Showing papers on "Immune system published in 1985"

Target specific cross-linked heteroantibodies

Abstract: The present invention discloses a target specific cross-linked heteroantibody and a method of producing the same. The cross-linked heteroantibodies of the present invention can cause normal autologous cells of the immune system to destroy any unwanted cell for which an antibody is available. Treatment or control of tumors, viral infected cells, fungi, bacteria, parasites and the like is now made possible through the use of the heteroantibody complex of the present invention.

Binding of immunogenic peptides to Ia histocompatibility molecules

Abstract: Most cellular interactions essential for the development of an immune response involve the membrane glycoproteins encoded in the major histocompatibility gene complex. The products of the I region, the class II histocompatibility molecules (Ia molecules), are essential for accessory cells such as macrophages to present polypeptide antigens to helper T cells. This interaction, antigen presentation, is needed for T-cell recognition of the antigen and its consequent activation. How the Ia molecules regulate the immune response during antigen presentation is not known, although it is commonly thought to result from their association with the presented antigen. Recent studies, including the elucidation of the structure of the T-cell receptor, favour recognition of a single structure, an antigen-Ia complex. Here we report attempts to determine whether purified Ia glycoproteins have an affinity for polypeptide antigens presented by intact cells in an Ia-restricted manner. We first identified the epitope of a peptide antigen involved in presentation. Several laboratories have shown that globular proteins are altered (processed) in intracellular vesicles of the antigen-presenting cell before antigen presentation. A major component of the T-cell response is directed toward determinants found in the unfolded or denatured molecule, and our laboratory has shown that the determinant of the hen-egg lysozyme protein (HEL), presented in H-2k mice to T cells, is a sequence of only 10 amino acids. This portion resides in an area of the native molecule partially buried inside the molecule, in a beta-sheet conformation. To be presented, intact or native HEL must first be processed in acidic intracellular vesicles. Having isolated the peptide responsible for T-cell recognition of HEL, we sought a physical association of this peptide with purified, detergent-solubilized I-Ak molecules from B-hybridoma cells. We have found such an association, which may explain the role of the Ia glycoproteins in cellular interactions.

Interactions between the gonadal steroids and the immune system

Abstract: The immune system is regulated by the gonadal steroids estrogen, androgen, and progesterone, but the circulating levels of these steroids can also be affected by immune system function. Such interactions appear to be mediated through the hypothalamic-pituitary-gonadal-thymic axis and depend on pituitary luteinizing hormone released by thymic factors under the control of the gonadal steroids.

γ -Interferon transcriptionally regulates an early-response gene containing homology to platelet proteins

Abstract: Interferons are a family of proteins first identified by their ability to induce cellular resistance to infection by many viruses. In addition to the antiviral properties it shares with the α- and β-interferons, γ-interferon (IFN-γ), a lymphokine secreted by activated T cells, activates macrophages, stimulates B cells, increases fibroblast and endothelial cell resistance to many non-viral intracellular parasites and modulates cell-surface proteins central to immune cell regulation1–13. To identify molecules involved in the IFN-γ response and characterize their modulation, we have isolated genes that are induced following recombinant IFN-γ treatment of U937 cells, a histiocytic lymphoma cell line with monocytic characteristics14,15. We report here the molecular cloning and characterization of a gene regulated by rIFN-γ in U937 cells as well as in human mononuclear cells, fibroblasts and endothelial cells. Messenger RNA from this gene is induced within 30 min of rIFN-γ treatment and demonstrates maximal (>30-fold) accumulation within 5 h. Increased transcription is partly responsible for this accumulation. This gene encodes a protein of relative molecular mass (Mr) 12,378 which has significant amino-acid homology to platelet factor-4 and β-thromboglobulin, two chemo-tatic proteins released by platelets on degranulation. This IFN-γ-inducible protein may be a member of a family of proteins involved in the inflammatory process.

T-lymphocyte recognition of antigen in association with gene products of the major histocompatibility complex.

Abstract: One of the most important conceptual breakthroughs in cellular im­ munology during the 1970s was the realization that the influence of gene products of the major histocompatibility complex (MHC) on immune reactions stemmed largely from the central role they played in the activation of T lymphocytes (1 ). Experiments with both cytotoxic and inducer lymphocytes demonstrated that the T cells had to co-recognize antigen in association with one of these MHC-encoded molecules in order for activation to occur. Cytotoxic T cells required class I molecules whereas inducer T cells required class II molecules. Thus, in contrast to other cell-surface receptors specific for a single ligand (e.g. a hormone receptor) the antigen-specific receptor on T cells must form a ternary complex with two ligands. One of these ligands is a trans­ membrane glycoprotein on the surface of another cell; the other is often an unknown partial degradation product of the original antigen added to the cultures. As a consequence of this complexity, no simple ligand binding assays exist. All receptor interactions are measured with a biological assay, such as thymidine incorporation, which appears to reflect in a quantitative

Sex hormones, immune responses, and autoimmune diseases. Mechanisms of sex hormone action

Abstract: Immune reactivity is greater in females than in males. In both experimental animals and in man there is a greater preponderance of autoimmune diseases in females, compared with males. Studies in many experimental models have established that the underlying basis for this sex-related susceptibility is the marked effects of sex hormones. Sex hormones influence the onset and severity of immune-mediated pathologic conditions by modulating lymphocytes at all stages of life, prenatal, prepubertal, and postpubertal. However, despite extensive studies, the mechanisms of sex hormone action are not precisely understood. Earlier evidence suggested that the sex hormones acted via the thymus gland. In recent years it has become apparent that sex hormones can also influence the immune system by acting on several nonclassic target sites such as the immune system itself (nonthymic lymphoid organs), the central nervous system, the macrophage-macrocyte system, and the skeletal system. Immunoregulatory T cells appear to be most sensitive to sex hormone action among lymphoid cells. Several mechanisms of action of sex hormones are discussed in this review. The possibility of using sex hormone modulation of immune responses for the treatment of autoimmune disorders is a promising area for future investigation.

Host resistance directed selectively against H-2-deficient lymphoma variants. Analysis of the mechanism.

Abstract: Three independent variants with a profound reduction of cell surface H-2 have been selected from the C57BL/6 mouse-derived RBL-5 and EL-4 T lymphomas. After subcutaneous inoculation of low cell doses in syngeneic mice, the H-2- variants failed to grow out, whereas the H-2+ control lines showed progressive growth. No difference in growth rate or cloning efficiency was detectable in tissue culture. The in vivo difference in tumor outgrowth was analyzed in detail for one of the H-2-low lines. The outgrowth difference remained after the H-2-low variant and the control line had been injected subcutaneously in opposite flanks of the same mouse, and it was not dependent upon activity of mature T cells, since the same result was seen in athymic nude mice. The difference was partially sensitive to irradiation of the hosts. When mice were pretreated with anti-asialo GM1 antiserum, known to depress natural killer (NK) cell activity, the difference in outgrowth was abolished, and both the control line and the H-2- variant showed progressive growth in vivo. Experiments comparing the distribution and survival of isotope-prelabeled variant and wild type cells indicated that a rapid elimination of the former took place within 24 h after intravenous injection. These differences in tumor elimination were not seen in mice treated with anti-asialo GM1 antiserum. We conclude that the reduced tumorigenicity of sublines with impaired H-2 expression is largely, if not exclusively due to rapid elimination by NK cells. These findings may reflect an inverse, indirect relation between factors controlling H-2 expression and NK sensitivity. Another possible explanation is that major histocompatibility complex (MHC)-encoded gene products are directly involved in a regulatory signal in the NK cell system. According to this interpretation, immunological selectivity in the NK cell system would be achieved by the failure to recognize self-MHC, irrespective of the presence of foreign antigens, i.e. by detection of no-self rather than of nonself. This may also explain previous observations on H-2-linked hybrid resistance against lymphoid grafts and changes in H-2 phenotypes associated with tumor progression.

Qualitative analysis of immune function in patients with the acquired immunodeficiency syndrome. Evidence for a selective defect in soluble antigen recognition.

Abstract: We studied purified subpopulations of lymphocytes from patients with the acquired immunodeficiency syndrome (AIDS) in order to determine whether intrinsic defects in lymphocyte function, aside from those due to alterations in lymphocyte numbers, were present. Mitogen-stimulated DNA synthesis, production of gamma interferon, production of interleukin-2, and expression of interleukin-2 receptors, although variably decreased in unseparated cell populations, were normal in populations of purified T-cell subsets. In contrast, DNA synthesis in response to the soluble protein antigen tetanus toxoid was decreased in both unseparated and purified T-cell subpopulations. Cell-mixing experiments demonstrated that the hyporesponsiveness of the unfractionated lymphocytes from patients with AIDS was not due to active suppression. We conclude that the lymphocytes of patients with AIDS, although capable of undergoing a normal degree of blast transformation and lymphokine production after mitogenic stimulation, ha...

Down-Regulation of the Antitumor Immune Response

Abstract: Publisher Summary This chapter discusses the immune response to chemically induced, transplantable tumors in syngeneic mice. It deals with those tumors that are immunogenic by virtue of their possession of tumor-specific, transplantation rejection antigens. A framework of evidence has been presented in the chapter that supports the hypothesis of down-regulation of antitumor immune response. Direct evidence for the hypothesis consists of the finding that infusion of suppressor spleen cells from donors with a large tumor can prevent recipient mice from generating a concomitant immune response. Additional direct evidence is being supplied by an ongoing study that shows that complete or partial regression of the Meth A fibrosarcoma that results from appropriately timed exposure to sublethal, whole-body γ-radiation is associated with a prolonged generation of effector T cells and an absence of suppressor T cells. It is suggested that down-regulation of antitumor immunity by suppressor T cells can explain the escape of only of those tumors that are immunogenic enough to evoke the generation of enough effectors T cells to cause tumor regression in the absence of suppressor T cells. This implies that the immunity generated to some tumors is too little too late to cause regression, even in the absence of the negative regulatory influence of suppressor cells. Therefore, successful immunotherapy of some established tumors, besides depending on the employment of agents capable of eliminating suppressor T cells, will also depend on the employment of agents capable of directly augmenting the generation of effectors T cells.

Invertebrate Immunity: Basic Concepts and Recent Advances

Abstract: Publisher Summary This chapter discusses basic concepts and advances of invertebrate immunity. In mammals and other higher vertebrates, a plethora of information exists on the origin, development, structure, and functions of the cells and tissues of the immune system. The cells of the invertebrate immune system can be subdivided into two main groups—namely, the freely circulating blood cells/coelomocytes and a variety of fixed cells. These latter cells may be either scattered throughout the tissues or localized together in hemopoietidphagocytic organs. In addition to these cell-mediated defenses, there are a number of chemical and mechanical barriers to parasite invasion. The chapter also explains the structure and classification of blood cells/coelomocytes. It provides a functional approach for blood cell classification and the cells are arranged into five main groups—namely, progenitor cells, phagocytic cells, hemostatic cells, nutritive cells, and pigmented cells.

Human immune response to multiple injections of murine monoclonal IgG.

Abstract: Murine monoclonal antibody infusions in humans should induce a human anti-mouse immunoglobulin (mIgG) immune response, especially if multiple infusions over an extended period of time are necessary for therapeutic efficacy. We have administered multiple infusions of the murine monoclonal antibody T101 to patients with cutaneous T cell lymphoma (CTCL) or chronic lymphocytic leukemia (CLL). Five of 10 CTCL patients, compared with zero of six CLL patients, developed antibodies to mIgG. In those CTCL patients who did not demonstrate anti-mIgG antibodies, we were unable to correlate the lack of response to any of a large number of clinical parameters. Anti-mIgG antibodies were of both the mu and gamma isotypes and were detectable 14 days after the first infusion. Multiple infusions were associated with elevated titers. The anti-idiotypic portion of the anti-mIgG titer steadily increased with each infusion until eventually, in one patient receiving eight weekly infusions, well over one-half the serum anti-mIgG recognized only T101 and not four other murine IgG2AK antibodies tested. To increase our confidence in these findings, four separate assay systems were used to make these determinations. The identification of anti-idiotype antibodies as the dominant species of the immune response to multiple infusions of murine monoclonal antibody has major implications for future work with monoclonal antibodies. Although it has been suggested that human monoclonal antibodies would obviate an immune response, our work implies that such antibodies might still induce anti-idiotype antibodies if multiple infusions are administered.

Successful treatment of autoimmunity in NZB/NZW F1 mice with monoclonal antibody to L3T4.

Abstract: Autoimmune NZB/NZW mice were treated with weekly injections of monoclonal antibody (mAb) to L3T4, an antigen expressed on a distinct subpopulation of T cells that respond to class II major histocompatibility antigens. Treatment with anti-L3T4 depleted circulating target cells, reduced autoantibody production, retarded renal disease, and prolonged life relative to control mice treated either with saline or with purified nonimmune rat IgG. These findings establish that autoimmune disease in NZB/NZW mice is regulated by T cells. In contrast to mice treated with nonimmune rat IgG, mice treated with rat anti-L3T4 mAb developed little or no antibody to rat Ig. Thus, the benefits of treatment with anti-L3T4 were achieved while minimizing the risks associated with a host immune response to therapy. This study raises the possibility that treatment with mAb against Leu-3/T4, the human homologue for L3T4 might be effective in the treatment of certain autoimmune diseases in people.

Gamma interferon is spontaneously released by alveolar macrophages and lung T lymphocytes in patients with pulmonary sarcoidosis.

Abstract: Gamma interferon (IFN gamma) is a potent immune mediator that plays a central role in enhancing cellular immune processes. This study demonstrates that while lung mononuclear cells from normal individuals spontaneously release little or no interferon (less than 10 U/10(6) cells per 24 h), those from patients with pulmonary sarcoidosis spontaneously release considerable amounts (65 +/- 20 U/10(6) cells per 24 h, P less than 0.02 compared to normals). Furthermore, cells from patients with active disease release far more interferon than those from patients with inactive disease (101 +/- 36 compared to 24 +/- 8 U/10(6) cells per 24 h, P less than 0.02). Characterization of this interferon using acid sensitivity, specific antibody inhibition, and target cell specificity criteria demonstrated that it was almost entirely IFN gamma. This spontaneous release of IFN gamma appeared to be compartmentalized to the lung of these patients in that their blood mononuclear cells spontaneously released little or no IFN gamma (P less than 0.02, compared to sarcoidosis lung mononuclear cells) and no IFN gamma was detected in their serum. Both lung T lymphocytes and alveolar macrophages contributed to the spontaneous release of IFN gamma by lung mononuclear cells from sarcoid patients; purified preparations of T lymphocytes and alveolar macrophages from these patients spontaneously released similar amounts of IFN gamma (56 +/- 21 and 32 +/- 11 U/10(6) cells per 24 h, respectively, P greater than 0.3). At least one role for IFN gamma in the pathogenesis of sarcoidosis appeared to be related to activation of alveolar macrophages, as alveolar macrophages recovered from patients with active disease spontaneously killed [3H]uridine-labeled tumor cell targets (17.7 +/- 4.5% cytotoxicity compared with 2.8 +/- 0.9% in normals, P less than 0.02) and purified IFN gamma enhanced the ability of alveolar macrophages from sarcoidosis patients with inactive disease to kill similar targets (P less than 0.001, compared to alveolar macrophages cultured in medium alone). Treatment of sarcoid patients with corticosteroids, a therapy known to suppress the activity of the disease, caused a marked reduction in the level of spontaneous IFN gamma release by lung mononuclear cells compared with untreated patients (P less than 0.02), which suggests that the effectiveness of corticosteroid therapy in controlling active pulmonary sarcoidosis may, at least in part, be due to suppression of IFN gamma release.

Abrogation of metastatic properties of tumour cells by de novo expression of H-2K antigens following H-2 gene transfection

Abstract: H–2 gene transfection was used to restore expression of H–2K antigens in metastatic and non-metastatic subclones of a murine fibrosarcoma that lack their major histocompatibility complex-encoded H–2K antigens. De novo expression of H–2K reduced tumorigenicity and abolished the formation of metastasis in syngeneic mice. Expression of H–2K may lead to effective recognition of the disseminating tumour cells by the host immune system.

In vivo administration of purified human interleukin 2. I. Half-life and immunologic effects of the Jurkat cell line-derived interleukin 2

Abstract: A total of 12 patients with cancer or the acquired immunodeficiency syndrome have been treated with Jurkat-derived purified human interleukin 2 (IL 2). The toxicity was dose-related and consisted primarily of fever, chills, malaise, and mild reversible hepatic dysfunction. No evidence of clinical efficacy was seen when IL 2 was administered at doses of up to 2000 micrograms by bolus or continuous infusion once a week for 4 wk. No significant chronic immunologic effects (changes in mitogen responsiveness of induction of cytotoxic cells) were demonstrated. IL 2 was measured in the serum of patients, and a half-life of approximately 5 to 7 min was demonstrated with a second component of clearance of 30 to 120 min. Heating the serum at 56 degrees C for 30 min allowed for detection of smaller quantities of IL 2 by removing a serum inhibitor whose effect was seen at dilutions of up to 1/80 in our biologic assay. Sustained levels of IL 2 could be maintained by continuous infusion. Acute effects of IL 2 administration included a rapid decrease in peripheral mononuclear cells with a shift to cells of macrophage lineage and a rapid decrease in total T lymphocytes and T lymphocyte subsets. IL 2 responsiveness of peripheral mononuclear cells decreased within 15 min of IL 2 administration, with a concurrent decrease in the ability to generate lymphokine-activated killer cells. These changes did not recover until 48 hr after IL 2 administration. A rise in serum ACTH and cortisol levels was seen after the administration of 1 to 2 mg of IL 2. Future studies will evaluate the role of larger quantities of recombinant IL 2 given alone or in conjunction with in vitro-generated lymphokine-activated killer cells.

Adoptive transfer studies demonstrating the antiviral effect of natural killer cells in vivo.

Abstract: We carried out adoptive transfer studies to determine the role of natural killer (NK) cells in resistance to murine cytomegalovirus (MCMV) and lymphocytic choriomeningitis virus (LCMV). We transferred leukocytes from adult mice into suckling mice 1 d before injecting them with virus. Resistance was measured by enhancement of survival and reduction of virus multiplication in the spleens of recipient mice. The phenotype of the cell population capable of mediating resistance to MCMV was that of a nylon wool-nonadherent, asialo GM1+, NK 1.2+, Ly-5+, Thy-1-, Ia-, low density lymphocyte; this is the phenotype of an NK cell. Cloned NK cells, but not cloned T cells, provided resistance to MCMV in suckling mice. Cloned NK cells also provided resistance to MCMV in irradiated adult mice, and antibody to asialo GM1, which depletes NK cell activity in vivo, enhanced the synthesis of MCMV in athymic nude mice. Neither adult leukocytes nor cloned NK cells influenced LCMV synthesis in suckling mice. We conclude that a general property of NK cells may be to provide natural resistance to virus infections, and that NK cells can protect mice from MCMV but not from LCMV.

Immunologic abnormalities in the acquired immunodeficiency syndrome.

Abstract: The immune systems of patients with AIDS are characterized by a profound defect in cell-mediated immunity which is predominantly due to a decrease in the number and function of the helper/inducer T lymphocytes, particularly the antigen-reactive cells. This defect is manifested primarily as decreases in delayed-type hypersensitivity reactions and decreased in vitro proliferation to soluble antigen. A variety of secondary manifestations of immunologic dysfunction occur, some of which result from a lack of effective inducer-cell function, others from the occurrence of opportunistic infections. Among these secondary phenomena are decreased cytotoxic lymphocyte responses, polyclonal B-cell activation, decreased monocyte chemotaxis, and a number of serologic abnormalities. The primary cause of this defect in the antigen-reactive helper/inducer T lymphocyte is infection with a class of T-cell tropic retroviruses known as HTLV-III or LAV. This virus is capable of selectively infecting T4 + lymphocytes and can be isolated consistently from patients with AIDS or AIDS-related conditions. Despite substantial knowledge concerning the nature of the immune defect in AIDS and its causative agent, little progress has been made in developing effective therapies for this uniformly fatal illness. Because the incidence of this disease continues to increase, and patients stricken with this illness have a median survival of two years, additional investigation in this area is greatly needed. Continued effort aimed at delineating the precise nature of the immune defect in these patients should be of value in attempting to enhance our understanding of the human immune system in both normal and disease states.

Effects of immune complexes on production by human monocytes of interleukin 1 or an interleukin 1 inhibitor.

Abstract: The objective of these studies was to examine the ability of phorbol myristic acetate (PMA), Fc fragments, and various forms of immune complexes to induce the production by human monocytes of factors stimulatory to chondrocytes or thymocytes. All of these materials were prepared free of detectable contamination with bacterial lipopolysaccharides (LPS) at the level of less than 0.1 ng/ml. Supernatants and lysates from stimulated human monocytes were assayed for their ability to induce collagenase production in cultured rabbit articular chondrocytes or to augment mitogen-induced proliferation of murine thymocytes. The activity detected by these assays exhibited an m.w. of approximately 15,000, and electrophoretic heterogeneity in the pH ranges of 5 to 5.5 and 6.5 to 7.0, characteristics of human interleukin 1 (IL 1) or IL 1-like factors. Monocytes cultured with 2 ng/ml LPS produced chondrocyte and thymocyte stimulatory factors. PMA, Fc fragments, and soluble, precipitated, particulate, or adherent immune complexes were inactive in stimulating the monocytes. However, complement fixation by precipitated immune complexes did generate activity capable of inducing monocytes to synthesize and secrete chondrocyte and thymocyte stimulatory factors. Adherent immune complexes and PMA were biologically active, as evidenced by induction of superoxide generation in the human monocytes. Supernatants from monocytes cultured on adherent immune complexes contained a factor inhibitory to chondrocyte and thymocyte responsiveness. This factor had a m.w. approximately 22,000 and appeared to inhibit specifically IL 1 stimulation, not interleukin 2 stimulation or cell proliferation. It was concluded that PMA, Fc fragments, and various forms of immune complexes in the absence of complement do not induce IL 1 production in human monocytes. However, complement fixation by immune complexes does lead to activation of monocytes to produce IL 1. Monocytes cultured on adherent immune complexes produce an IL 1 inhibitor.

Perturbation of the T4 molecule transmits a negative signal to T cells.

Abstract: We investigated the functional role of the T4 molecule in the activation of T cells by OKT3. T4+ cells were induced to proliferate by OKT3 and erythrocyte rosette-negative accessory cells in the presence or absence of OKT4C, OKT4, and OKT1. OKT4C (IgG1), and not OKT4 (IgG2) or OKT1 (IgG1) inhibited proliferation when OKT4C was added during the first 24 h of cell culture. The inhibition of OKT3 activation by OKT4C did not require Ia+ accessory cells, since T4+ cells could be activated by OKT3 in the presence of Ia- U937 cells, and this activation was markedly inhibited by OKT4C. Furthermore, T4+ cells could be induced to proliferate by OKT3 covalently linked to Sepharose beads, in the absence of any accessory cells. Under these conditions, OKT4C, but not OKT4 or OKT1 significantly inhibited proliferation. These data demonstrate that at least one mechanism by which anti-T4 antibodies inhibit T cell activation is independent of any putative role of T4 molecules in the recognition of Ia on target cells. The data are compatible with the idea that perturbation of the T4 molecules can transmit a negative signal to T4+ cells.

Human T-cell clones from autoimmune thyroid glands: specific recognition of autologous thyroid cells.

Abstract: The thyroid glands of patients with autoimmune diseases such as Graves' disease and certain forms of goiter contain infiltrating activated T lymphocytes and, unlike cells of normal glands, the epithelial follicular cells strongly express histocompatibility antigens of the HLA-DR type. In a study of such autoimmune disorders, the infiltrating T cells from the thyroid glands of two patients with Graves' disease were cloned in mitogen-free interleukin-2 (T-cell growth factor). The clones were expanded and their specificity was tested. Three types of clones were found. One group, of T4 phenotype, specifically recognized autologous thyroid cells. Another, also of T4 phenotype, recognized autologous thyroid or blood cells and thus responded positively in the autologous mixed lymphocyte reaction. Other clones derived from cells that were activated in vivo were of no known specificity. These clones provide a model of a human autoimmune disease and their analysis should clarify mechanisms of pathogenesis and provide clues to abrogating these undesirable immune responses.

Gamma interferon activates human macrophages to become tumoricidal and leishmanicidal but enhances replication of macrophage-associated mycobacteria.

Abstract: Recombinant human gamma interferon (rIFN-gamma) was examined for its ability to activate human peripheral blood monocyte-derived macrophages to kill tumor cells and to affect the replication of two phylogenetically distinct intracellular pathogens, Mycobacterium tuberculosis and Leishmania donovani. Macrophages preincubated overnight with doses of rIFN-gamma from 5 to 500 U/ml killed [3H]thymidine-labeled mouse L929 tumor targets, as measured by the release of [3H]thymidine into the supernatant after 48 h. Counts of macrophages initially infected with leishmania promastigotes showed that rIFN-gamma-pretreated macrophages could both inhibit the replication of and kill the resulting intramacrophage amastigotes over a 7-day period. However, rIFN-gamma pretreatment of macrophages actually enhanced mycobacterial replication over a 5- to 7-day period, as assessed by (i) counting acid-fast bacilli or (ii) lysing macrophages to release bacteria and determining the numbers of viable units. Mycobacterial growth was not affected by rIFN-gamma in the absence of macrophages. rIFN-gamma pretreatment had opposite effects on the uptake of mycobacteria and leishmania. As many as 80% fewer activated macrophages ingested mycobacteria compared with controls, whereas 50% more activated macrophages were infected with leishmania. These results suggest that rIFN-gamma may interfere with the immune destruction of intracellular tubercle bacilli and that the mechanisms of immunity against mycobacteria and leishmania may differ.

Interleukin-1 activation of vascular endothelium. Effects on procoagulant activity and leukocyte adhesion.

Abstract: Interleukin-1 (IL-1), an inflammatory/immune mediator, acts directly and selectively on cultured human vascular endothelial cells to alter two important functional properties. First, IL-1 induces endothelial cell biosynthesis and surface expression of a tissue factor-like procoagulant activity. Second, IL-1 dramatically increases the adhesiveness of the endothelial cell surface for human peripheral blood polymorphonuclear leukocytes (6-42-fold increase) and monocytes (2-5-fold increase), as well as the related leukocyte cell lines HL-60 and U937. These IL-1 effects are concentration-dependent (maximum, 5-10 U/ml), time-dependent (peak 4-6 hours), and reversible. Cycloheximide and actinomycin D block these IL-1 actions on endothelium, which suggests the requirement for de novo protein synthesis. Human-monocyte-derived IL-1, cell-line--derived IL-1, and recombinant IL-1 exhibited comparable biologic activities in our assays, whereas two other mediators, IL-2 and immune interferon, were without effect. IL-1 stimulated procoagulant activity and leukocyte adhesion in human endothelial cells cultured from both umbilical veins and adult saphenous veins but not in other cultured cell types, including SV-40-transformed human endothelial cells and human dermal fibroblasts. Similar actions of IL-1 on vascular endothelium in vivo may contribute to the development of intravascular coagulation and enhanced leukocyte--vessel wall adhesion at sites of inflammation.

Immunopathogenesis of the Acquired Immunodeficiency Syndrome

Abstract: Many abnormalities of humoral and cellular immunity associated with the acquired immunodeficiency syndrome can be explained by the preferential infection of the T4 lymphocyte subset with t...

Immune-neuroendocrine interactions

Abstract: Concepts and facts concerning immune-neuroendocrine interactions are discussed. The immune response elicits endocrine, autonomic, and brain functional changes. These changes can be mediated by soluble factors released by activated immunologic cells. As a result of these immune-neuroendocrine interactions the content of powerful agents such as hormones, neurotransmitters, and neuropeptides in the microenvironment of immunologic cells is modified. This leads to external immunoregulatory signals imposed upon autoregulatory mechanisms.

Coexpression of T4 and T8 on peripheral blood T cells demonstrated by two-color fluorescence flow cytometry.

Abstract: Using two-color fluorescence flow cytometry, we were able to detect the presence of small numbers of T4+T8+ cells (about 3%) in freshly isolated peripheral T cell populations derived from normal healthy donors. Coexpression of T4 and T8 was predominantly found on large blastlike cells and appeared to be related to activation. Stimulation of peripheral T cells with concanavalin A (Con A) for 5 days resulted in the generation of up to 60% of T4+T8+ cells. Coexpression was accompanied by a twofold increase in the number of T8 antigenic sites per cell. The T4+T8+ cells in lectin-stimulated cultures expressed high levels of the activation antigens T9, T10, and the IL-2 receptor but lacked T6, an antigen found on a majority of stage II thymocytes. Coexpression of T4 and T8 appeared to be a transitory process, because prolonged culture of T cells in the absence of lectin resulted in the loss of the T4+T8+ phenotype. Our data suggest that T cell activation in peripheral blood results in the generation of a T4+T8+ cell population which is distinct from previously described thymic and peripheral blood cells. Because T4 and T8 molecules may interact directly with MHC antigens, coexpression of these molecules may have an important role in immune function.

Lentiviral Diseases of Sheep and Goats: Chronic Pneumonia Leukoencephalomyelitis and Arthritis

Abstract: This review describes the pathogenesis of a slowly progressive disease complex caused by naturally occurring nononcogenic retroviruses in sheep and goats. In nature, infections are usually clinically silent, but disease may manifest itself after prolonged incubation periods. Clinically, this is seen as dyspnea, progressive paralysis, and/or progressive arthritis. In all organs the basic lesion is inflammatory with infiltration and proliferation of lymphocytes, plasma cells, and macrophages. Other organ-specific pathologic changes such as primary demyelination in the central nervous system and degeneration of cartilaginous structures in joints accompany inflammation. The viruses infect tissue-specific macrophage populations in vivo. Viral replication in these cells is restricted to minimal levels but continues indefinitely in the animal as a result of either failure to induce specific neutralizing antibodies or antigenic drift when neutralizing antibodies develop. Consistent low-grade viral replication sets the pace for disease by providing continuous antigenic stimulation for the inflammatory cellular immune response or antibodies that localize in the target tissues. These cells and immune complexes may have adverse effects on indigenous cell populations.