observed in the T3 but not in the T2 cell line, suggesting a potential role of TAP1+2 molecules. In the same experimental conditions, the NF-kappaB activity was unaffected. Instead, after 3 h of exposure to IL-10, the HLA downmodulation was observed in both cell lines, the NF-kappaB factors activity being strongly reduced. In addition, the transfection of the inhibitor of NF-kappaB, IkappaBalpha, prevented the IL-10 effect on HLA class I antigen expression in the T3 cell line. This phenomenon was observed after 3 h but not 48 h of IL-10 incubation. These evidences indicate a time dependent involvement of TAP1+2 antigens and of NF-kappabeta activity in the IL-10-induced major histocompatibility complex (MHC) class I downmodulation.

CD40 and B chronic lymphocytic leukemia cell response to fludarabine: the influence of NF-kappaB/Rel transcription factors on chemotherapy-induced apoptosis

The levels of tumour necrosis factor receptor (TNF-R) superfamily members can be altered in lymphoid leukemias, indicating a possible role of such molecules in the biology of these neoplasias. In B chronic lymphocytic leukemia cells, the CD40/CD40L system has been shown to be effective in inhibiting the apoptotic response to fludarabine. The modulation of apoptosis relied on the CD40-induced activity of NF-kappaB/Rel transcription factors. The anti-apoptotic effect of CD40 was abolished using a phosphorothioate kappaB decoy oligodeoxynucleotide. These findings illustrate an example of the biological activity of TNF-R-like molecules in leukemias. They also show the influence of NF-kappaB/Rel activity on leukemic cell response to apoptogenic agents.

Amifostine inhibits hematopoietic progenitor cell apoptosis by activating NF-kappaB/Rel transcription factors

We investigated the involvement of NF-kappaB/Rel transcription factors that reportedly can inhibit apoptosis in various cell types in the antiapoptotic mechanism of the cytoprotectant amifostine. In the nontumorigenic murine myeloid progenitor 32D cells incubated with amifostine, we detected a reduction of the IkappaBalpha cytoplasmic levels by Western blotting and a raising of nuclear NF-kappaB/Rel complexes by electrophoretic mobility shift assay. Amifostine inhibited by more than 30% the growth factor deprivation-induced apoptosis, whereas its effect failed when we blocked the NF-kappaB/Rel activity with an NF-kappaB/Rel-binding phosphorothioate decoy oligodeoxynucleotide. In human cord blood CD34(+) cells, the NF-kappaB/Rel p65 subunit was detectable (using immunofluorescence analysis) mainly in the cytoplasm in the absence of amifostine, whereas its presence was appreciable in the nuclei of cells incubated with the cytoprotectant. In 4 CD34(+) samples incubated for 3 days in cytokine-deficient conditions, cell apoptosis was reduced by more than 30% in the presence of amifostine (or amifostine plus a control oligo); the effect of amifostine was abolished in cultures with the decoy oligo. These findings indicate that the inhibition of hematopoietic progenitor cell apoptosis by amifostine requires the induction of NF-kappaB/Rel factors and that the latter can therefore exert an antiapoptotic activity in the hematopoietic progenitor cell compartment. Furthermore, the identification of this specific mechanism underlying the survival-promoting activity of amifostine lends support to the possible use of this agent in apoptosis-related pathologies, such as myelodysplasias.

Triggering of CD40 antigen inhibits fludarabine-induced apoptosis in B chronic lymphocytic leukemia cells

We analyzed the effect of CD40 triggering on the fludarabine-induced apoptosis of B chronic lymphocytic leukemia (B-CLL) cells. Peripheral blood samples obtained from 15 patients were incubated with fludarabine in the absence or the presence of the anti-CD40 monoclonal antibody (MoAb) G28-5. In 12 patients a significant proportion of apoptotic cells, ranging from 22% to 38% (mean +/- SE: 28.5 +/- 1.6), were detected after 3 days of culture. In 9 of these samples, the addition of G28-5 reduced apoptosis by at least 30.1% and by 57.1% +/- 7.8% on average (P = .0077). Because the CD40 antigen activates NF-kappaB/Rel transcription factors in B cells, and NF-kappaB/Rel complexes can inhibit cell apoptosis, we investigated whether the antiapoptotic effect of G28-5, in our system, could be related to modulation of NF-kappaB/Rel activity. As expected, B-CLL cells displayed significant levels of nuclear NF-kappaB/Rel activity; p50, RelA, and c-Rel components of the NF-kappaB/Rel protein family were identified in these complexes. After exposure to fludarabine, NF-kappaB/Rel complexes were decreased in the nuclei. The addition of G28-5 upregulated the NF-kappaB/Rel levels. To determine the involvement of NF-kappaB/Rel activity in the G28-5-mediated inhibition of apoptosis, we blocked the transcription factor with a decoy oligonucleotide, corresponding to the NF-kappaB/Rel consensus sequence. Cells incubated with the anti-CD40 MoAb in the presence of the decoy oligonucleotide but not a control oligonucleotide displayed a complete impairment of the G28-5 antiapoptotic effect, indicating that NF-kappaB/Rel activity was required for the inhibition of apoptosis. These results suggest that CD40 triggering in vivo could counteract the apoptotic effect of fludarabine on B-CLL cells and that its neutralization, or the use of NF-kappaB/Rel inhibitors, could improve the therapeutic effect of fludarabine.

CD36 is rapidly and transiently upregulated on phytohemagglutinin (PHA)-stimulated peripheral blood lymphocytes. Analysis by a new monoclonal antibody (UN7)

The monoclonal antibody (mAb) UN7, clustered as an anti-CD36 mAb, has been used to test the cell surface expression of CD36 on peripheral blood lymphocytes (PBL) following mitogenic stimulation. CD36, scarcely expressed on resting cell membranes, was rapidly upregulated on PBL after phytohemagglutinin (PHA) stimulation. The antigen was detected on the cell surface after 15 min of stimulation, increased rapidly by 60 min and peaked between 3 and 12 h, declining thereafter. The inhibition of protein synthesis by cycloheximide did not modify the PHA-induced expression of CD36. Neither the anti-CD3 OKT3 mAb nor the anti-CD2 BIL 2.29 and 9.1 mAbs induced any significant upregulation of the molecule. The addition of anti-CD28 15E8 mAb or IL-2 or IFN-gamma to PHA or anti-CD3 or anti-CD2 mAbs did not influence the pattern of CD36 expression. The phorbol-2-myristate-13-acetate (PMA), alone or in combination with ionomycin, was unable to activate the expression of CD36, while it inhibited the PHA-induced upregulation. The PHA-induced upregulation of CD36 was partially inhibited by the addition of LY294002 or wortmannin, while not affected by that of calphostin C. Thus, CD36 was found to be early and transiently upregulated by PHA stimulation on PBL. The rapid modulation of the molecule was not related to new protein synthesis, but was probably due to the insertion into the plasma membrane of a presynthetized protein pool.

Induction of nuclear factor kappa B/Rel nuclear activity in human peripheral blood T lymphocytes by anti-HLA class I monoclonal antibodies

Monoclonal antibodies against either monomorphic or polymorphic determinants of class I antigen induced in PBMC and highly purified T lymphocytes the nuclear activity of NF-kappa B/Rel complexes. These included both p50/p50 and p50/p65 dimers, recognized by specific antibodies in EMSA. The induced complexes were detectable in extracts of cells incubated with anti-class I monoclonal antibody (mAb) for 1.5 h; the induction was maximal at 5 h, persistent at 16 h and no longer observed at 40 h. The mAb failed to induce NF-kappa B/Rel nuclear activity in cells incubated in the presence of 3,4-dichloroisocoumarin, an inhibitor of I kappa B-alpha degradation. Together, these results suggest that class I triggering can induce the activity of NF-kappa B/Rel nuclear activity in peripheral blood T lymphocytes, thereby modulating the expression of genes regulated by these transcription factors.

CD69 expression on primitive progenitor cells and hematopoietic malignancies

CD69 is an early activation antigen of peripheral blood lymphocytes and is constitutively expressed on a wide variety of bone marrow-derived cells. To further characterize the distribution and understand the potential biological role of the molecule in normal and malignant hematopoiesis, we used a novel high affinity anti-CD69 mAb (UN6) and analyzed hematopoietic progenitor cells together with a panel of myeloid and lymphoid malignancies. We report that mobilized peripheral blood CD34+ cells display detectable levels of CD69 and that the density of membrane expression correlates with the immature phenotype CD34bright Thy-1bright cells. Furthermore, during cytokine-induced differentiation, the expression of CD69 is moderately down-regulated. Analysis of hematopoietic malignancies revealed that CD69 expression correlates with the immature myeloid phenotype. Taken together these data suggest a role of CD69 during the early phase of hematopoiesis and in the leukemic transformation.

IL-10 inhibits nuclear factor-kappa B/Rel nuclear activity in CD3-stimulated human peripheral T lymphocytes

IL-10 markedly reduces nuclear factor (NF)-kappa B/Rel nuclear activity induced in PBMC by stimulation with the anti-CD3 mAb OKT3. The inhibition is exerted specifically on the NF-kappa B/Rel activation induced by mAb OKT3, and not that produced by PMA. As judged by supershifting the DNA-protein complexes with Abs recognizing specific components of the NF-kappa B/Rel protein family, the p50/p65 (Rel A) heterodimeric form of NF-kappa B is primarily affected. The maximal effect is observed at the IL-10 concentration of 20 U/ml. IL-10 inhibitory activity is exerted on T lymphocytes and is mediated by monocytes. Indeed, monocytes pretreated with IL-10 are able so inhibit NF-kappa B nuclear activity in purified T lymphocytes stimulated with OKT3. Soluble factors do not appear to be involved in the mechanism of inhibition. On the other hand, the up-regulation of CD80 Ag, found on monocytes obtained from PBMC incubated with OKT3, is not detected after addition of IL-10, and the anti-CD28 mAb CLB-CD28/1 restores the NF-kappa B/Rel nuclear activity in IL-10-inhibited lymphocytes. Therefore, the NF-kappa B/Rel inhibition might be ascribed to a lack of cooperation between accessory cells and T lymphocytes, resulting from down-regulation of a costimulatory molecule, such as CD80, produced by IL-10 on activated monocytes. Our results demonstrate that IL-10 can inhibit the induction of NF-kappa B/Rel nuclear activity in CD3-stimulated T lymphocytes. Since inappropriate activation of kappa B-driven genes has a physiopathologic role in a number of diseases, such as HIV infection, our findings support the possibility of using this cytokine to suppress an undesirable activation of these transcription factors.

IL-10 inhibits nuclear factor-kappa B/Rel nuclear activity in CD3-stimulated human peripheral T lymphocytes

IL-10 markedly reduces nuclear factor (NF)-kappa B/Rel nuclear activity induced in PBMC by stimulation with the anti-CD3 mAb OKT3. The inhibition is exerted specifically on the NF-kappa B/Rel activation induced by mAb OKT3, and not that produced by PMA. As judged by supershifting the DNA-protein complexes with Abs recognizing specific components of the NF-kappa B/Rel protein family, the p50/p65 (Rel A) heterodimeric form of NF-kappa B is primarily affected. The maximal effect is observed at the IL-10 concentration of 20 U/ml. IL-10 inhibitory activity is exerted on T lymphocytes and is mediated by monocytes. Indeed, monocytes pretreated with IL-10 are able so inhibit NF-kappa B nuclear activity in purified T lymphocytes stimulated with OKT3. Soluble factors do not appear to be involved in the mechanism of inhibition. On the other hand, the up-regulation of CD80 Ag, found on monocytes obtained from PBMC incubated with OKT3, is not detected after addition of IL-10, and the anti-CD28 mAb CLB-CD28/1 restores the NF-kappa B/Rel nuclear activity in IL-10-inhibited lymphocytes. Therefore, the NF-kappa B/Rel inhibition might be ascribed to a lack of cooperation between accessory cells and T lymphocytes, resulting from down-regulation of a costimulatory molecule, such as CD80, produced by IL-10 on activated monocytes. Our results demonstrate that IL-10 can inhibit the induction of NF-kappa B/Rel nuclear activity in CD3-stimulated T lymphocytes. Since inappropriate activation of kappa B-driven genes has a physiopathologic role in a number of diseases, such as HIV infection, our findings support the possibility of using this cytokine to suppress an undesirable activation of these transcription factors.

Analysis of peripheral blood normal and malignant cells with the novel murine monoclonal antibody UN2

The monoclonal antibody (mAb) UN2 was generated upon immunization of a Balb/c mouse with human thymocytes. mAb UN2 recognized an antigen expressed by a subpopulation of human thymocytes and peripheral blood lymphocytes. In thymus, mAb UN2 recognized cortical cells; its expression was higher on CD3bright than on CD3dim thymocytes. This antigen was also detected on peripheral blood granulocytes, monocytes, platelets and on cell lines MOLT4, U937 and KG1. mAb UN2 was submitted to the 5th International Workshop and Conference on Human Leukocyte Differentiation Antigens, Boston, MA, 1993, and was assigned to the CD31. Expression of the UN2-recognized antigen in malignant lymphoid cells from 57 cases of B-cell chronic lymphoproliferative disease and 4 of B-cell acute lymphoblastic leukemia was analysed in flow cytometry. Among the 57 cases of B-cell chronic lymphoproliferative malignancies studied, 49 were classified as B-cell chronic lymphocytic leukemia. These showed high (86 +/- 8%) UN2 antigen expression. In 8 cases of hairy-cell leukemia the percentage of cells reacting with mAb UN2 was 42 +/- 4%; the fluorescence intensity of labelled cells was lower than that displayed by cells of B-cell chronic lymphocytic leukemia and comparable to that of normal lymphoid cells. mAb UN2 could prove useful in analysis of the lymphoid development and diagnostics of B-cell chronic lymphoproliferative disorders.

T cell growth-promoting activity of interferon-gamma. Mitogenic effect of the recombinant cytokine on cells from a human T-chronic lymphocytic leukemia

Interferon-gamma (IFN-gamma) has previously been described as exerting a growth factor activity for murine and human stimulated normal T lymphocytes, in addition to its established role in regulating the cytotoxic activity of T and NK cells. We analyzed the effect of human recombinant IFN-gamma on the proliferation of leukemic lymphocytes isolated from the peripheral blood of a patient affected by a T-cell chronic lymphocytic leukemia (T-CLL). Incubation with IFN-gamma induced the proliferation of unstimulated leukemic cells. Cell proliferation was maximal after 6 days of culture with the cytokine; the half-maximal effect of IFN-gamma was observed at a concentration of approximately 800 U/ml. We also measured the production of IFN-gamma by leukemic cells. Cells incubated in control medium released small quantities of IFN-gamma activity, while the addition of low doses of the exogenous cytokine to the cell cultures induced high levels of IFN-gamma mRNA and protein production. Furthermore, anti-HLA class I monoclonal antibodies, that exert a mitogenic effect on these neoplastic lymphocytes, also induced the IFN-gamma gene expression in the same cells. These results indicate that IFN-gamma may stimulate the proliferation of human neoplastic T cells and suggest that this cytokine might have a role in the expansion of T-leukemic cell clones in vivo.

UN1, a murine monoclonal antibody recognizing a novel human thymic antigen

A murine monoclonal antibody (mAb) UN1 was produced on the basis of selective reactivity with human thymocytes. Characterization of UN1 by immunofluorescence gave a high intensity of labeling with the majority of human thymocytes. Expression was preferentially associated with immature thymocytes (CD3dim) compared to mature cells, whereas only a subpopulation of peripheral blood lymphocytes was weakly stained. No specific binding to monocytes or granulocytes was detected. The T-cell lines HPB-ALL, H9 and MOLT-4 were all positively bound by UN1. Immunohistological staining of thymic tissues showed that mAb UN1 detected cells in both the cortex and medulla of fetal thymus, whereas the reaction in thymus samples from young children was mainly with medullar cells. By western blotting analysis, the antigen recognized by mAb UN1 corresponds to a membrane polypeptide with a molecular weight of approximately 120 kDa present on thymocytes and HPB-ALL cells. The mAb UN1 was submitted to the 5th International Workshop and Conference on Human Leukocyte Differentiation Antigens, Boston, 1993. UN1 did not cluster in any of the old or new clusters of differentiation discussed at the conference, indicating its unique reactivity. Together with the data presented in this paper, this suggests that the UN1 antibody defines a previously undescribed molecule present on the cell surface of thymocytes and a minority of peripheral blood lymphocytes.

Regulation of NF-kappa B nuclear activity in peripheral blood mononuclear cells: role of CD28 antigen

The NF-kappa B/rel family of transcription factors regulates the expression of a number of genes, including interleukin 2 (IL-2), IL-2 receptor alpha chain (Tac), and others, controlling T lymphocyte activation. The CD28 antigen is involved in regulation of T cell activation. To investigate whether CD28 antigen regulates NF-kappa B factors, we analyzed the effect of an anti-CD28 monoclonal antibody (mAb), CLB-CD28/1, on the nuclear activity of NF-kappa B complexes in resting and CD3-activated peripheral blood mononuclear cells (PBMC) of 11 donors. Cells were incubated with or without the anti-CD3 mAb OKT3 and/or the mAb CLB- CD28/1. Then nuclear extracts were obtained and analyzed for their binding to a 32P-labeled oligonucleotide, corresponding to the NF-kappa B 5'-CAACGGCAGGGGAATCTCCCTCTCCTT-3' consensus sequence in electrophoretic mobility shift assays. PBMC incubated with control medium did not appear to contain significant levels of NF-kappa B nuclear activity. The anti-CD28 mAb did not induce any detectable NF-kappa B nuclear activity in PBMC when used alone, except for two cases. However, cells incubated with the anti-CD3 mAb displayed NF-kappa B nuclear activity in 7 of the 11 cases. The addition of anti-CD28 to the anti-CD3 mAb-stimulated cells enhanced the levels of NF-kappa B activity in eight PBMC, while it did not modify PBMC in one sample and partially inhibited the induction of NF-kappa B in the remaining two samples. The stimulatory effect of anti-CD28 mAb on NF-kappa B nuclear activity was detected also on CD3-stimulated purified T lymphocytes. By analysis with antisera recognizing the p50 and p65 components of the NF-kappa B/rel family, NF-kappa B complexes of CD3+CD28-stimulated PBMC were found to contain both p50 and p65 proteins. An enhanced production of IL-2 was detected in cultures of CD3+CD28-stimulated PBMC. Our results indicate that CD28 triggering can modulate the activity on NF-kappa B nuclear complexes in T lymphocytes stimulated via CD3. Such an effect appeared not to require the presence of accessory cells (AC) or AC-derived cytokines.

A novel monoclonal antibody recognizing human thymocytes and B-cell chronic lymphocytic leukemia cells

This paper describes a new murine monoclonal antibody, UN5, raised against human thymocytes. This antibody recognizes a molecule of approximately 45 kDa on thymocytes. Flow cytometric analysis reveals a high intensity of labeling with the majority of thymocytes, whereas only CD20+ cells from peripheral whole-blood samples are weakly stained. Peripheral T cells, granulocytes, platelets and red blood cells do not express this antigen, while monocytes are only weakly labeled by UN5. Furthermore, the UN5 antibody discriminates between different types of B-cell malignancies, reacting with a subgroup of B-cell chronic lymphocytic leukemias and hairy cell leukemias, but not with the other kinds of hematopoietic malignancies tested. Antibody UN5 should prove a useful tool for the study of T-cell precursors and for analysis of both normal and neoplastic B cells.

Defect of interleukin-2 production and T cell proliferation in atopic patients: restoring ability of the CD28-mediated activation pathway

We previously reported that T lymphocytes of atopic patients displayed a defect in CD2- and CD3-mediated pathways of cell activation; that defect relied on impairment of interleukin 2 (IL-2) production (Romano, M. F., Valerio, G., Turco, M. C., Spadaro, G., Venuta, S., and Formisono, S., Cell. Immunol. 139, 91, 1992). We have subsequently analyzed T cell response to anti-CD2, -CD3, or -CD28 monoclonal antibodies (mAb) in 40 atopic individuals, including patients subjected to immunotherapy. In the latter group T cell response to anti-CD2 mAbs was normal, while IL-2 production and proliferative response in T lymphocytes stimulated via CD3 was still impaired. Costimulation with anti-CD28 mAb rescued both IL-2 production and proliferative response in all tested patients. Response to CD28-mediated stimulation was more pronounced in atopic than that in normal individuals. Our results indicated that CD28 had a major role in T cell proliferation of atopic patients and provided a model for analyzing CD3/CD28 interactions in regulation of IL-2 gene expression.

UN-1, a murine monoclonal antibody recognizing a human thymocyte undescribed antigen

A monoclonal antibody (MoAb), UN-1, specific for a human thymocyte cell surface antigen was produced. The same MoAb recognized in immunofluorescence also cells of the human T line HPB-ALL, while did not bind human peripheral blood cells and cells of some T, B and myeloid lines. Western blotting analysis of thymocyte membranes with MoAb UN-1 revealed a structure with a molecular weight of 150 kDa. Therefore both the pattern of expression and the size of the antigen recognized by MoAb UN-1 did not correspond to any previously described cell surface molecule.

Defect of CD2- and CD3-mediated activation pathways in T cells of atopic patients: Role of interleukin 2

In the present work we analyzed the proliferative response of T lymphocytes from 11 atopic patients stimulated in vitro via either the CD2 or the CD3 pathway of cell activation. In both cases we found a significant decrease of thymidine incorporation in cell DNA in comparison with T cells from normal donors. The mechanism of this impaired proliferative response was analyzed. Atopic patients' T cells were found to secrete low quantities of interleukin 2 (IL2) and to express low amounts of Tac antigen, measured as both a percentage of Tac-positive cells and a mean fluorescence intensity of Tac antigen per cell. Addition of recombinant IL2 to cultures completely restored both cell proliferative response and Tac antigen expression. This effect was specific of IL2 since addition of IL1 or IL4 did not significantly affect T cell proliferative response. We conclude that atopic patients' T lymphocytes have a defect in both CD2 and CD3 pathways of cell activation relying on impairment of IL2 production, without involving IL2 responsiveness or other lymphokine defects.

Identification and characterization of a T cell growth inhibitory factor produced by K562 erythromyeloid cells

Cells of the human erythroleukemia cell line K562 constitutively secrete a factor that inhibits human T lymphocyte proliferation induced via CD3/Ti. The factor, termed K-TIF (K562-derived T cell inhibitory factor) is produced in either the presence or absence of fetal calf serum in cultures of K562 cells and can be precipitated by 70% NH4SO4. Gel filtration chromatography on Superose 12 resin by FPLC showed that the inhibitory factor has a molecular weight of approximately 30-35 kDa. A protein of this size, metabolically labeled with [35S]methionine, specifically bound human peripheral blood mononuclear cells. Chromatofocusing with Mono P by FPLC (pH gradient 7.2-5) indicates that the inhibitory factor has an isoelectric point of 6.0-6.4.

T-cell malignancies with mature phenotypes: altered cell cycle regulation by HLA class I molecules

Soluble anti-HLA class I monoclonal antibodies (MoAbs) modulate normal T-lymphocyte proliferation induced via the CD3/Ti and the CD2 pathway, but do not induce proliferation of normal T lymphocytes in the absence of additional mitogenic stimuli. In this report, we show that anti-HLA class I MoAbs induce DNA synthesis in peripheral blood mononuclear cells from a patient with a CD4+CD8+T-prolymphocytic leukemia (T-PLL) and from a patient with a CD4-CD8+ T-chronic lymphocytic leukemia (T-CLL), in the absence of detectable additional mitogenic stimuli. Proliferation of leukemic T cells is induced by both whole Igs and Fab' fragments of anti-HLA class I MoAbs, arguing in favor of their direct interactions with the proliferating cells as the mechanism underlying the mitogenic effect. This interpretation is also supported by the ability of anti-HLA class I MoAbs to induce proliferation of leukemic T-cell preparations, depleted of accessory cells. DNA synthesis in T-CLL and T-PLL cells is preceded by expression of G1-specific messenger RNAs, ie. c-myc, 2F1, Tac, and interferon-gamma, in activated cells. Cell proliferation is inhibited by the protein kinase C inhibitor H7, indicating that activation of this enzyme is required for the mitogenic effect of anti-HLA class I MoAbs. The latter inhibit the proliferation of T-CLL cells as well as that of normal T cells stimulated with anti-CD3 MoAbs and enhance that of both types of cells stimulated with anti-CD2 MoAbs. In addition, anti-HLA class I MoAb Q6/64 in combination with anti-CD2 MoAb 9.6 or MoAb 9-1 induces proliferation of leukemic T cells to a greater extent than the individual MoAbs, but is not mitogenic for normal T cells. Anti-HLA class I MoAbs restore the cytolytic activity of T-CLL cells that is lost after 5 days of incubation of control medium, suggesting that HLA class I antigens may mediate a signal contributing to the activation state. The present results indicate that leukemic T-cell proliferation can be triggered via HLA class I molecules and suggest a potential role for these antigens in the in vivo growth of malignant clones.

Mitogenic activity of anti-CD28 MoAb CLB-CD28/1 on peripheral blood mononuclear cells and its cooperation with other anti-T cells MoAb in the activation of purified T lymphocytes

Human T lymphocyte proliferative response induced via CD28 molecule is analyzed. An anti CD28 MoAb, CLB-CD28/1, induces the proliferation of human peripheral blood mononuclear cells in the absence of other stimuli, indicating that CD28 molecule can directly mediate a mitogenic signal in this system. The mitogenic activity of MoAb CLB-CD28/1 on PBMC does not require MoAb interaction with monocyte Fc receptors, since F(ab')2 fragments from the MoAb are mitogenic to the same extent as whole IgG. Nevertheless, the activity depends on the presence of accessory cells, since purified T lymphocytes require addition of irradiated monocytes and interleukin 2 to proliferate when incubated with MoAb CLB-CD28/1. On the other hand, MoAb CLB-CD28/1 induces response to IL-2 in thymocytes in the absence of accessory cells. Cooperation of MoAb CLB-CD28/1 with three other MoAbs, recognizing CD3, CD5 and HLA Class I antigens, respectively, induces Tac antigen expression and IL-2 responsiveness in purified T lymphocytes. This effect is obtained without cross-linking of the MoAb. It does not rely on a physical association between CD28 and CD3, CD5 or HLA Class I molecules, as demonstrated by co-modulation experiments. These data indicate that expression of IL-2 receptor on T lymphocytes can result from interaction of multiple activation pathways and that some of them, such as those mediated by CD5 and HLA Class I antigens, previously reported to serve as modulatory circuits, can instead act as essential elements in the onset of T lymphocyte proliferation.

Inhibition by anti-HLA class I mAb of IL-2 and IL-2 receptor synthesis in lymphocytes stimulated with PHA-P

Inhibition by anti-HLA Class I monoclonal antibody (mAb) Q6/64 of phytohemagglutinin (PHA)-P-induced peripheral blood mononuclear cell (PMBC) proliferation is associated with a reduction of Tac expression and interleukin 2 (IL-2) secretion. To analyze the mechanism(s) underlying the latter phenomena, the Tac gene and IL-2 gene transcription was analyzed by a nuclear transcription assay. No synthesis of Tac and IL-2 mRNA was detected in PBMC stimulated with PHA-P in the presence of mAb Q6/64. In conjunction with our recently published data, these results indicate that the blocking by anti-HLA Class I mAb of PHA-P-induced PBMC proliferation reflects an inhibitory effect within the signal transduction pathway leading to transcriptional activation of IL-2 and IL-2 receptor genes.

Proliferative pathways in CD1- CD3+ CD4+ CD8+ T-prolymphocytic leukemic cells: analysis with monoclonal antibodies and cytokines

The antigenic profile and the proliferative pathways in leukemic cells from the patient TRT with T-prolymphocytic leukemia (T-PLL) were analyzed using monoclonal antibodies (MoAbs) and cytokines. T-PLL cells expressed the phenotype CD1- CD3+ CD4+ CD8+. Incubation with the differentiating agent phorbol-12-myristate-13-acetate markedly increased the percentage of cells with the CD4- CD8+ phenotype, suggesting that leukemic cells were already committed towards a differentiated element with the CD4- CD8+ phenotype. T-PLL cells were induced to proliferate by anti-CD2 MoAb 9-1 + 9.6 and by anti-CD3 MoAb OKT3. The two pathways exhibited normal functional interactions and were susceptible to modulation by anti-HLA class I MoAbs. These results indicate that regulation of cell proliferation was preserved to a significant extent in the T-PLL cells analyzed. At variance with normal resting T cells that require previous activation to proliferate when incubated with interleukin-1 (IL-1) or interleukin-2 (IL-2), T-PLL cells proliferated vigorously when incubated with either interleukin. Furthermore, T-PLL cells proliferated when incubated with immune interferon (IFN-gamma). The latter finding parallels the enhancement by IFN-gamma of the proliferative response of lectin-activated murine T lymphocytes. These results suggest that T-PLL cells, which express a high constitutive level of c-myc mRNA, may be in an activated state. The antigenic phenotype and the characteristics of the proliferative pathways of T-PLL cells from the patient TRT are compatible with the possibility that they may be derived from an intermediate thymocyte.

Lack of a role of monocytes in the inhibition by monoclonal antibodies to monomorphic and polymorphic determinants of HLA class I antigens of PHA-P-induced peripheral blood mononuclear cell proliferation

This study aimed at characterizing the mechanism(s) underlying the regulatory role of distinct determinants of HLA Class I antigens in PHA-P-induced T cell proliferation and the involvement of monocytes in this phenomenon. The anti-HLA-A2,A28 monoclonal antibodies (MoAb) CR11-351, the MoAb Q6/64 to a determinant restricted to the gene products of the I antigens HLA-B locus, and the MoAb CR10-215 and W6/32 to distinct monomorphic determinants of HLA Class I antigens were found to inhibit PHA-P-induced peripheral blood mononuclear cell (PBMC) proliferation in a dose-dependent fashion. The inhibition is specific and reflects neither inhibition of PHA-P binding to cells nor a toxic effect of the anti-HLA Class I MoAb. The latter differed in the concentration required to induce inhibition, in the influence of the concentration of PHA-P used as mitogen, in the differential effect on the donors used as a source of PBMC, and/or in the requirement of the Fc portion to induce inhibition. At variance with the information in the literature, the inhibitory effect of anti-HLA Class I MoAb on PHA-P-induced PBMC proliferation neither reflected their interaction with accessory cells nor was mediated by suppressor factors released by monocytes stimulated with PHA-P in the presence of anti-HLA Class I MoAb. Therefore, the regulatory role of HLA Class I antigens in T cell proliferation is not likely to be mediated by monocytes and/or factors released from them, but may reflect an involvement of these molecules in T cell activation pathways.

Lymphocyte proliferative response to mitogenic monoclonal antibodies in systemic sclerosis. Evidence for unresponsiveness to murine monoclonal antibodies of IgG1 isotype

Proliferative response of peripheral blood mononuclear cells to phitohemoagglutinin and anti-CD3 mitogenic monoclonal antibodies (MoAbs) of the IgG2a (OKT3) and IgG1 (PanT2, CLB T3/4.1) isotypes was studied in 39 patients with systemic sclerosis (SSc) and in 82 control subjects. The effect of IL-2 on this response was also investigated. No difference in the response to PHA and to IgG2a anti-CD3 MoAb OKT3 was seen between scleroderma patients and controls. Both the patient and control groups contained responders and non-responders to IgG1 anti-CD3 MoAbs. The percentage of non-responders was significantly higher in scleroderma patients than in controls. When purified lymphocytes from non-responder scleroderma patients were cultured with monocytes from control responders, proliferative response to IgG1 MoAbs was restored. Our results show that monocytes from patients with systemic sclerosis bear a defect leading to IgG1 unresponsiveness by T lymphocytes.

Enhancing effect of anti-HLA class I monoclonal antibodies on T cell proliferation induced via CD2 molecule

The mAb 131 to a determinant preferentially expressed on the gene products of the HLA-A locus, the mAb Q6/64 and 4E to determinants preferentially expressed on the gene products of the HLA-B locus, the anti-HLA-A2,A28 mAb CR11-351, HO-2, HO-3, HO-4, and KS1, and the anti-HLA-B7 cross-reacting group mAb KS4 enhanced proliferation of T cells in most, if not all, the PBMC preparations stimulated with the anti-CD2 mAb 9-1 + 9.6. The mAb CR10-215, W6/32, and 6/31 to distinct monomorphic determinants of HLA class I antigens enhanced CD2-induced T cell proliferation in at most 30% of the PBMC preparations tested. The anti human beta 2-microglobulin (beta 2-mu) mAb NAMB-1 displayed no detectable effect on the proliferation of T cells stimulated with the mAb 9-1 + 9.6. The enhancing effect of anti-HLA class I mAb is specific, is dose dependent, is not abrogated by the addition of exogenous IL-1 and IL-2 to the cultures, and reflects the interaction of anti-HLA class I mAb with T cells. Enhancement of CD2 mediated proliferation of T cells is not a unique property of anti-HLA class I mAb, since the anti-HLA class II mAb Q5/6 and Q5/13 also had a similar effect. Analysis of the kinetics of the enhancing effect of anti-HLA class I mAb suggests that they modulate an early event of T cell activation and may affect the interaction of T cells with mAb 9-1. Phenotyping of T lymphocytes activated by mAb 9-1 + 9.6 in the presence of anti-HLA class I mAb suggests that the enhancing effect of anti-HLA class I mAb may reflect the recruitment of a higher percentage of T cells. The present study has shown for the first time that certain, but not all, the determinants of the HLA class I molecular complex are involved in the proliferation of T cells stimulated with the anti-CD2 mAb 9-1 + 9.6. Furthermore, the inhibitory effect of mAb CR11-351, KS1, Q6/64, and W6/32 on the proliferation of T cells stimulated with mAb OKT3 or with mAb BMA 031 indicates that the same determinants of HLA class I antigens play a differential regulatory role in T cell proliferation induced via the CD2 and CD3 pathway.

Enhancing effect of anti-HLA class I monoclonal antibodies on T cell proliferation induced via CD2 molecule

The mAb 131 to a determinant preferentially expressed on the gene products of the HLA-A locus, the mAb Q6/64 and 4E to determinants preferentially expressed on the gene products of the HLA-B locus, the anti-HLA-A2,A28 mAb CR11-351, HO-2, HO-3, HO-4, and KS1, and the anti-HLA-B7 cross-reacting group mAb KS4 enhanced proliferation of T cells in most, if not all, the PBMC preparations stimulated with the anti-CD2 mAb 9-1 + 9.6. The mAb CR10-215, W6/32, and 6/31 to distinct monomorphic determinants of HLA class I antigens enhanced CD2-induced T cell proliferation in at most 30% of the PBMC preparations tested. The anti human beta 2-microglobulin (beta 2-mu) mAb NAMB-1 displayed no detectable effect on the proliferation of T cells stimulated with the mAb 9-1 + 9.6. The enhancing effect of anti-HLA class I mAb is specific, is dose dependent, is not abrogated by the addition of exogenous IL-1 and IL-2 to the cultures, and reflects the interaction of anti-HLA class I mAb with T cells. Enhancement of CD2 mediated proliferation of T cells is not a unique property of anti-HLA class I mAb, since the anti-HLA class II mAb Q5/6 and Q5/13 also had a similar effect. Analysis of the kinetics of the enhancing effect of anti-HLA class I mAb suggests that they modulate an early event of T cell activation and may affect the interaction of T cells with mAb 9-1. Phenotyping of T lymphocytes activated by mAb 9-1 + 9.6 in the presence of anti-HLA class I mAb suggests that the enhancing effect of anti-HLA class I mAb may reflect the recruitment of a higher percentage of T cells. The present study has shown for the first time that certain, but not all, the determinants of the HLA class I molecular complex are involved in the proliferation of T cells stimulated with the anti-CD2 mAb 9-1 + 9.6. Furthermore, the inhibitory effect of mAb CR11-351, KS1, Q6/64, and W6/32 on the proliferation of T cells stimulated with mAb OKT3 or with mAb BMA 031 indicates that the same determinants of HLA class I antigens play a differential regulatory role in T cell proliferation induced via the CD2 and CD3 pathway.

Transferrin-like autocrine growth factor, derived from T-lymphoma cells, that inhibits normal T-cell proliferation

Transferrin, the major iron-binding protein in the plasma of vertebrate species, is an essential growth factor for cells in serum free medium. We have established a cell line, Fr, from peripheral blood mononuclear cells of a patient affected by Sézary syndrome. Fr cells show a very immature antigenic phenotype, while constitutively bearing transferrin receptor on their surface. Furthermore the Fr line does not produce or respond to interleukin 2. Finally its conditioned medium contains both a growth stimulating activity for the Fr cell line and a factor which inhibits T-lymphocyte proliferation. We have identified a protein, produced in large amounts by Fr cells, which shares the immunological properties of human transferrin. Our data suggest that this transferrin-like factor can act as an autocrine growth factor for the producer cells and as an inhibitory factor for normal lymphocytes.

Heterogeneity in the mitogenic response of peripheral blood mononuclear cells to a pan T monoclonal antibody

Peripheral blood mononuclear cells (PBMC) from 80 normal donors were studied for their capacity to proliferate in response to Pan T2, an IgG1 monoclonal antibody (MoAb), that recognizes the CD3 complex. Forty percent of this population, regardless of sex or age, were found to be non-responders. However, the binding of MoAb Pan T2 to T cells as studied by indirect immunofluorescence was positive in all the donors. The addition of IL 1 or IL 2 to Pan T2-stimulated non-responder lymphocytes did not activate T cell proliferation, while the addition of responder monocytes restored the proliferation capacity in non-responder PBMC. The data indicate the existence of a heterogeneous responsiveness among normal individuals to a mitogenic IgG1 MoAb, and are in agreement with reports obtained using other anti-T3 MoAbs of IgG1 isotype, i.e. UCHT1, Leu4 and WT31. This defect is reported to be a function of monocytes, related to a polymorphism of Fc receptors for mouse IgG1 on human monocytic cells.

Differential regulatory role of monomorphic and polymorphic determinants of histocompatibility leukocyte antigen class I antigens in monoclonal antibody OKT3-induced T cell proliferation

Monoclonal antibodies (mAb) to monomorphic and polymorphic determinants on the heavy chain of histocompatibility leukocyte antigen (HLA) class I antigens inhibit mAb OKT3-induced T cell proliferation, whereas the anti-beta 2-microglobulin mAb NAMB-1 does not affect it. The inhibitory effect of anti-HLA class I mAb is specific, is not an Fc-mediated phenomenon, does not require accessory cells, and does not involve early stages of T cell activation. Distinct determinants of HLA class I antigens regulate T cell proliferation by different mechanisms, because the anti-HLA-A2, A28 mAb CR11-351, and the mAb W6/32 to a framework determinant of HLA class I antigens block interleukin 2 (IL-2) secretion and IL-2 receptor expression, whereas the mAb CR10-215 to a monomorphic determinant blocks only IL-2 receptor expression. The mAb CR10-215 and W6/32 induced a 50% of maximal inhibition of T cell proliferation, when added after 27 and 12 hr, respectively, of incubation of peripheral blood mononuclear cells with mAb OKT3. On the other hand, the mAb CR11-351 inhibited T cell proliferation even when added after 38 hr of incubation of peripheral blood mononuclear cells with mAb OKT3 and was the only one to inhibit proliferation of cycling T lymphocytes. It is suggested that HLA class I antigens regulate T cell proliferation by interacting with cell-surface molecules involved in T cell activation. The differential inhibitory activity of the anti-HLA class I monoclonal antibodies tested may reflect the different ability of the corresponding determinants to interact with activation molecules.

Differential regulatory role of monomorphic and polymorphic determinants of histocompatibility leukocyte antigen class I antigens in monoclonal antibody OKT3-induced T cell proliferation

Monoclonal antibodies (mAb) to monomorphic and polymorphic determinants on the heavy chain of histocompatibility leukocyte antigen (HLA) class I antigens inhibit mAb OKT3-induced T cell proliferation, whereas the anti-beta 2-microglobulin mAb NAMB-1 does not affect it. The inhibitory effect of anti-HLA class I mAb is specific, is not an Fc-mediated phenomenon, does not require accessory cells, and does not involve early stages of T cell activation. Distinct determinants of HLA class I antigens regulate T cell proliferation by different mechanisms, because the anti-HLA-A2, A28 mAb CR11-351, and the mAb W6/32 to a framework determinant of HLA class I antigens block interleukin 2 (IL-2) secretion and IL-2 receptor expression, whereas the mAb CR10-215 to a monomorphic determinant blocks only IL-2 receptor expression. The mAb CR10-215 and W6/32 induced a 50% of maximal inhibition of T cell proliferation, when added after 27 and 12 hr, respectively, of incubation of peripheral blood mononuclear cells with mAb OKT3. On the other hand, the mAb CR11-351 inhibited T cell proliferation even when added after 38 hr of incubation of peripheral blood mononuclear cells with mAb OKT3 and was the only one to inhibit proliferation of cycling T lymphocytes. It is suggested that HLA class I antigens regulate T cell proliferation by interacting with cell-surface molecules involved in T cell activation. The differential inhibitory activity of the anti-HLA class I monoclonal antibodies tested may reflect the different ability of the corresponding determinants to interact with activation molecules.