Early Lymphocyte Activation Research Articles

Natural killer cell and alphabeta and gammadelta lymphocyte traffic into the liver graft immediately after liver transplantation.

The persistence and migration of donor leukocytes has been well established, but cellular kinetics immediately after revascularization and the potential relevance of these different lymphocyte populations to spontaneous tolerance remain unclear. During the early hours of revascularization, there is a transitory "congestion" of the liver graft, which is evidence of an early phase that we have termed "first cellular contact." We have carried out by flow cytometry a prospective comparative study of the peak kinetics of lymphocyte subpopulations contained in: (a) peripheral blood and liver grafts at the time of multi-organ extraction from 14 brain-dead donors, (b) recipient peripheral blood before transplantation, and (c) recipient peripheral blood and liver grafts after (t=2 h) declamping and vascularization of the liver graft. Before transplantation, the liver grafts contained large numbers of natural killer (NK) and NK-like cells with early lymphocyte activation. Immediately after revascularization, there was an influx of recipient NK and NK-like cells into the liver. NK and CD3+CD56+ (NK-like) cells flooding into the liver graft immediately after revascularization could rapidly destroy allogeneic cells. However, spontaneous tolerance and the persistence of donor lymphocytes after orthotopic liver transplant could be a result of donor TCRalphabeta NK1.1 liver graft lymphocytes, which may be involved in the destruction of CD8+ T lymphocytes that would have received the apoptosis signal, and to NK and NK-like cell inhibition via inhibitory NK receptors. The decrease in gammadelta T lymphocytes in the two compartments suggests a mechanism of recirculation and capture in other lymphoid organs.

Early lymphocyte activation in elderly humans: impaired T and T-dependent B cell responses.

Immunosenescence is characterized by an increase in autoantibody production. Because both T and B cell stimulation are key events for producing antibodies, we investigated early T and B cell activation by means of CD23 and CD40L (two very early activation antigens). PBMC from elderly humans (EH) were studied following culture with either medium, anti-CD3mAb, rIL-4, or PMA + ionomycin. CD23 expression on elderly B cells after anti-CD3 challenge of PBMC, a reflect of T-dependent B cell activation, was clearly defective. Conversely, CD23 expression on EH B cells following activation with soluble factors as rIL-4 was preserved. CD40L expression was also impaired in EH T cells following anti-CD3 challenge. However, activation by means of PMA and/or ionomycin was preserved both in T cells (CD40L expression) and in B cells (CD23 expression). These results indicate that a defective T-dependent B cell activation related to defective T cell activation located between surface membrane and PKC/ionomycin function is an intrinsic characteristic of immunosenescence. We have not found intrinsic B-cell defects, and we conclude that the characteristically impaired early B cell activation in EH is mostly due to T cell defects.

Impaired Cutaneous Immune Responses in Thy-1-Deficient Mice

Thy-1 is a cell surface glycoprotein expressed mainly on brain and lymphoid tissue. Although the functions of Thy-1 are incompletely understood, evidence exists that Thy-1 participates in T cell activation. To examine the functional role of Thy-1 in cutaneous immune responses in vivo, Thy-1 gene-targeted mice (Thy-1-/-) and wild-type mice (Thy-1+/+) were immunized with the hapten oxazolone. After challenge with oxazolone, contact hypersensitivity responses in Thy-1-/- mice were reduced by 25% compared with Thy-1+/+ mice. Likewise, irritant dermatitis induced by croton oil was also decreased. In addition, Thy-1-/- mice showed a significantly reduced delayed-type hypersensitivity response after injection of allogeneic spleen cells into the hind footpads of allosensitized animals when compared with Thy-1+/+ mice. Moreover, proliferative responses to immobilized anti-CD3 were decreased in peripheral Thy-1-/- lymphocytes; this decrease was associated with a significantly reduced intracellular Ca2+ influx and protein tyrosine phosphorylation, indicating impairment of early lymphocyte activation. In contrast, the T cell proliferation induced by mitogens was normal, suggesting that Thy-1 expression weakly contributes to TCR-mediated T cell activation. Epidermal Langerhans cells and bone marrow-derived dendritic cells from Thy-1-/- mice exhibited a normal expression of costimulatory surface molecules as well as an unaltered ability to stimulate allogeneic T cells. Taken together, these findings demonstrate that a lack of Thy-1 expression does not generally compromise the immune system; however, Thy-1 expression may be involved in the fine-tuning of T cell-mediated immune responses.

Ca2+ signals during early lymphocyte activation in carp Cyprinus carpio L.

To measure cellular responses and the involvement of increased cytosolic Ca2+ levels ([Ca2+]i), peripheral blood leukocytes (PBL) of carp were loaded with the fluorescent intracellular Ca2+ indicators Fluo-3 and Fura-2. Responses of lymphocytes to T-cell mitogen (phytohaemagglutinin, PHA), to B-cell mitogen (lipopolysaccharide, LPS) and to immunoglobulin (Ig) cross-linking with a monoclonal antibody to carp Ig were measured using flow cytometry. Both T-cell stimulation by PHA and B-cell stimulation by membrane Ig cross-linking evoked a rapid elevation of [Ca2+]i. B-cell stimulation by LPS was not linked to an increase in [Ca2+]i. As judged by the percentage of reacting cells, it was concluded that all Ig-positive lymphocytes reacted to Ig cross-linking by elevating [Ca2+]i. At the single-cell level, the reactions of Fura-2-loaded cells were followed every 6 s using digital imaging microscopy. Both cells displaying spontaneous [Ca2+]i oscillations and non-oscillating cells responded to stimulation with an increase in [Ca2+]i, sometimes, in already oscillating cells, accompanied by an increase in frequency and/or amplitude of the oscillations. These results show that intracellular Ca2+ responses of PBL upon activation resemble those in mammals and form a powerful tool for studies into cell-specific regulation.

Interaction of AU-rich sequence binding proteins with actin: possible involvement of the actin cytoskeleton in lymphokine mRNA turnover.

In the current study, we report that cytochalasin-induced disruption of microfilaments stabilizes lymphokine mRNAs in activated human peripheral blood lymphocytes. Parallel with this, a dose- and time-dependent increase in AU-rich sequence binding protein (AUPB) activities is apparent in the nonionic detergent-resistant fractions of these cells, suggesting that cytochalasin-induced modulation of lymphokine mRNA stability might be mediated through cytoplasmic AUBPs. We provide evidence that some of the AUBPs can be immunoprecipitated with anti-actin antibodies, implicating the potential of these proteins to associate with the actin-based cytoskeleton in vivo. Moreover, disruption of the microfilament network by cytochalasins produces increased immunoprecipitable actin-AUBP complexes in the detergent-resistant cytoplasmic subfractions of lymphocytes. We show that cytochalasin-induced changes in AUBP activities are parallel with their higher binding affinity to RNA containing AU-rich instability sequence element as judged by in vitro competition and in vivo ultraviolet-crosslinking analysis. Correlation of these findings with changes in mRNA stability indicates that the actin cytoskeleton may play a physiologically important role in posttranscriptional regulation of lymphokine gene expression during early lymphocyte activation.

Function and phenotype of immature CD4+ lymphocytes in healthy infants and early lymphocyte activation in uninfected infants of human immunodeficiency virus-infected mothers.

The function and phenotypes of CD4+ lymphocytes in infants are different than in adults and are modulated by maturational changes and exposure to environmental antigens. Infants of non-human immunodeficiency virus (HIV)-infected mothers and uninfected infants of HIV-infected mothers, 0 to 6 months of age, were examined for CD4+ lymphocyte function by in vitro interleukin-2 (IL-2) production and for CD4+ phenotypes by three-color flow cytometry. A minority of these uninfected infants (28%) had functional responses similar to those of healthy adult women (IL-2 production in response to anti-CD3, alloantigen, and mitogen), while the remainder were capable of responding to alloantigen and mitogen but not to anti-CD3. We did demonstrate reduced phytohemagglutinin-stimulated IL-2 production in uninfected infants born to HIV-seropositive mothers compared to that in infants from seronegative mothers. The proportions of CD3+ CD4+, CD4+ HLA-DR- CD38+, and CD4+ CD45RA+ RO- (naive) lymphocytes were much higher in infants than in adults, and the proportions of CD4+ CD45RA- RO+ (memory) and CD4+ CD25+ (IL-2 receptor-bearing) lymphocytes were lower in infants than in adults. The proportions of activated (CD4+ HLA-DR+ CD38+) and memory (CD4+ CD45RA- RO+) lymphocytes were increased in uninfected infants of HIV-infected mothers compared to infants of uninfected mothers. Therefore, T-helper-cell function is immature in many infants, but the CD4+ lymphocytes of some HIV-exposed, uninfected infants have been stimulated by antigen at an early age.

Expression of the early lymphocyte activation antigen CD69, a C-type lectin, is regulated by mRNA degradation associated with AU-rich sequence motifs.

CD69 is the earliest inducible cell surface glycoprotein acquired during lymphoid activation both in vitro and in vivo under physiological conditions and inflammation. This molecule is involved in lymphocyte proliferation, and functions as a signal-transmitting receptor in T and B lymphocytes, NK cells and platelets. Molecular cloning of CD69 cDNA revealed that this antigen is a type-II integral membrane protein with a C-type lectin domain in the extracellular region. The expression time course of CD69 mRNA has previously been reported to be transient, peaking around 3 h after induction in T lymphocytes, and declining to nearly resting levels by 8 h. We describe herein studies on the stability of the CD69 mRNA in phorbol ester-activated T lymphocytes. The level of CD69 mRNA in these cells declined rapidly with a half-life of less than 60 min. This finding is consistent with the presence of several AU-rich sequence motifs in the 3' untranslated region (3'UTR), which have been implicated in the selective destabilization of short-lived mRNA of mammalian cytokines, and proto-oncogenes. We have therefore introduced a fragment of the 3'UTR of the human CD69 cDNA, which contains the AU-rich sequence motifs, into the 3'UTR of the rabbit beta-globin gene. This inserted sequence causes the otherwise stable beta-globin mRNA to become unstable in vivo. A similar destabilizing effect is observed when the 51-nucleotide AU sequence from the mRNA of the human cytokine granulocyte/macrophage colony-stimulating factor is used as a positive control. Furthermore, the introduction of 194-bp fragment from the CD69 3'UTR containing most of the AU-rich motifs was sufficient to induce the destabilizing effect. We propose that the selective degradation pathway involved in the regulation of the expression of cytokines and proto-oncogenes is implicated in the rapid degradation of CD69 mRNA in activated T lymphocytes. This pathway may constitute a general mechanism to regulate the expression of inducible molecules involved in inflammatory processes.

Lymphocyte activation by liposome-trapped streptozotocin in murine popliteal lymph node (PLN) test

The lymphoproliferative potential of liposome-trapped streptozotocin (STZ) was compared to the effect of saline-dissolved STZ injected locally into the foot pad of CD-1 mice. Popliteal lymph node (PLN) enlargement and early cell activation of lymphocyte subsets were monitored during the onset of STZ-induced autoimmune-like reaction. Injection of the optimal STZ dose, 0.5 mg/foot pad, markedly increased the absolute PLN cell number as well as specific T-helper (CD4 +), T-suppressor/cytotoxic (CD8 +), and B-(Ig +) cell subsets stained with fluorescent monoclonal antibodies. Furthermore, there was a marked increase in the number of large/activated CD4 + and CD8 + cells and subsets bearing specific markers of early activation. These included cells stained with fluorescein-conjugated monoclonal antibodies against interleukin-2 receptor (CD25 +) and early activation marker (EAM +) (CD69 +), and with fluorescein-conjugated peanut agglutinin (PNS +). Surprisingly, the injection of liposome-trapped STZ, at a 1 10 of the optimal dose only, induced a marked PLN enlargement comparable to the effect of optimal STZ dose. The effect of liposome-STZ could be dissociated from the non-drug-containing MLV-related lymphocyte activation. The data suggest several possible advantages from the introduction of chemicals by the liposome route and the subsequent PLN test for chemical-induced autoimmunity. Toxicological advantages could involve better control of chemical exposure, controlled exposure to the water-insoluble substances, drastic reduction of xenobiotic dose, a stronger, clear PLN response and possible elimination or at least restriction of false-negative results, due to the liposome adjuvancity. Overall, application of liposomes as an exposure route potentialized the STZ-induced early lymphocyte activation.

Structure of the gene coding for the human early lymphocyte activation antigen CD69: A C‐type lectin receptor evolutionarily related with the gene families of natural killer cell‐specific receptors

CD69 is the earliest inducible cell surface glycoprotein acquired during lymphoid activation. CD69 functions as a signal transmitting receptor involved in cellular activation events including proliferation and the induction of specific genes. This molecule is a member of a supergene family of type-II integral membrane proteins with C-type lectin domains. We have herein studied the genomic structure of the human gene encoding CD69. The coding sequence is divided into five exons separated by four introns. The first two exons corresponded to separate functional domains of the protein (cytoplasmic tail and the transmembrane region), while the final three exons encoded the carbohydrate-recognition domain (CRD). The conserved intron position between the exons encoding the CRD indicated that this protein is closely related to other type-II receptor groups with the C-type CRD, such as the asialoglycoprotein receptors, the low-affinity IgE receptor (CD23), and natural killer cell-specific receptors, NKR-P1 and Ly49. In contrast to the broad NKR-P1 and Ly-49 gene families, CD69 is a single-copy gene, as demonstrated by Southern blot analyses. The major transcription initiation site has been located, by amplification of cDNA 5' ends, 30 nucleotides downstream of a consensus TATA box. Comparison of human CD69 and mouse NKR-P1 gene structures indicates that the first intron maintains a conserved position, suggesting that CD69 and this gene family may diverge from a common ancestor gene. A possible evolutionary pathway of these genes is proposed.

The (YXXL/I)2 signalling motif found in the cytoplasmic segments of the bovine leukaemia virus envelope protein and Epstein-Barr virus latent membrane protein 2A can elicit early and late lymphocyte activation events.

The cytoplasmic domains of the transducing subunits associated with B and T cell antigen receptors contain a common amino acid motif consisting of two precisely spaced Tyr-X-X-Leu/Ile sequences (where X corresponds to a variable residue). Expression of a single copy of this motif suffices to initiate B or T cell activation. The bovine leukaemia virus (BLV) is a B cell lymphotropic retrovirus which causes a non-neoplasic proliferation of B cells. The cytoplasmic domain of the BLV transmembrane envelope glycoprotein, gp30, possesses two overlapping copies of the Tyr-X-X-Leu/Ile-containing motif which could participate in the induction of B cell activation. Similarly, the N-terminal cytoplasmic domain of the latent membrane protein 2A (LMP2A) of the Epstein-Barr virus (EBV) contains a single copy of the Tyr-X-X-Leu/Ile-containing motif which could play a critical role in B cell transformation. To determine whether these two virus-encoded cytoplasmic domains are endowed with signalling functions, we constructed chimeric proteins by replacing the cytoplasmic tail of CD8-alpha with that of either BLV gp30 or EBV LMP2A. We show here that, once separately expressed in B or T cell lines, these chimeras are capable of triggering both calcium responses and cytokine production when cross-linked with an antibody to CD8-alpha. Furthermore, using site-directed mutagenesis, we demonstrated unequivocally that this signalling function may be accounted for by the Tyr-X-X-Leu/Ile motifs they contain.(ABSTRACT TRUNCATED AT 250 WORDS)

Signaling via the inositol phospholipid pathway by T cell antigen receptor is limited by receptor number.

Abstract Engagement of the TCR initiates at least two transmembrane signaling pathways, the phosphatidylinositol pathway and a tyrosine kinase pathway. The T cell leukemic line Jurkat was used to study the relationship between the number of occupied TCR on the cell surface and the TCR-mediated activation of phosphatidylinositol-specific phospholipase C. We characterized a series of Ti beta-chain transfectants of the Jurkat mutant J.RT3-T3.5, in which surface expression of the TCR is limited by expression of the TCR beta-chain. Calibrated flow cytometry was used to determine the number of binding sites for anti-CD3 mAb on the surface of these cells, which was less than 1.2 x 10(3) to 1.2 x 10(4) sites/cell. In the presence of lithium chloride, the accumulation of inositol phosphates (InsP) in these cell lines in response to saturating concentrations of anti-CD3 mAb was proportional to the calculated surface TCR number. This result was consistent with dose-response studies using anti-CD3 mAb in Jurkat cells, in which ligand concentration, rather than number of binding sites, was limiting. Increase in intracellular free calcium concentration was a sensitive indicator of TCR engagement and correlated with the level of TCR expression, but less closely than did InsP levels. Induction of the early lymphocyte activation marker CD69 by anti-CD3 mAb also correlated with surface expression of TCR. In order to test whether limitation of this signaling pathway by TCR number may be relevant to signal transduction in the wild-type cell, we compared PLC activity in Jurkat cells during soluble anti-CD3 mAb-induced internalization of the TCR and also in response to immobilized mAb. The net accumulation of InsP per min decreased linearly with TCR number during the rapid phase of TCR internalization, confirming the limiting role of TCR number in this system. When internalization was prevented by immobilization of the stimulus, there was no decrease in the net accumulation of InsP per minute over time. In a Jurkat cell line transfected with the heterologous human muscarinic receptor, subtype 1, the InsP response to a muscarinic agonist was unaffected by TCR internalization, indicating that the distal phosphatidylinositol pathway was not affected by prolonged stimulation of the TCR. We conclude that transmembrane signaling through the TCR may be regulated by the number of surface TCR-ligand complexes. This observation has implications for transmembrane signaling in both mature T cells and thymocytes.

Spontaneous and in vitro activation of synovial fluid and peripheral blood lymphocytes in rheumatoid arthritis

Peripheral blood (PB) and synovial fluid (SF) were compared in parallel samples in rheumatoid arthritis (RA). The kinetics of in vitro T-cell activation was assessed in phytohemagglutinin (PHA) stimulated PB or SF mononuclear cell cultures on days 0, 1, 3 and 5. The early lymphocyte activation as assessed by interleukin-2 receptor expression was faster in SF than in PB cell cultures. In particular, IFN-gamma secretion was higher in SF than in PB cell cultures (p less than 0.01). Accordingly, lymphocyte major histocompatibility complex (MHC) locus II antigen expression was higher in SF than in PB cell cultures (53 +/- 7% vs. 21 +/- 5%; p less than 0.01). Our results suggest that lymphocytes, which are particularly effective producers of IFN-gamma when stimulated in vitro are sequestered in the diseased joints in RA.

Dual-parameter flow cytometric analysis of an early lymphocyte activation antigen (CK226) and DNA content.

This study provides a direct correlation, via dual-parameter flow cytometric analysis (simultaneous assessment of surface immunofluorescence and DNA content), between activated T-cell entry into the S/G2/M phases of the cell cycle and the kinetics of expression of a novel T-cell activation antigen, termed CK226. This molecule was identified by the specific monoclonal antibody on the leukaemic T-cell line CEM/K, and it was expressed by 8-30% of resting peripheral blood lymphocytes and the majority of monocytes and granulocytes. A large fraction of activated lymphocytes acquired the CK226 antigen before DNA synthesis. Moreover, this molecule was expressed on virtually all G0/G1 and S/G2/M phase cells by day 2 after phytohaemagglutinin (PHA) activation and at day 6 after stimulation in a mixed lymphocyte culture. The time course of expression of other known activation antigens, such as Tac and transferrin receptor, was comparable to that of CK226. Based on the relationships between CK226 expression on cycling cells and the stimulatory effects of the specific monoclonal antibody, we conclude that CK226 should be considered an early activation antigen, which defines a new pathway of T-cell activation.

Soluble class I antigens in serum and CSF of patients with varicella-zoster virus meningitis.

Soluble class I antigens (sHLA) are secreted by lymphocytes upon activation in vitro. The intrathecal synthesis (ITS) of these molecules has been studied in patients with the varicella-zoster virus (VZV) meningitis. In this paper we describe a sHLA index IH = (CSF sHLA/serum sHLA): (CSF albumin/serum albumin) which is expected to increase only when sHLA is synthesised within the central nervous system (CNS). The IH is elevated in the first week of meningitis, when antibody synthesis is still low, and decreases thereafter. We think IH is an index of early lymphocyte activation within the CNS. The relation of these findings with previous in vitro studies is also discussed.

Interleukin 4 inhibits the interleukin 2-induced production of its functional antagonist, interferon gamma

Interferon gamma (IFNγ) inhibits many effects of interleukin (IL)-4. Its production largely parallels cell proliferation but is regulated independently. As IL-4 inhibits several IL-2-induced effects including proliferation of human peripheral blood mononuclear cells, we investigated its influence on the IL-2-induced IFNγ production. We found that both absolute IFNγ production and IFNγ production per proliferation unit (1000 cpm) in response to IL-2 were inhibited by IL-4, IL-2-induced interferon production was inhibited by IL-4 in both sheep red blood cell rosetting and non-rosetting cells. In bidirectional mixed lymphocyte culture, IL-4 alone enhanced proliferation but suppressed IFNγ production. As 48% of IFNγ-producing cells are known to show T cell phenotype, the nearly total inhibition of IFNγ production is evidence for suppression of T cell response to IL-2. Additionally, we found that the inhibition of IL-2-induced proliferation by IL-4 was significantly more pronounced at low cell densities. Basal proliferation was only inhibited in serum-containing media. These data stress the importance of other lymphokines or accessory cells in the regulation of early lymphocyte activation.

Analysis of early lymphocyte activation events by fluorescence polarization flow cytometry.

After short-term (up to 4 h) stimulation with mitogen or antigen, lymphocytes were incubated with fluorescein diacetate and the polarization of fluorescence from intracellular fluorescein was measured on a specially adapted FACS II. This flow cytofluorimetric method to assay early changes in activated lymphocytes gave a reproducible response to the mitogens phytohaemagglutinin (PHA), concanavalin-A and the monoclonal antibody OKT3, recognized at 1 h by decreased polarization. A response by immune spleen cells to the antigen dinitrophenyl-ovalbumin was revealed at 4 h. The calcium ionophore A23187 induced an increase in polarization after only 10 min. The PHA polarization response was shown to be dependent on PHA binding, PHA dose, T cells, calcium ions and an intact cytoskeleton. The cellular events monitored by the polarization change are presumably altered fluidity of the probe's microenvironment due to conformational change in macromolecules to which the probe has bound or to dissociation of the probe into the aqueous phase. The fluorescein fluorescence polarization assay is a reliable and sensitive monitor of early lymphocyte activation events and, coupled with the use of a flow cytometer, permits study of particular subpopulations of responding cells.

Immunology in diabetic pregnancy: activated T cells in diabetic mothers and neonates.

Lymphocytes bearing surface antigens indicating early and full activation have been evaluated, in addition to T cell subsets, in blood samples from diabetic pregnant patients, neonates from diabetic mothers and control groups. The type of diabetes and the trimester of pregnancy were taken into account. Monoclonal antibodies were used to enumerate total T cells, helper/inducer, cytotoxic/suppressor Tlymphocytes and activated mononuclear cells using antibodies binding lymphocyte surface antigens as markers of early lymphocyte activation, and MHC Class II surface antigens as markers of late activation. A decrease in T-helper cells during the third trimester of pregnancy in Type 1 (insulin-dependent) and gestational diabetic patients (p less than 0.02) and a decrease in T-suppressor cells in Type 2 (non-insulin-dependent) diabetic pregnant patients during the third trimester (p less than 0.01) were observed in relation to normal values. As in normal pregnancy, 4F2-positive cells were increased in 48% of diabetic pregnant patients during the second and third trimesters of gestation. Class II-positive cells were increased in almost 60% of Type 1 and gestational diabetic patients during the last trimester of pregnancy in comparison with normal pregnant women and control subjects. A decrease in T-helper cells (p less than 0.02) and a clear increase in 4F2-positive cells (p less than 0.001) and Class II-positive lymphocytes (p less than 0.005) were observed in the infants of diabetic mothers in comparison with control subjects. The maternal cellular immune system, actively altered in pregnancy, is fully activated in a number of Type 1 and gestational diabetic pregnant patients. Activated lymphocytes are even found in the neonates of diabetic mothers, but these do not trigger the events leading to the onset of diabetes in the short term.

Myo-Inositol reverses Li+-induced inhibition of phosphoinositide turnover and ornithine decarboxylase induction during early lymphocyte activation.

One of the earliest detectable responses by T lymphocytes in vitro to various mitogenic ligands is the rapid induction of ornithine decarboxylase (ODC) activity (Scott et al., Eur. J. Immunol. 1985. 15: 783). This early activation is measurable within minutes after the addition of the mitogen. The T cell mitogen concanavalin A also induces rapid breakdown of phosphoinositides in T lymphocytes. The inositol phosphates formed are recycled and used in synthesis of new phosphoinositides. Li+ interrupts this cycle by inhibiting the enzyme inositol-1-phosphatase, which produces the inositol needed for phosphoinositide synthesis. Here we report that when human blood lymphocytes are kept in an inositol-deficient medium for 30 min in the presence of 1 mM Li+, the cells become unable to respond to mitogens by inositide breakdown and rapid induction of ODC activity. Addition of 1 mM myo-inositol restores the inducibility of these responses within a few minutes. These findings represent a novel aspect of the activation of resting lymphocytes and implies a new role for the inositol turnover during signal transduction.

THE INHIBITORY EFFECT OF DEOXYADENOSINE AND DEOXY GUANOSINE ON IN VITRO LYMPHOCYTE FUNCTION ARE EXPRESSED AT DIFFERENT STAGES OF LYMPHOCYTE ACTIVATION: 182

In earlier studies we showed that deoxyguanosine(dGuo) which confers immunodeficiency in purine nucleoside phosphorylase (PNP) deficient patients, inhibits the in vitro proliferation of normal human T and B lymphocytes. Deoxyadenosine (dAdo) being the toxic metabolite in adenosine deaminase (ADA) deficiency, also inhibits the in vitro proliferation of normal human T lymphocytes under conditions where ADA activity is inhibited. We analyzed the kinetics of the inhibition of T cell proliferation by dAdo and dGuo respectively and found significant differences. Whereas dAdo has to be present from the initiation of the culture onwards, dGuo can be added as late as 48 hrs. after the initiation of the culture to exert its toxic effect. This finding points towards an interference of dAdo with early lymphocyte activation events which preceed the onset of DNA synthesis. Subsequently, the effect of dAdo and dGuo on a number of events associated with lymphocyte activation was investigated like e.g. on mitogen-induced Ca-influx, on Ca-ionofoor-mediated expression of the receptor for Interleukin 2 (IL-2) and on the IL-2 dependent proliferation of receptor carrying T lymphocytes. The results provide evidence for different mechanisms underlying the toxic effects of dAdo and dGuo for lymphocytes.

Microinjection of macromolecules into normal murine lymphocytes by cell fusion technique. I. Quantitative microinjection of antibodies into normal splenic lymphocytes.

Human erythrocyte ghosts loaded with various kinds of protein molecules were fused with mouse splenic lymphocytes by means of polyethylene glycol supplemented with poly-L-arginine and dimethylsulfoxide. This fusion method made quantitative microinjection of IgG and other proteins into intact lymphocytes possible. The injection itself did not alter cell viability, and lymphocytes given protein molecules retained intact response activity when they were stimulated with mitogens. Rabbit anticyclic AMP was purified by affinity chromatography and injected into lymphocytes. Antibody activity in the cell lysates was measured by using 125I-labeled cyclic AMP as an antigen, and it was shown that antibody molecules were quantitatively injected and immunologically active in the cells. Antigen binding activity of anti-cyclic AMP antibodies in the nonstimulated lymphocytes was stable and intact even 24 hr after microinjection, whereas the activity rapidly decreased in mitogen-stimulated lymphocytes, indicating that some immunologic or enzymatic mechanisms for inactivating antibodies were induced in mitogen-stimulated cells. Furthermore, microinjection of anti-cyclic AMP markedly enhanced the proliferative responses of lymphocytes to mitogens such as Con A or LPS and reversed the effect of a known elevator of intracellular cyclic AMP. These observations have implications for the role of cyclic AMP in early lymphocyte activation events.