Trypanosoma cruzi-induced suppressor substance

It is reported that mice infected withTrypanosoma cruzi accumulate a suppressor substance (SS) in their sera which, when passively transferred to normal syngeneic recipients, can inhibit primary and secondary antibody responses of spleen and lymph-node cells to T-cell-dependent and -independent antigens; spleen cells were found to be suppressed earlier and to a greater degree than were lymph-node cells. Studies on the effects of the SS on normal cells in vitro also revealed that spleen cells were affected earlier than lymph-node cells, although there were no demonstrable differences in the maximum suppression effected by the SS between the two sources of lymphoid cells. Whereas normal mice could be passively immunosuppressed in vivo with the SS, it was found that serum from passively suppressed recipients did not retain measurable quantities of the SS in their sera, indicating that the substance was removed from circulation at an early stage or was diluted beyond effective concentrations. In in vivo transfers of the SS toH-2-similar and -dissimilar recipients it was found that the effectiveness of the SS related to theH-2 haplotype of the recipients.     

Trypanosoma cruzi-induced suppressor substance III. Activation of suppressor cells

Serum from mice infected with Trypanosoma cruzi (SSS) is known to interact with normal spleen cells to induce an immunosuppressed condition and activate splenic suppressor cells. The induction of immunosuppression by SSS was shown to be independent of, and precede the activation of, suppressor cells. Suppressor-cell activation, however, was demonstrable only after the induction of immunosuppression. Furthermore, mice that were given two aliquots of SSS at different intervals of time, exhibited suppression of humoral responses of similar duration and magnitude, regardless of the SSS transfer regimen, whereas both the length and degree of suppressor-cell activity was critically dependent on the interval of time between SSS transfers. SSS interacted with spleen cells via a trypsin-sensitive membrane site which was regenerable within a 4- to 5-hr period, yet the suppressive effects of SSS on spleen cells following interaction was resistant to treatment with trypsin. The interaction between SSS and spleen cells during brief adsorption protocols leads to immunosuppression only because extensive washing of SSS-treated spleen cells did not reverse the immunosuppression process, but did prevent the development of detectable suppressor cells. The phenomenon of suppressor-cell activation was further distinguished from immunosuppression in that supernates from culture of spleen cells derived from SSS-treated mice or T. cruzi-infected contained a factor that activated suppressor cells, but did not directly induce a state of suppression in the responding cell population.     

Differences in the regulation of humoral responses between mice infected with Trypanosoma cruzi and mice administered T. cruzi-induced suppressor substance

In the present study, the effects of Trypanosoma cruzi and the T. cruzi-induced serum suppressor substance (SSS) on antibody responses were compared. Although infection with T. cruzi led to an alteration in T cell helper activity and a reduced specific B cell precursor frequency, SSS did not have a similar effect on either of these cell populations. The characteristics of the altered T cell helper activity was further investigated, and it was found that helper activity appeared earlier in infected mice than in normal or SSS-suppressed mice, and less antigen was required for optimal elicitation of T helper cells in infected mice. The potency of T cell helper activity also was shown to differ, and in the order T. cruzi-infected 6E normal 6E SSS-suppressed mice. It was found that spleen cells from T. cruzi-infected mice elaborated more potent specific helper factors than spleen cells from normal or SSS-suppressed mice, but did not produce a detectable nonspecific helper factor in vitro. Finally, the addition of B cells from low-dose primed, T. cruzi-infected mice to cultures of normal spleen cells resulted in subnormal responses to the priming antigen (sheep erythrocytes) but not to another unrelated antigen (trinitrophenyl-haptenated Brucella abortus), whereas similarly sensitized B cells from normal or SSS-suppressed mice caused no such effect.     

Trypanosoma cruzi-induced suppression of IL-2 production. II. Evidence for a role for suppressor cells

Suppression of IL-2 production during experimental Chagas' disease accounts at least in part for the overall depressed state of the immune system in infected mice. The failure to produce IL-2 in response to mitogen stimulation is not the result of the lack of cells capable of producing IL-2, but appears to be due to regulation of IL-2 production by suppressor cells. This conclusion is supported by cell-mixing experiments where the ability of cells from infected mice to suppress normal spleen cell IL-2 production is evident. Although depletion of plastic and Sephadex G-10 adherent cells results in modest increases in IL-2 production by spleen cells from infected mice, even in the presence of normal adherent cells as a source of IL-1 producers, IL-2 production does not approach normal levels. Also, isolated macrophages are not by themselves suppressive for normal spleen cell IL-2 production, whereas plastic and G-10 nonadherent cells from infected mice are. Depletion of Thy-1+ and Ly-2+ cells not only completely abrogates the ability of spleen cells from infected mice to suppress normal IL-2 production, but results in a cell preparation which actually enhances IL-2 production. Anti-Ly-2 and C treatment of infected spleen cells also markedly enhances their ability to produce IL-2. These results indicate a major role for Ts cells in the regulation of IL-2 production, and a relatively minor role of macrophages as direct effector cells of suppression in this response. The ability to enhance IL-2 production in this system with PG synthesis inhibitors suggests a role for PG-producing cells such as macrophages in the suppressor mechanism, perhaps as inducers of the suppressor effector cells.     

Trypanosoma cruzi-induced suppression of IL-2 production. I. Evidence for the presence of IL-2-producing cells

Mice infected with the protozoan parasite Trypanosoma cruzi, the causative agent of human Chagas' disease, are profoundly immunodepressed in their response to various Ag and mitogens. A key factor in this immunosuppression is the essential inability to produce the T cell growth factor IL-2. In this study we demonstrate that this failure to produce IL-2 in response to mitogen stimulation is not the result of the absence of production of soluble or membrane-bound IL-1 by macrophages. Limiting dilution analysis of the precursor frequency of IL-2 producers suggests that an adequate number of precursors for IL-2 production are present in the spleens of infected mice, but that their activity may be regulated by suppressor cells. The presence of precursor cells for IL-2 production is supported by experiments showing that the combination of calcium ionophores and PMA elicits IL-2 production by spleen cells from both normal and T. cruzi-infected mice. Although Con A can provide either of the signals necessary for IL-2 production, calcium flux or protein kinase C activation, to T cells from normal mice, Con A in combination with either calcium ionophore or phorbol ester failed to activate T cells from infected mice to produce IL-2. Preculture of spleen cells from infected mice for 48 to 72 h before addition of Con A results in near normal production of IL-2. This recovery of the capacity to produce IL-2 does not occur if parasite Ag is present during the preculture period. These results suggest that the inability of T cells from T. cruzi-infected mice to produce IL-2 in vitro in response to Con A is not due to the lack of IL-2-producing cells, but may be the result of the maturational state of the T cells or to the presence of a suppressor population.     

Human suppressor lymphocytes: I. Induction and characterization

Human peripheral blood lymphocytes were induced to become suppressor cells by exposure to Concanavalin A or Phytohemagglutinin. These cells were able to suppress the cytotoxic responses but not the proliferative responses of alloantigen activated human lymphocytes. Suppressor cells were non-specific in their activity, suppressing both allogeneic and syngeneic responders. They were labile in short-term tissue culture and required a proliferative phase for full induction of suppressor activity. Removal of macrophages prior to mitogen exposure resulted in a small loss of suppressor activity. Suppression was not the result of too much help since enhancement could not be demonstrated upon the addition of small numbers of suppressor cells to MLC.     

The isolation and partial characterization of the plasma membrane from Trypanosoma brucei.

Whole sheets of plasma membrane, each with their attached flagellum, were purified from Trypanosoma brucei. The method devised for their isolation included a new technique of cell breakage that used a combination of osmotic stress followed by mechanical sheer and avoided the problem of extreme vesiculation as well as the trapping of organelles in cell 'ghosts'. The purified membranes all contained the pellicular microtubular array. The antigenic surface coat was completely released from the plasma membrane during the isolation procedure. The membranes had a very high cholesterol/phospholipid ratio (1.54). A large proportion (42%) of the cellular DNA was recovered in the plasma-membrane fraction unless a step involving deoxyribonuclease treatment, which decreased the DNA content to less than 13%, was included before secrose-density gradient centrifugation. This step also aided the separation of plasma membranes from other cellular components. The ouabain-sensitive Na+ + K+-stimulated adenosine triphosphatase and adenylate cyclase co-purified with the plasma membranes. Although 5'-nucleotidase was thought to be a plasma-membrane component, it was easily detached from the membrane. The purified membranes were essentially free of L-alanine-alpha-oxoglutarate aminotransferase, L-asparte-alpha-oxoglutarate aminotransferase, malate dehydrogenase, oligomycin-sensitive adenosine triphosphatase, glucose 6-phosphatase, Mg2+-stimulated p-nitrophenyl phosphatase and catalase.     

Identification and partial characterization of plasma membrane polypeptides of Trypanosoma brucei

A plasma membrane-enriched vesicle fraction has been prepared from Trypanosoma brucei by sonication and differential centrifugation on sucrose gradients. This fraction is enriched 5-fold in the plasma membrane marker enzymes adenyl cyclase (EC 4.6.1.1) and ouabain-inhibitable, (Na+ +K+)-dependent adenosine triphosphatase (EC 3.6.1.3). It is also enriched up to 14-fold in iodinated surface proteins, and up to 4-fold in (3H-mannose-labeled glycoproteins, of which the major variable surface coat glycoprotein is the main constituent. Proteins of the plasma membrane fraction and other subcellular fractions have been identified by electrophoretic analysis in sodium dodecyl sulfate-polyacrylamide gradient slab gels. Several high molecular weight surface glycopeptides have been selectively investigated and partially characterized by a combination of metabolic labeling with [3H]mannose, lactoperoxidase-catalyzed surface iodination, and affinity chromatography on Con A-Sepharose. In addition to the major variable surface coat glycoprotein (estimated Mr = 58000), there are several minor surface glycopeptides (Mr = 76000, 86000 and 92000-100000) which are apparent extrinsic membrane components, and two surface glycopeptides (Mr = 42000 and 130000) which are intrinsic membrane components.     

Purification and partial characterization of a cysteine proteinase from Trypanosoma rangeli

Abstract Epimastigotes of the American Trypanosome Trypanosoma rangeli contain a very low cysteine proteinase (CP) activity. The enzyme was purified to homogeneity by affinity chromatography on ConA-Sepharose and Cystatin-Sepharose. This CP had a similar apparent molecular mass and an identical N-terminal sequence (15 amino acids) as compared with cruzipain from Trypanosoma cruzi ; cross-reacted immunologically with the latter enzyme, it was inhibited by E-64 and TLCK, but not by PMSF, o-phenanthroline or Pepstatin, and was able to use the same substrates, although with different order of effectiveness and optimum pH.     

Novel mechanism for Trypanosoma cruzi-induced suppression of human lymphocytes. Inhibition of IL-2 receptor expression

Co-culture of blood forms of Trypanosoma cruzi, the causative agent of Chagas' disease, with human PBMC impaired the capacity of T lymphocytes to express surface receptors for IL-2. This effect was evidenced by marked reductions in both the proportion of Tac+ cells and the density of Tac Ag on the surface of the positive cells, determined by flow cytometry. The extent of the inhibition increased with parasite concentration. Under optimal or suboptimal conditions of stimulation with either PHA or monoclonal anti-CD3, specific for an epitope of the T3-Ti human T cell Ag receptor complex, the presence of T. cruzi curtailed the capacity of T lymphocytes to proliferate and express Il-2R but did not affect IL-2 production. Furthermore, the addition of exogenous IL-2 did not restore the responsiveness of suppressed human lymphocytes but did when mouse lymphocytes were used instead. Therefore, unlike mouse lymphocytes, human lymphocyte suppression by T. cruzi did not involve deficient IL-2 production and was accompanied by impaired IL-2 utilization. Co-culture of human monocytes/macrophages with suppressive concentrations of T. cruzi increased IL-1 production, and the parasite did not decrease IL-1 secretion stimulated by a bacterial LPS. Therefore, the suppression of IL-2R expression and lymphoproliferation is not likely to have been an indirect consequence of insufficient IL-1 production due to infection of monocytes or macrophages. We have shown that suppression of human lymphocyte proliferation by T. cruzi is not caused by nutrient consumption, absorption of IL-2, lymphocyte killing, or mitogen removal by the parasite. Therefore, these results uncover a novel suppressive mechanism induced by T. cruzi, involving inhibited expression of IL-2R after lymphocyte activation and rendering T cells unable to receive the IL-2 signal required for continuation of their cell cycle and mounting effective immune responses.     

Turkey acrosin. I. Isolation, purification, and partial characterization

Acrosin was extracted from turkey spermatozoa by use of urea together with sonication and freezing, and purified approximately 18-fold by sequential use of chromatofocusing and affinity chromatography. The use of chromatofocusing for the initial purification step proved to be superior to preparative isoelectric focusing. Similar to acrosin from many mammalian species, turkey acrosin was found to be a glycoprotein possessing characteristics of serine proteases. Polyacrylamide gel electrophoresis (PAGE) of the enzyme indicated the presence of two isozymes. Sodium-dodecyl sulfate PAGE under reducing conditions revealed three subunits with approximate molecular weights of 11,700, 13,900, and 15,900.     

A detergent-activated tyrosinase from Xenopus laevis. I. Purification and partial characterization

A tyrosinase has been purified from the skin of the frog Xenopus laevis. Dihydroxyphenylalanine oxidase and tyrosine hydroxylase activities co-purify throughout the procedure. The enzyme is isolated in an inactive form, but both enzymatic activities are activated by a variety of anionic detergents. Of these, sodium dodecyl sulfate (NaDodSO4) is the most effective. The enzyme activation occurs at NaDodSO4 concentrations well below the critical micelle concentration and it remains active at concentrations as high as 30 mM (1%). Neither activity is stimulated by cationic or nonionic detergents, or a variety of other agents, including trypsin. The purified tyrosinase is a glycoprotein having a polypeptide Mr = 175,000 by NaDodSO4-polyacrylamide gel electrophoresis. This monomeric species is enzymatically active in the presence of NaDodSO4. Detergent-activated tyrosinase has a KM for dihydroxyphenylalanine of 6 X 10(-4) M and a KM for tyrosine of 4 X 10(-4) M. Both activities are inhibited by copper chelators but not by an iron chelator. Further characterization of the detergent activation of this enzyme is presented in a companion paper (Wittenberg, C., and Triplett, E. L. (1985) J. Biol. Chem. 260, 12542-12546).     

Immunological purification and partial characterization of variant-specific surface antigen messenger RNA of Trypanosoma brucei brucei.

Polyadenylated RNA isolated from total polyribosomes of two variable antigen types (VATs) of T. brucei brucei were shown to program the synthesis, in mRNA-dependant reticulocyte lysates, of a wide variety of polypeptides. After immunoprecipitation of these cell-free products with an homologous antiserum raised against purified variant-specific surface antigen (VSSA), a major electrophoretic band was apparent on fluorography. It was confirmed that this band corresponds to the variable antigen since only an excess of purified homologous antigen will provoke competition. The apparent molecular weight of the in vitro synthesized antigen is about 63,000 daltons. The VSSA mRNA has been found in membrane-bound polyribosomes and a 15 fold immunological purification of this mRNA has been obtained, using partially purified anti-VSSA IgG in conjunction with inactivated Staphylococcus aureus.     

A partial characterization of suppressor cells in rat fetal liver cells

Rat fetal liver cells (FLC) obtained at 18–20 days gestation suppressed mixed lymphocyte reactions(MLR) of adult lymph node cells. The suppression was not strain specific: both syngeneic and allogeneic FLC were capable of suppressing the MLR. The same suppressor activity was observed with fetal spleen cells but not with fetal thymus cells. Removal of phagocytic cells from FLC failed to inhibit the suppressor activity. The suppressor cells were separated into two different types by BSA density gradient: one is radiosensitive, the other radioresistant. A stronger suppressor activity was observed in radiosensitive cells. The suppressor cells belonged to the fraction agglutinated with peanut agglutinin. The data suggest that the suppressor cells in rat FLC may be a proliferating blastoid-type cell rather than mature lymphocytes or mature macrophages.     

Isolation and partial characterization of an antibacterial substance produced by Enterococcus faecium

A strain ofEnterococcus faecium isolated from Bulgarian yellow cheese “kashkaval” produced a bacteriocin-like substance named enterococcin A 2000. The antibacterial substance had a low molar mass (<2 kDa), was relatively stable toward heat but was sensitive to selected proteolytic enzymes. It was active against Gram-positive bacteria including enterococci, such asListeria, Bacillus andStreptococcus, and also against Gram-negativeE. coli. Production of enterococcin A 2000 has a maximum near the end of the exponential phase of producer growth. The peptide was purified by ammonium sulfate precipitation, butanol extraction, followed by cation-exchange chromatography and reversed-phase chromatography. A partial sequence of purified enterococcin A 2000 indicated that this substance does not belong to the class IIa of bacteriocins presenting the consensus anti-Listeria motif YGNGV.