Stephen Buxser

T‐Cell Responses to Mls and to Bacterial Proteins that Mimic its Behavior#

The Mis locus was originally described by Festenstein (1973) as a single genetic locus with four alleles detected by the stimulation of a primary mixed lymphocyte reaction (MLR) between cells of strains identical at the major histocompatibility complex (MHC). The responses detected by Festenstein were at least as intense as those observed in MLRs between strains differing at the MHC, but differed from such responses in being unidirectional and in that no cytolytic T cells were generated. Furthermore, unlike the MHC polymorphisms that elicit primary MLR., to date it has been impossible to obtain antibodies that inhibit this response or define the product of this locus. The unique biology of this response has intrigued immunologists, leading to intensive study of many aspects of this system, as reviewed in this voltime and elsewhere (Butcher 1988, Janeway et al. 1988a, Abe & Hodes 1988). Perhaps the first question to ask about the Mis locus is: Why study it? The answer lies in the desire of immunobiologists to explain the characteristics of the T-cell response to Mis locus-disparate stimulator cells, which will be referred to simply as the T-cell response to Mis. These characteristics will be described in detail below; for the present, the most critical of these are the fmding that the T-cell response to Mis is unidirectional, stimulates about 20% of all T cells, and involves the recognition of class II MHC by the T-cell receptor (TCR);CD4 complex (see Janeway et al. 1988b), although the response does not show classical MHC restriction. A single genetic polymorphism that can stimulate such a large percent of the T-cell repertoire is certainly worth studying, as it may hold

Localization of damage induced by reactive oxygen species in cultured cells

N18-RE-105 neuron-derived hybridoma cells were employed to determine the location and degree of damage induced by each of three reactive oxygen species (ROS) generators: 6-hydroxydopamine (6-OHDA), H2O2, and cumene hydroperoxide. Two readily distinguishable plasma membrane markers were used to assess cell surface damage, namely the active transport of alpha-aminoisobutyric acid (AIB) and the facilitated diffusion of glucose. In addition, staining of mitochondria with a tetrazolium dye, 3[4,5-Dimethylthiazol-2-yl]-2,5-diphenyltetrazolium bromide (MTT), was used as an intracellular marker to measure the integrity of the metabolic function of the mitochondria. The dose-response curve of inactivation of transport or of metabolic function varied with the ROS generator used and conformed to one of two patterns of toxicity: either threshold-dependent or single-hit inactivation. We determined that 6-OHDA acts simultaneously on multiple targets and steps in the cells, resulting in a very steep dose-effect curve. Similarly, damage induced by H2O2 to the AIB transporters and to mitochondria is consistent with simultaneous inactivation of multiple steps, but damage to glucose transporters conforms to single-hit inactivation of the transporter. Conversely, treatment with cumene hydroperoxide resulted in single-hit inactivation of the AIB transporter, but inactivation of the glucose transporter conformed to threshold-dependent inactivation. Thus, to evaluate quantitatively damage produced by ROS at the subcellular level, both the type of toxic agent and the target to be evaluated must be considered. Finally, the inactivation of each of the targets observed in this study for all of the ROS generators used conform to one of two simple inactivation models. Fitting the appropriate model to the data allows precise quantitative analysis of the inactivation process and provides insight into the chemistry of the inactivation process.

AN EXTERNAL STIMULUS THAT MIMICS Mls LOCUS RESPONSES

The response to a novel set of T cell mitogens has been analysed and compared to the response to Mls locus differences. These polyclonal T cell activators, staphylococcal enterotoxins A and B, stimulate T cells in a way that requires an antigen‐presenting cell bearing class II MHC products and involves the CD4:T cell receptor complex. However, the specificity of MHC recognition by the T cell receptor is lost in this response. Thus, these mitogens produce a response with characteristics similar to that induced by Mls locus differences. These mitogens can be used to analyse the immunobiology of this response, and may help in understanding and identifying the Mls locus product as well.

Efficacy of lipid soluble, membrane-protective agents against hydrogen peroxide cytotoxicity in cardiac myocytes

We examined the efficacy of a group of drugs that stabilize the cell membrane and can potentially prevent cytotoxicity in cultured fetal chick cardiac myocytes exposed to hydrogen peroxide (H2O2). The effects of various membrane-protective agents were determined by analysis of the kinetics of lactic dehydrogenase (LDH) release. The kinetic parameters calculated from the data include a rate constant for release of LDH (kb) and the fraction of total LDH that is released from the cells (CIIMax). The CIIMaxs derived from a range of H2O2 concentrations reveal that the mean toxic concentration of H2O2 is 1.1 mM and that the pattern of toxicity is consistent with the damage being directly proportional to the concentration of the free radicals generated from the H2O2. Maximum nontoxic concentrations of three amphiphilic membrane protective agents had no effect upon cytotoxicity from H2O2. The slightly polar lipophilic agent, Trolox C, a vitamin E derivative, was also without protective effect at a maximum nontoxic concentration. The highly lipophilic agent, probucol, had a small protective effect at 50 microM, the maximum concentration we succeeded in solubilizing in the culture medium. However, the lipophilic 21-aminosteroid U74500, delivered to the cells in an emulsion, markedly reduced cytotoxicity from H2O2. The CII Max was significantly reduced and the protection was concentration dependent over a range of concentrations from 50-400 nmol/ml. Furthermore, the inhibition by U74500 was fully consistent with a mechanism of scavenging of free radicals formed during lipid peroxidation. In support of this hypothesis, a dose of 400 nmoles/ml completely prevented an increase in lipid peroxides due to H2O2 exposure, whereas there was a sixfold increase during exposure to H2O2 in untreated myocytes. Thus, a lipid soluble 21-aminosteroid prevented lipid peroxidation and reduced cardiac myocyte injury during exposure to H2O2, probably by scavenging of free radicals formed during lipid peroxidation in the cell membrane, whereas amphiphilic agents, which probably altered the physicochemical structure of the cell membrane but did not scavenge free radicals, were not protective.

Single-Step Purification and Biological Activity of Human Nerve Growth Factor Produced from Insect Cells

Abstract: Human nerve growth factor (NGF) was cloned and engineered for expression in a baculovirus‐infected Spodoptera frugiperda (SF‐9) insect cell system. Culture supernatants contained 2–3 mg/L of recombinant human NGF. The human NGF produced by this system was purified to apparent homogeneity with a single‐step affinity chromatography procedure using a high‐affinity monoclonal antibody originally raised against murine NGF. The purification procedure yielded 1–2 mg of pure, human NGF per liter of culture supernatant; i.e., approximately 60% recovery of the human NGF originally released into the culture medium. Although the gene transacted into the SF‐9 cells coded for pro‐NGF, the NGF recovered after purification was > 95% fully processed, mature protein. The KD for the affinity of the pure, recombinant human NGF for NGF receptor in PC12 membranes is 0.20 ± 0.05 nM. Activation of neurite outgrowth in PC12 cells occurs with ED50 values of 85 ± 20 pM and 9.6 ± 1.5 pM for a 3‐day primary response and a 1‐day secondary response, respectively. The pure, recombinant human NGF also stimulates a significant increase in dopamine content of PC12 cells with an ED50 of 5.8 ± 2.7 pM. These binding and biological activation properties are consistent with values observed using murine NGF purified from sub‐maxillary glands.

Kinetics and thermodynamics of emulsion delivery of lipophilic antioxidants to cells in culture

Oil-in-water emulsions are being used increasingly for the delivery of lipophilic drugs, but the fundamental physicochemical principles governing such delivery have not been explored. We determined the kinetics and thermodynamics of delivery from emulsions to cells in culture for two lipophilic compounds, U74006 and U74500. Two fundamental properties dominate the delivery, (a) the concentration of the compound in the lipid phase of the emulsion is directly proportional to the concentration of the compound in cells at equilibrium, and (b) the rate of transfer is directly proportional to the concentration of particles in contact with the cells. Thus, the transfer is consistent with direct partitioning from the lipid phase of the emulsion to cells and occurs by the direct collision of emulsion particles with cells. The details of the mechanism of delivery differ between the two compounds. Specifically, delivery of U74006 is first-order with respect to the drug accumulating in the cells. The transfer of U74500 is best described as a sum of two simultaneous pseudo first-order processes consistent with delivery from a single donor compartment to two receiver compartments. Furthermore, two molecules of U74500 appear to be involved in each transfer event. Our results show that relatively simple principles govern the delivery of compounds from oil-in-water emulsions to cells.

Tirilazad mesylate protects stored erythrocytes against osmotic fragility

The hypoosmotic lysis curve of freshly collected human erythrocytes is consistent with a single Gaussian error function with a mean of 46.5 +/- 0.25 mM NaCl and a standard deviation of 5.0 +/- 0.4 mM NaCl. After extended storage of RBCs under standard blood bank conditions the lysis curve conforms to the sum of two error functions instead of a possible shift in the mean and a broadening of a single error function. Thus, two distinct sub-populations with different fragilities are present instead of a single, broadly distributed population. One population is identical to the freshly collected erythrocytes, whereas the other population consists of osmotically fragile cells. The rate of generation of the new, osmotically fragile, population of cells was used to probe the hypothesis that lipid peroxidation is responsible for the induction of membrane fragility. If it is so, then the antioxidant, tirilazad mesylate (U-74,006f), should protect against this degradation of stored erythrocytes. We found that tirilazad mesylate, at 17 microM (1.5 mol% with respect to membrane lecithin), retards significantly the formation of the osmotically fragile RBCs. Concomitantly, the concentration of free hemoglobin which accumulates during storage is markedly reduced by the drug. Since the presence of the drug also decreases the amount of F2-isoprostanes formed during the storage period, an antioxidant mechanism must be operative. These results demonstrate that tirilazad mesylate significantly decreases the number of fragile erythrocytes formed during storage in the blood bank.

Characterization of ultra-high affinity monoclonal antibodies with a dimeric, symmetrical antigen: Inhibition of the receptor recognition site of nerve growth factor

We generated a family of ultra-high affinity monoclonal antibodies (MAb) which inhibit competitively the binding of nerve growth factor (NGF) to its receptor. Preliminary experiments indicated that the dissociation constants (Kd) of some of the MAb:NGF complexes were substantially less than 0.1 nM. Conventional methods, such as ELISA and radioimmunoassays (RIA), were not sufficiently sensitive to measure the Kds of these MAb. Therefore, experimental conditions were developed to determine binding constants for these very high affinity MAb. The experiments establish that the Kds for our anti-NGF MAb range from 2.6 nM to 39 fM. Additionally, the inhibition of NGF binding to NGF-receptor by MAb is fully consistent with a purely competitive model but is not consistent with a model allowing the formation of a ternary complex of NGF, MAb, and NGF-receptor. One MAb, M4, immunoprecipitates NGF indicating interaction between each protomer of the NGF dimer and individual MAb molecules. We also evaluated the effects of mild denaturing conditions on the binding and biological activity of NGF and on recognition by the MAbs. Guanidine HCl or heat treatment of NGF resulted in only small, but significant, changes in binding or biological activity, in parallel with changes in recognition by the MAbs. However, binding, biological activity, and recognition by six of seven MAbs were completely eliminated by beta-mercaptoethanol reduction. Thus, our results are consistent with the MAbs interacting with the receptor recognition site on the surface of the NGF molecule. The high affinity MAbs will serve as sensitive probes of structural elements of NGF responsible for binding and biological activity.

Pharmacokinetic properties, induction of interferon, and efficacy of selected 5-halo-6-phenyl pyrimidinones, bropirimine analogues, in a model of severe experimental autoimmune encephalomyelitis

We showed previously that a 5-halo-6-phenyl-pyrimidinone, bropirimine (PNU-54461), inhibited progression of severe experimental autoimmune encephalomyelitis (EAE), an animal model of human multiple sclerosis. In the work presented here, we examined the activity of a group of chemically-related bropirimine analogues. First, the pharmacokinetic properties of the bropirimine analogues were examined in normal mice following oral dosing. After equal oral doses, both PNU-56169 and PNU-63693 were found in the blood of normal mice at equal or higher concentrations than bropirimine, but PNU-54462 and PNU-56359 were present in blood only at very low concentrations. Next, we examined the bropirimine analogues for activity in our model of severe EAE. At a dose of 400 mg/kg administered orally every second day PNU-56169 nearly completely blocked EAE progression, but was ineffective at 100 mg/kg. PNU-63693 was effective in EAE at concentrations of 200 mg/kg, 100 mg/kg, 50 mg/kg, and as low as 25 mg/kg. Histopathology was examined by observing leukocyte infiltration into the lower spinal cords of the mice. Treatment with 400 mg/kg of PNU-56169 and doses of 25, 50, 100, and 200 mg/kg of PNU-63693 significantly inhibited leukocyte infiltration into the lower spinal cord of treated mice in a dose-dependent manner. Orally administered PNU-56169 and PNU-63693 also stimulated significant concentrations of IFNalpha in the serum of treated mice, which may be related to the efficacy of the compounds in EAE. However, the correlation between IFNalpha in the blood and efficacy in treating EAE was not exact. Thus, PNU-56169 and PNU-63693 were delivered to the blood following oral dosing, induced significant concentrations of IFNalpha in the blood, and were equally or more potent than PNU-54461 in inhibiting clinical signs of EAE. The results suggest that 5-halo-6-phenyl-pyrimidinones are an interesting class of compounds to investigate for development in the treatment of multiple sclerosis.

Staphylococcal enterotoxin B modulates Vβ8+ TcR-associated T-cell memory against conventional antigen

Primary in vivo challenge with the superantigen staphylococcal enterotoxin B (SEB) induces polyclonal proliferation of an unusually large proportion of circulating T-cells that bear the V beta 8-T-cell receptor (TcR) domain. Early and vigorous proliferation of V beta 8+ T-cells precedes their selective deletion, leaving the host unresponsive upon rechallenge with the native immunogen SEB. Nonetheless, this induction of anergy is incompletely understood. Recently we demonstrated that more cells than just V beta 8+ T-cells undergo clonal proliferation after challenge with SEB (Cell. Immunol. 154, 440, 1994). These findings suggested that non-V beta 8+ T-cells may have a role in the induction of superantigen-induced anergy. To further investigate this, we enumerated CD4+ and CD8+ T-cells in lymph nodes and spleens from Balb/c mice at various times after primary and secondary challenge with either a high or a low dose of SEB. Using these kinetic data we investigated whether challenge with SEB would modulate antigen-specific V beta 8-associated T-memory responses. To this end, the V beta 8+ T-cell-associated responses induced by SEB were compared with the V beta 8+ TcR-associated memory responses induced by the nominal antigen sperm whale myoglobin (SWM). Results indicated that challenge of SWM-primed mice with SEB abrogated the V beta 8-associated SWM-specific T-cell memory for an extended but transient period of time. Moreover, prechallenge with SEB blocked the establishment of de novo V beta + T-cell-mediated immunity. These findings suggest that administration of low and controlled doses of microbial superantigen could provide long-term suppression of antigen-specific cell-mediated immunity.