The influence of processing factors and non-atopy-related maternal and neonate characteristics on yield and cytokine responses of cord blood mononuclear cells.

RATIONALE: Several studies have evaluated the associations between cord blood cellular responses and atopic diseases in children, but the results of these studies are inconsistent. Variations in blood processing factors and maternal and infant characteristics are typically not accounted for and may contribute to these inconsistencies. METHODS: Cord blood samples were obtained from 287 subjects participating in the Childhood Origins of ASThma project, a prospective study of children at high risk for the development of asthma/allergies. Mononuclear cells were stimulated with phytohaemagglutinin (PHA), phorbal myristate acetate/ionomycin or a suspension of killed staphylococcus, and IFN-gamma, IL-10 and IL-13 were quantitated by ELISA. Cell yields and cytokine production were related to processing factors and maternal and infant characteristics. RESULTS: The strongest relationships between independent variables and cell yield or cytokine responses occurred with the season of birth. The highest median cell yields were seen in fall, and the lowest in summer (difference of 47%, P=0.0027). Furthermore, PHA-induced IL-5 and IL-13 responses were approximately 50% higher in spring and summer than in fall or winter (P<0.0001). Clots in the cord blood samples were associated with a reduced median cell yield (42% reduction, P<0.0001), and an increased PHA-induced IL-10 secretion (27% increase, P=0.004). CONCLUSIONS: These data suggest that season of collection, and to a lesser extent clotting in samples, affect cord blood mononuclear cell yield and cytokine responses. Careful documentation and analysis of processing and environmental variables are important in understanding biological relationships with cytokine responses, and also lead to greater comparability among studies using these techniques.

Reduced interferon-gamma secretion by natural killer cells from rats susceptible to postviral chronic airway dysfunction.

After parainfluenza type 1 (Sendai) virus infection as weanlings, Brown Norway (BN), unlike Fischer 344 (F344), rats develop an asthma-like phenotype. Reduced postinfection interferon (IFN)-gamma levels in bronchoalveolar lavage fluid from BN weanlings and the prevention of chronic airway sequelae in BN rats by IFN-gamma treatment led to the hypothesis that cells from BN weanlings have a reduced ability to secrete IFN-gamma. After stimulation with Sendai virus or interleukin (IL)-12, splenocytes from uninfected BN weanlings secreted significantly less IFN-gamma than did splenocytes from F344 weanlings (P < 0.005), as determined by enzyme-linked immunosorbent assay. Because levels of potential IFN-gamma-secreting cells in the spleen differed between the strains, natural killer (NK) cells, an important IFN-gamma source during early antiviral responses, were purified from spleens of uninfected weanlings. When stimulated with IL-12, BN NK cells secreted significantly less IFN-gamma than did F344 NK cells (P < 0.001). Incubation of NK cells from either strain with IL-12 and IL-18 resulted in synergistic increases in IFN-gamma production, but BN cells still secreted significantly less IFN-gamma than did F344 cells (P < 0.05). Similarly, after incubation with either IFN-alpha or IFN-alpha plus IL-18, BN NK cells secreted significantly less IFN-gamma than did F344 NK cells (P < 0.05). Therefore, reduced IFN-gamma secretion by NK cells in BN weanlings may play a role in the development of postviral chronic airway dysfunction.

An indirect effect of Stat5a in IL-2-induced proliferation: a critical role for Stat5a in IL-2-mediated IL-2 receptor alpha chain induction.

Stat5a was identified as a prolactin-induced transcription factor but also is activated by other cytokines, including interleukin-2 (IL-2) and IL-7. We have now analyzed the immune system of Stat5a-deficient mice. Stat5a-/- splenocytes exhibited defective IL-2-induced expression of the IL-2 receptor alpha chain (IL-2R alpha), a protein that together with IL-2R beta and the common cytokine receptor gamma chain (gamma(c)) mediates high-affinity IL-2 binding. Correspondingly, Stat5a-/- splenocytes exhibited markedly decreased proliferation to IL-2, although maximal proliferation was still achieved at IL-2 concentrations high enough to titrate intermediate-affinity IL-2R beta/gamma(c) receptors. Thus, defective Stat5a expression results in diminished proliferation by an indirect mechanism, resulting from defective receptor expression. Correspondingly, we show that Stat5a is essential for maximal responsiveness to antigenic stimuli in vivo, underscoring the physiological importance of IL-2-induced IL-2R alpha expression.

IL-2 and IL-7 induce heterodimerization of STAT5 isoforms in human peripheral blood T lymphoblasts.

Despite differences in T cell responses induced by interleukin (IL)-2 and IL-7, both cytokines modulate T cell functions by activation of signal transducers and activators of transcription (STAT) proteins. We examined the contribution of the two isoforms of STAT5, STAT5A and STAT5B, to IL-2- and IL-7-induced activation of human peripheral blood T lymphoblasts. Both cytokines induced assembly of STAT5A and STAT5B containing complexes capable of binding to the interferon-gamma activation sequence (GAS), and these complexes rapidly translocated (within 1 min) into the nucleus of IL-2- or IL-7-treated cells. The kinetics of this translocation were delayed in IL-7-treated as compared to IL-2-treated cells. IL-2 and IL-7 were equivalent in their ability to induce tyrosine phosphorylation of STAT5A and STAT5B and to facilitate binding of these STATs to an immobilized GAS element. Both IL-2 and IL-7 induced substantial amounts of STAT5A/STAT5B heterodimerization. Moreover, we observed constitutive association of STAT3 with each STAT5 isomer. These data suggest that IL-2 and IL-7 induce assembly of STAT heterodimers in a similar manner and that subsequent cellular responses may be driven by induction of similar sets of genes.

STAT5A-deficient mice demonstrate a defect in granulocyte-macrophage colony-stimulating factor-induced proliferation and gene expression.

Responses of cells to cytokines typically involve the activation of a family of latent DNA binding proteins, referred to as signal transducers and activators of transcription (STAT) proteins, which are critical for the expression of early response genes. Of the seven known STAT proteins, STAT5 (originally called mammary gland factor) has been shown to be activated by several cytokines, such as granulocyte-macrophage colony-stimulating factor (GM-CSF), interleukin-3 (IL-3), and IL-5, which are known to play important roles in growth and differentiation of hematopoietic precursors. In this report we have used mice that are deficient in STAT5A (one of two homologues of STAT5) to study the role of STAT5A in GM-CSF stimulation of cells. When bone marrow-derived macrophages were generated by differentiation with macrophage-CSF (M-CSF), exposure of cells from wild-type mice to GM-CSF resulted in a typical pattern of assembly of DNA binding proteins specific for the gamma activation sequence (GAS) element within the beta-casein promoter. However, in cells from the STAT5A null mouse one of the shifted bands was absent. Immunoblotting analysis in the null mice showed that lack of STAT5A protein resulted in no alteration in activation of STAT5B by tyrosine phosphorylation. Proliferation experiments revealed that, when exposed to increasing concentrations of GM-CSF, cells derived from the null mice grew considerably more slowly than cells derived from the wild-type mice. Moreover, expression of GM-CSF-dependent genes, CIS and A1, was markedly inhibited in cells derived from null mice as compared with those of wild-type mice. The decreased expression observed with A1, a bcl-2 like gene, may account in part for the suppression of growth in cells from the null mice. These data suggest that the presence of STAT5A during the GM-CSF-induced assembly of STAT5 dimers is critical for the formation of competent transcription factors that are required for both gene expression and cell proliferation.

One-step affinity purification of recombinant alphavbeta3 integrin from transfected cells.

Vitronectin receptor (alphavbeta3 integrin) is present on the surface of many types of cells. We describe a simple, fast, and reliable method of purification of recombinant human alphavbeta3 from Chinese hamster ovary (CHO) cells transfected with alphavbeta3 (VNRC3 cells). The method consists of two steps: lysis of the cells and affinity chromatography of the lysate on a GRGDSPK-Sepharose column. The yield of the procedure was about 79%. The purified receptor migrated as two bands on a silver stained SDS-polyacrylamide gel, corresponding to the alphav and beta3 subunits, and was recognized by monoclonal antibodies directed against alphav and the alphavbeta3 complex, but not by monoclonal antibody specific for the alphaIIbbeta3 complex. This receptor also bound to immobilized vitronectin, von Willebrand factor, and echistatin. However, binding to immobilized fibrinogen was not observed. Purified recombinant alphavbeta3 demonstrated greater immunoreactivity with LM 609, an alphavbeta3 complex-specific monoclonal antibody, than alphavbeta3 purified from placenta. As visualized by SDS-polyacrylamide gel electrophoresis, preparations of placenta-derived alphavbeta3 contained several contaminating proteins that were not present in preparations of recombinant alphavbeta3 purified from the transfected CHO cells.

Immunological characterization of eristostatin and echistatin binding sites on alpha IIb beta 3 and alpha V beta 3 integrins.

Two disintegrins with a high degree of amino acid sequence similarity, echistatin and eristostatin, showed a low level of interaction with Chinese hamster ovary (CHO) cells, but they bound to CHO cells transfected with alpha IIb beta 3 genes (A5 cells) and to CHO cells transfected with alpha v beta 3 genes (VNRC3 cells) in a reversible and saturable manner. Scatchard analysis revealed that eristostatin bound to 816000 sites per A5 cell (Kd 28 nM) and to 200000 sites (Kd 14 nM) per VNRC3 cell respectively. However, VNRC3 cells did not bind to immobilized eristostatin. Echistatin bound to 495000 sites (Kd 53 nM) per A5 cell and to 443000 sites (Kd 20 nM) per VNRC3 cell. As determined by flow cytometry, radiobinding assay and adhesion studies, binding of both disintegrins to A5 cells and resting platelets and binding of echistatin to VNRC3 cells resulted in the expression of ligand-induced binding sites (LIBS) on the beta 3 subunit. Eristostatin inhibited, more strongly than echistatin, the binding of three monoclonal antibodies: OPG2 (RGD motif dependent), A2A9 (alpha IIb beta 3 complex dependent) and 7E3 (alpha IIb beta 3 and alpha v beta 3 complex dependent) to A5 cells, to resting and to activated platelets and to purified alpha IIb beta 3. Experiments in which echistatin and eristostatin were used alone or in combination to inhibit the binding of 7E3 and OPG2 antibodies to resting platelets suggested that these two disintegrins bind to different but overlapping sites on alpha IIb beta 3 integrin. Monoclonal antibody LM 609 and echistatin seemed to bind to different sites on alpha v beta 3 integrin. However, echistatin inhibited binding of 7E3 antibody to VNRC3 cells and to purified alpha v beta 3 suggesting that alpha v beta 3 and alpha IIb beta 3 might share the same epitope to which both echistatin and 7E3 bind. Eristostatin had no effect in these systems, providing further evidence that it binds to a different epitope on alpha v beta 3.

Leishmania major-human macrophage interactions: cooperation between Mac-1 (CD11b/CD18) and complement receptor type 1 (CD35) in promastigote adhesion.

It has been suggested that the developmental maturation of Leishmania major promastigotes can affect their interaction with human complement receptors. To study this, we measured the adhesion of metacyclic and logarithmic-phase L. major promastigotes to complement receptors expressed on primary macrophages, to recombinant receptors expressed on transfected cells, or to purified complement receptors in a cell-free system. We demonstrate that complement-opsonized promastigotes can bind to both Mac-1 and complement receptor type 1 (CR1) and that the transition of promastigotes from the noninfectious logarithmic phase of growth to the infectious metacyclic stage does not affect this interaction. Furthermore, we show that Mac-1 and CR1 can cooperate to mediate the efficient adhesion of complement-opsonized metacyclic promastigotes to cells expressing both receptors. On human monocyte-derived macrophages, Mac-1 appears to make a quantitatively greater contribution to this adhesion than does CR1, since blocking macrophage Mac-1 diminishes metacyclic promastigote adhesion to a greater extent than does blocking CR1. In addition, bovine monocytes lacking Mac-1 exhibit a dramatic decrease in complement-dependent promastigote adhesion, relative to normal monocytes. The predominance of Mac-1 in these interactions is due, at least in part, to the factor I cofactor activity of CR1, which facilitates the conversion of C3b to iC3b. The stable adhesion of complement-opsonized metacyclic promastigotes to Mac-1 is a prerequisite for phagocytosis by human monocyte-derived macrophages. Blocking Mac-1 on macrophages abrogates the majority of the complement-dependent phagocytosis of promastigotes, whereas blocking CR1 has no detectable effect on phagocytosis. In addition, bovine monocytes lacking Mac-1 exhibit a dramatic reduction in promastigote phagocytosis relative to normal bovine monocytes. We conclude, therefore, that the two complement receptors, Mac-1 and CR1, can cooperate to mediate the initial complement-dependent adhesion of metacyclic promastigotes to human monocyte-derived macrophages and that Mac-1 is the predominant complement receptor responsible for the phagocytosis of complement-opsonized metacyclic promastigotes.

Cooperation between CR1 (CD35) and CR3 (CD 11b/CD18) in the binding of complement-opsonized particles.

We analyzed the binding of sheep erythrocytes bearing C3b (EC3b) to cells transfected with human complement receptors. EC3b bound avidly to cells expressing CR1 but failed to bind to cells expressing CR3. In the presence of factor I, the binding of EC3b, to CR1 was transient. Primary monocytes and cotransfected cells expressing both CR1 and CR3 mediated a stable resetting of EC3b, even in the prolonged presence of factor I. This stable adhesion was dependent on the presence of CR3, because blocking CR3 with mAb resulted in the factor I-dependent release of erythrocytes from these cells. A model is proposed in which these two complement receptors cooperate in a unique manner. These results suggest that the stable adhesion of complement-opsonized particles to cells expressing CR1 and CR3 is actually a dynamic molecular process in which an important function of leukocyte CR1 is to generate the ligands for CR3.

Disintegrin interaction with alpha V beta 3 integrin on human umbilical vein endothelial cells: expression of ligand-induced binding site on beta 3 subunit.

The effect of seven disintegrins (albolabrin, barbourin, bitistatin, echistatin, eristostatin, flavoridin, and kistrin) and the neurotoxin analogue, mambin, on the adhesion of human umbilical vein endothelial cells (HUVEC) to immobilized vitronectin and fibronectin has been studied. Adhesion to vitronectin was significantly inhibited by echistatin, kistrin, flavoridin, and mambin. Echistatin, flavoridin, and kistrin bound with high affinity to immobilized alpha V beta 3 in solid phase assay; other disintegrins bound at a much lower level. Echistatin and flavoridin had a modest inhibitory effect on HUVEC adhesion to fibronectin. HUVEC adhered to disintegrins with a high selectivity toward bitistatin, echistatin, flavoridin, kistrin, and mambin. Adhesion of HUVEC to fibronectin and vitronectin resulted in cell spreading, whereas cells adhering to immobilized echistatin remained globular and cells adhering to kistrin showed abnormal morphology. Echistatin and kistrin potently inhibited the binding of monoclonal antibody (Mab) 7E3, which recognizes the alpha V beta 3 complex, to HUVEC. Echistatin and kistrin also induced the binding to HUVEC of Mab 62, which recognizes the ligand-induced binding site (LIBS) epitope on the beta 3 subunit, enhancing HUVEC binding to immobilized Mab 62. Similar results with both antibodies were obtained in Chinese hamster ovary cells transfected with alpha V beta 3 genes. In conclusion, disintegrin interaction with HUVEC appears to be selectively mediated by alpha V beta 3 receptors, and it results in an expression of LIBS epitope that may play a role in the regulation of ligand-binding affinity and intracellular signaling.

Leishmania-macrophage interactions: multiple receptors, multiple ligands and diverse cellular responses.

Although a great deal of progress has been made over the last several years in understanding the interactions of leishmania with mammalian cells, much work remains. The consensus from many of these studies is that promastigotes utilize multiple receptors to bind to macrophages. Ongoing studies involving the use of both purified and molecularly cloned receptors and ligands should eventually provide a more detailed understanding of the mechanisms by which promastigotes infect macrophages. At this time, the mechanism(s) involved in the interaction of amastigotes with mammalian cells remains somewhat enigmatic. Since amastigotes are responsible for the cell to cell spread of leishmania, gaining a better understanding of amastigote-macrophage interactions represents an important goal of future leishmania research.

The intracellular bacterium Rhodococcus equi requires Mac-1 to bind to mammalian cells.

Rhodococcus equi is a facultative intracellular bacterium of macrophages that causes disease in immunocompromised individuals, particularly those with AIDS. In this report, we demonstrate that R. equi binding to mammalian cells requires complement and is mediated primarily by the leukocyte complement receptor, Mac-1. Bacteria bind to macrophages poorly unless exogenous complement is added to the incubation medium. The addition of fresh nonimmune serum, which contains no detectable antibodies to R. equi, greatly enhances bacterial binding to macrophages, whereas heat inactivation of this serum or immunological depletion of C3 from the serum reduces binding to levels only slightly higher than those of binding under serum-free conditions. Human serum depleted of C2 or C4 is fully opsonic, indicating that complement activation and fixation occur by the alternative pathway. The serum-dependent binding of rhodococci to macrophages is mediated primarily by the macrophage complement receptor type 3, Mac-1 (CD11b/CD18). Bacteria do not bind to fibroblastoid or epithelial cells that lack this receptor. Most of the bacterial binding to macrophages is inhibited by a monoclonal antibody to Mac-1 but is unaffected by a monoclonal antibody to complement receptor type 1. Furthermore, opsonized, but not unopsonized, bacteria bind to purified Mac-1 immobilized on plastic. In addition, in the presence of opsonic complement, rhodococci bind efficiently to fibroblastoid cells transfected with cloned Mac-1 but relatively poorly to cells transfected with the complement receptor type 1. Hence, R. equi fixes complement by activating the alternative complement pathway, and this fixation is a requirement for bacterial adhesion and invasion. Furthermore, complement fixation defines rhodococcal host cell tropism, since R. equi binds specifically and exclusively to cells expressing Mac-1.

Pentoxifylline- and caffeine-induced modulation of major histocompatibility complex class I expression on murine tumor cell lines.

The methylxanthines, pentoxifylline (PTX) and caffeine, modulated major histocompatibility complex class I expression on three constitutively class I-positive murine T cell lymphoma lines. On two cell lines, PTX or caffeine treatment enhanced H-2K and H-2D expression. Treatment with PTX and either interferon-gamma, interferon-alpha/beta, tumor necrosis factor, or lymphotoxin increased the levels of K and D expression above those observed following treatment with either PTX or cytokines alone. On the third cell line, PTX or caffeine treatment enhanced D expression and reduced K expression. Treatment with PTX and any of the cytokines resulted in a level of D expression greater than that seen following treatment with either PTX or cytokines alone. However, PTX inhibited the cytokine-induced enhancement of K expression. PTX and caffeine did not induce class I expression on three constitutively class I-negative murine T cell lymphoma lines. Dibutyryl cAMP modulated class I expression in the same manner as PTX and caffeine. The PTX- and caffeine-mediated enhancement of class I expression was at least partially blocked by an inhibitor of cAMP-dependent protein kinase A. These results demonstrate that PTX and caffeine are able to regulate class I expression and that this regulation involves a cAMP-dependent mechanism.

Interferon-alpha/beta, pentoxifylline, and caffeine synergize with interferon-gamma to induce major histocompatibility complex class I expression on a constitutively class I-negative murine tumor cell line.

The constitutively class I-negative tumor cell line, Kgv, expresses H-2Dk in response to interferon-gamma (IFN-gamma), but not in response to IFN-alpha/beta, tumor necrosis factor, or lymphotoxin. H-2Dk expression was not induced on Kgv cells by the methylxanthines, pentoxifylline (PTX) and caffeine, which modulate class I expression on cells that constitutively express class I molecules. Treatment of Kgv cells with either IFN-alpha/beta, PTX, caffeine, or dibutyryl cAMP and a concentration of IFN-gamma insufficient by itself to induce Dk expression resulted in the induction of Dk expression. Since PTX and caffeine are cAMP-specific phosphodiesterase inhibitors, it is possible that the effects of PTX, caffeine, and dibutyryl cAMP involve a cAMP-dependent mechanism. We conclude that concentrations of IFN-gamma insufficient to induce Dk expression on Kgv cells may be capable of rendering the Dk gene responsive to signals that, in the absence of IFN-gamma treatment, have no effect on Dk expression.

Methylxanthine-induced inhibition of the antigen- and superantigen-specific activation of T and B lymphocytes.

Methylxanthines have been shown to have a variety of effects on hematopoietic cell activation and function. These compounds inhibit cAMP-specific phosphodiesterase activity resulting in increased levels of intracellular cAMP. In the present study, we examined the effects of two methylxanthines, pentoxifylline (PTX) and caffeine, on the responses of both mouse and human lymphocytes to stimulation with polyclonal T- and B-cell mitogens, antigens, and the microbial superantigen, staphylococcal enterotoxin B (SEB). Both PTX and caffeine significantly inhibited mitogen- and SEB-induced proliferation by murine spleen cells, SEB- and antigen-induced proliferation and lymphokine secretion by murine Th1 and Th2 clones, and the generation of antigen-specific antibody producing murine spleen cells. These compounds also inhibited the proliferative responses of human lymphocytes to phytohemagglutinin, SEB, and tetanus toxoid. Efforts to determine whether these methylxanthine compounds mediated their inhibitory effects through a specific protein kinase pathway revealed a role for cAMP-dependent protein kinase A in methylxanthine-induced immunomodulation. However, it is possible that a protein kinase A-independent pathway may also be involved. These data demonstrate that the methylxanthines, PTX and caffeine, have profound effects on cells of the immune system and may have a potential use as immunotherapeutic agents in the treatment of various inflammatory conditions and autoimmune diseases.

Introduction of the H-2Dk gene into a class I-negative tumor cell line confers interferon-gamma inducibility upon the silent endogenous H-2Kk gene.

Kgv cells do not constitutively express class I mRNA or protein. Interferon (IFN)-gamma, but not IFN-alpha/beta, induces H-2Dk expression. IFN does not induce H-2Kk expression. We examined constitutive and IFN-inducible class I expression on Kgv cells stably transfected with genomic clones of H-2Kk or H-2Dk and on somatic cell hybrid lines constructed between Kgv cells and constitutively class I-positive cells of a distinguishable H-2 haplotype. Our results suggest that both the lack of constitutive class I expression and the inability of IFN-alpha/beta to induce class I expression on Kgv cells are primarily due to cis-regulatory mechanisms. However, stable introduction of the H-2Dk gene into Kgv cells conferred IFN-gamma inducibility upon the silent endogenous H-2Kk gene. Therefore, the failure of IFN-gamma to induce H-2Kk expression on Kgv cells is due, at least in part, to a trans-regulatory mechanism.

Specific infection of central nervous system white matter by a variant of gross murine leukemia virus.

Exposure of neonatal Balb.B mice to a variant of Gross murine leukemia virus, termed WB91-GV, resulted in selective white matter infection within the central nervous system. Viral antigens were detected in brain sections of animals inoculated by either intracerebral or intraperitoneal routes, but were only seen in mice exposed within the first day after birth. This distinct tropism was confirmed by virus replication and gp70 expression in isolated glial cultures in vitro. Analysis of gp70 expression in highly enriched glial subpopulations indicated that oligodendrocytes and perhaps a subset of astrocytes were the targets of this infection.