Induction of delayed-type hypersensitivity by the T cell line specific to bacterial peptidoglycans

A T cell line specific for the chemically well-defined peptidoglycan of bacterial cell wall, disaccharide tetrapeptide, was established from Lewis rats immunized with the antigen covalently linked to the autologous rat serum albumin. The antigen specificity was examined with various analogues or derivatives of the peptidoglycan. The cell line was reactive to analogues with the COOH-terminal D-amino acid, but least reactive to those with L-amino acid as COOH terminus. Transferring of the T cell line into X-irradiated normal Lewis rats induced delayed-type hypersensitivity in an antigen specific manner.     

Chemical structure and biological activity relationship of bacterial cell walls and muramyl peptides

The biological activities of the cell walls of bacteria having different types of peptidoglycans, and those of stereoisomers and analogs of muramyl dipeptide (MDP), of N-acetylglucosaminyl-beta(1-4)-N-acetylmuramyl tetrapeptides having different L- and D-amino acids at the COOH-terminus, and of 6-O-acyl-MDPs were examined to elucidate the relationship between structure and activity. Replacement of the L-alanine residue of MDP with glycine and replacement of the D-isoglutamine residue with L-isoglutamine, L-glutamic acid, and D-isoasparagine, but not with D-glutamic acid, caused a marked decrease in the biological activities of the MDP molecule. Test disaccharide tetrapeptides, irrespective of the configuration of COOH-terminal amino acid, showed strong immunoadjuvant activity and stimulation of macrophages, whereas those having COOH-terminal L-amino acids exhibited greater pyrogenicity, induction of acute joint inflammation, and hemorrhagic necrosis at a primed site than those having COOH-terminal D-amino acids. Introduction of an alpha-branched higher fatty acid to the muramic acid residue resulted in the disappearance of pyrogenicity after i.v. injection, an increase of adjuvanticity, and a loss of dependence on administration vehicles. The lack of the immunopotentiating activity (adjuvanticity) in cell walls from group B-type bacterial species was explained by the combined inhibitory effects of the replacement of the L-alanine residue by glycine and involvement of the alpha-carboxyl group of the D-glutamic acid residue in linking with neighboring peptide subunits.     

D-amino acids in higher plants

Although there appear to be no exceptions to the rule that proteins are composed solely of the L-isomers of amino acids, D-amino acids and derivatives of them do occur rather widely in living organisms. In some cases they have well-understood functions, but in other cases their occurrence raises interesting questions. Several peptide antibiotics contain D-amino acids (1). The peptido-glycans of Gram-positive bacterial cell walls contain D-glutamic acid, D-alanine, and D-asparagine (2). D-amino acids are also found in animals, chiefly annelids and insects (3). In this paper some aspects of D-amino acids in higher plants will be reviewed.     

The T lymphocyte response to cytochrome c. V. Determination of the minimal peptide size required for stimulation of T cell clones and assessment of the contribution of each residue beyond this size to antigenic potency

The B10.A T cell proliferative response to pigeon cytochrome c is mainly directed against a single antigenic determinant located at the carboxy-terminal end of the molecule. In the present experiments, we used synthetic peptide analogs of the carboxy-terminal sequence of moth cytochrome c to explore the structural requirements for antigenic potency. The minimum-sized peptide capable of stimulating a full response varied with the T cell clone, but within the limits of the biological systems studied, was shown to be moth fragment 97-103. Addition of more amino acids at the amino terminal end increased the antigenic potency in uneven increments, with a large contribution being made at residue 95. Analysis of amino acid substitutions at this position provided no evidence that it contained a residue that directly contacted the T cell receptor. Instead, good agreement with an analysis that made use of helix-coil transition theory suggested that this residue, as well as others, increased antigenic potency by contributing to the stabilization of the secondary structure of the molecule in an alpha-helical configuration. The maximum effect of chain length on antigenic potency appeared to stop at residue 93, in agreement with the theoretical analysis. However, addition of several more amino-terminal residues to residue 93 showed one additional significant increment of increased potency. This was almost entirely accounted for by a single lysine located four amino acids beyond the glutamic acid at residue 93 (approximately one turn of an alpha-helix away). To experimentally test whether alpha-helix-forming tendencies could account for the increased potency of the larger analogs, the degree of helix formation in trifluoroethanol was assessed by circular dichroism measurements. A good correlation was found between antigenic potency and percentage of alpha-helix for peptides of increasing chain length from moth 95-103 up to moth 86-90; 94-103. These results suggest that secondary structure may play an important role in determining the potency of antigenic determinants involved in the activation of T lymphocytes.     

Suppression of BCG cell wall-induced delayed-type hypersensitivity by pretreatment with killed BCG: induction of nonspecific suppressor T cells by the adjuvant portion (MDP) and of specific suppressor T cells by the antigen portion (TAP)

We showed previously that antigen-nonspecific suppressor T cells induced by i.v. injection of heat-killed bacillus Calmette-Guérin (BCG) were involved in suppression of delayed-type hypersensitivity (DTH). We suggested that the adjuvant portion of BCG might be involved in the induction of these cells. In this report, we show that BCG cell wall-induced DTH responses in mice pretreated with muramyl dipeptide (MDP), a minimum adjuvant constituent of BCG, were suppressed nonspecifically. In addition, we show that pretreatment with tuberculin active peptide (TAP), the antigenic peptide from Mycobacterium tuberculosis, induces antigen-specific suppression of DTH responses. In both instances, suppression was shown to be due to non-adherent cells that act to inhibit elicitation of DTH. Furthermore, using the macrophage migration inhibition assay, an in vitro correlate of DTH, we found that antigen-nonspecific and antigen-specific suppressor T cells were induced by the injection of MDP and TAP, respectively. Thus, suppressor T cells induced by the adjuvant and antigen portions of BCG may act by interfering with the lymphokine-dependent mechanisms by which DTH effector T cells elicit DTH.     

Antiapoptotic and proapoptotic action of various amino acids and analogs in starving MOLT-4 cells.

This study is based on our previous findings showing that certain amino acids may protect hybridoma cells against starvation-induced apoptosis. In the present work we have screened 44 amino acids and analogs for their capacity of modulating apoptosis in human T-lymphoblastic leukemia cell line MOLT-4 exposed to starvation in a nutrient-poor medium. The panel of tested substances was found to contain not only compounds with antiapoptotic activity (e.g., l-glutamine, l-histidine, glycine, l-proline, and l-2-aminopentanoic acid), but also compounds with proapoptotic activity (e.g., l-phenylalanine, l-tryptophan, l-arginine, and l-2-aminohexanoic acid). The apoptosis-modulating effects were dependent on fine details of the structure of the compounds. A switch from antiapoptotic activity to proapoptotic activity was found between 6-aminohexanoic acid and 7-aminoheptanoic acid, as well as between l-2-aminopentanoic acid and l-2-aminohexanoic acid. D-amino acids tested were without effect.     

Functional analysis of the interaction of the antigen-specific T cell receptor with its ligands

Increasing the number of antigen-specific T cell clones in a T cell proliferation assay resulted in a shift in the antigen dose-response curves toward higher amounts of antigen (i.e., more antigen was required to achieve a given degree of stimulation). The antigen dose-response curve shifts were found to reflect the competition that occurred between the antigen-specific T cell receptors for their ligand, a combination of antigen and Ia molecule. This observation made it possible to determine whether the difference in the potency with which several synthetic cytochrome c analogs could stimulate one cytochrome c-specific T cell clone was due to a difference in the avidity of the antigen-specific receptors on the T cell clone for the different Ia molecule-antigen combinations. It was demonstrated that a single amino acid substitution at position 103 (which greatly diminished the potency of the analog) did not significantly alter the avidity of the T cell antigen-specific receptor for its ligand. In contrast, a substitution at position 99 (which resulted in a comparable decrease in potency) caused a dramatic loss of avidity. These results are consistent with the previous designation of residue 99 as one site on the antigen that contacts the T cell antigen-specific receptor, and of residue 103 as one part of the antigen that contacts the Ia molecule.     

Nude mice produce a T cell-derived antigen-binding factor that mediates the early component of delayed-type hypersensitivity

The elicitation of delayed-type hypersensitivity (DTH) reactions in mice is caused by the sequential action of two different T cells. An early-acting, DTH-initiating T cell produces an Ag-specific T cell factor, that is analogous to IgE antibody and initiates DTH by sensitizing the local tissues for release of the vasoactive amine serotonin. In picryl chloride or oxazolone contact sensitivity, this T cell factor is Ag-specific, but MHC unrestricted. We, therefore, hypothesized that DTH-initiating T cells are primitive T cells with Ag receptors that can bind Ag without MHC restriction. In order to characterize the origin of this DTH-initiating T cell and the conditions that are necessary for its development, we contact-sensitized various strains of immunodeficient mice. Surprisingly, we found that the early phase of DTH was present in athymic nude mice. In contrast, the early component of DTH was absent in mice with severe combined immunodeficiency. These mice lack T and B cells, but have NK cells. These findings suggested that the early component of DTH was not caused by NK cells, and was caused by cells belonging to a lineage from a rearranging gene family. The early component of DTH in nude mice was Ag specific, was caused by MHC unrestricted Thy-1+ T cells, and was mediated by Ag-binding, Ag-specific T cell factors. We found that DTH-initiating, T cell-derived, Ag-binding molecules from nude mice and normal CBA/J mice had the same functional properties. The early component of DTH was elicited in two different systems (contact sensitivity and SRBC-specific DTH) in two strains of nude mice (BALB/c athymic nudes and CByB6F1/J-nu) from two different suppliers, but not in BALB/c and athymic nudes from a third supplier. From these findings we concluded that DTH-initiating T cells, which produce IgE-like Ag-specific T cell factors, are present in some strains of athymic nude mice and thus are relatively thymic independent T cells.     

Cyclic analogs of enkephalin with disulfide bridges between the second and fifth positions

Biological activity of the enkephalin cyclic analogues with a disulphide bridge between second and fifth positions, and the dependence of the activity on the cycle size, disulfide bridge localization and configuration of the amino acid residues have been studied. The analogues were synthesized by chemical approach with the use of pentafluorophenyl esters. The cyclization was carried out at the C-terminal tetrapeptide stage by iodine in methanol after removing benzyl protecting groups from thiol groups of cysteine and homocysteine by sodium in liquid ammonia. The blocking activity in vitro (GPI and MVD tests) to the mu- and delta-receptors depends on cycle size, localization of disulphide bridge in the cycle, and amino acid configuration at second and fifth positions. Analogues with D-amino acids proved to be most active in vivo (analgesia, cataleptic activity, effect on frequency of heart contractions and body temperature). Conformational characteristics of enkephalin analogues were investigated by means of CD spectroscopy.     

T cell receptor junctional regions and the MHC molecule affect the recognition of antigenic peptides by T cell clones.

Nine independent pigeon cytochrome c-specific T cell clones were analyzed by using a panel of antigenic peptide analogs presented in association with three allelic IE-encoded MHC glycoproteins. Eight of the T cell clones expressed a TCR composed of a unique alpha- and beta-chain amino acid sequence, and concordantly, each of these T cell clones exhibited a unique Ag specificity. This was true for several clones which differed only in TCR V-J junctional regions. Interestingly, for a given clone, the response to some of the peptide analogs depended to a large extent on the allelic form of the presenting MHC molecule. A simple interpretation of these data would suggest that certain positions of the peptide Ag are most important for Ag-MHC molecule interactions, and that these specific interactions can influence the antigenic epitope recognized by the TCR. We suggest that an antigenic peptide binds to an MHC glycoprotein in a distinct way, but may retain a measure of flexibility.     

Effect of D-amino acids on the functional activity and conformational stability of ribonuclease-A

Using cytidine 2':3' cyclic monophosphate as a substrate, Km and k(cat) of ribonuclease-A in the presence of different concentrations of D-amino acids (Ala, Ser, Pro and Lys) and their L-isomers were measured at pH 6.0 and 25 degrees C. These kinetic parameters remained unchanged in the presence and absence of D-and L-amino acids. This is the first experimental evidence showing that D-amino acids are compatible with the enzyme function. Values of Tm (midpoint of denaturation), deltaHm (enthalpy change at Tm) and deltaCp (constant-pressure heat capacity change) were also determined from the heat-induced denaturation curves of the protein, measured in the presence and absence of D- and L-isomers of an amino acid at four different pH values. It is shown for the first time that these thermodynamic parameters, within experimental errors, do not depend on the stereospecificity of an amino acid. Estimates of deltaGDo with the help of Gibbs-Helmoltz equation (deltaGDo = deltaHm (1-298.15/Tm)--deltaCp [(Tm-298.15) + 298.15 In (298.15/Tm)]) using known values of Tm, deltaHm and deltaCp suggested that D- and L-amino acids are compatible with protein stability, for deltaGDo remained unchanged in the presence of amino acids.     

Stereoselectivity and structural determinants in molecular recognition by the ACC transport system in isolated maize mesophyll vacuoles

The ethylene precursor, 1-aminocyclopropane-1-carboxylic acid (ACC), is actively transported across the tonoplast of plant cells, impacting cellular compartmentation of ACC and ethylene biosynthesis. In the present study, the effects of ACC and amino acid analogs on ACC uptake into isolated maize (Zea mays L. cv. Golden Cross Bantam) mesophyll vacuoles were investigated to identify the stereospecific and structural features that are important in molecular recognition by the ACC transport system. Of the four stereoisomers of l-amino-2-ethylcyclopropane-l-carboxylic acid (AEC), (1S, 2R)-(–)-AEC having a configuration corresponding to an L-amino acid was the preferred substrate for the ACC transport system, competitively inhibiting ACC transport with a Ki of 18 μM. Of 11 neutral amino acid stereoisomers, L-isomers were stronger inhibitors of ACC transport than corresponding D-isomers. Neutral L-amino acids with nonpolar side chains generally were more inhibitory than those with polar side chains, whereas several cationic and anionic L-amino acids were ineffective antagonists of ACC transport. These observations suggest that the ACC transport system is stereospecific for relatively nonpolar, neutral L-amino acids. This conclusion was supported by the observation that group additions, substitutions, or deletions at the carboxyl. α-amino and the Pro- (R) methylene or hydrogen moieties (analogous to D-amino acids) of ACC and other neutral amino acids and analogs essentially eliminated transport inhibition. In contrast, L-amino acid analogs with variable substitutions at the distal end of the molecule remained antagonists. The relative activity of analogs was influenced by the length and degree of unsaturation of the side chain and by the location of side chain branching. Increasing the ring size of ACC analogs reduced antagonism whereas incorporating the α-amino group into the ring structure as an L-amino acid increased antagonism. The kinetics of L-methoxyvinylglycine, L-methionine. p-nitro-L-phenylalanine and 1-aminocyclobutane-l-carboxylic acid were competitive with Ki values of 3, 13, 16 and 19 μM, respectively. These results indicate that the ACC transport system can be classifie as a neutral L-amino acid carrier having a relatively high affinity for ACC and other nonpolar amino acids. The results also suggest that the carrier interacts with the carboxyl, α-amino and Pro-(R) groups and with other less restricted side chain substituents of substrate amino acids.     

Distinct human T cell repertoires mediate immediate and delayed-type hypersensitivity to the Trichophyton antigen, Tri r 2

The 29-kDa subtilase homologue, Tri r 2, derived from the dermatophyte fungus Trichophyton rubrum, exhibits unique immunologic characteristics in its ability to elicit immediate (IH) and delayed-type (DTH) hypersensitivity skin tests in different individuals. Thus, Tri r 2 provides a model for comparing the T cell repertoire in subjects with distinct immune responses to a single Ag. Recombinant Tri r 2 produced as a GST fusion protein in Escherichia coli stimulated strong in vitro lymphoproliferative responses in 10 IH and 10 DTH responders. Patterns of T cell epitope recognition were compared between skin test groups using 28 overlapping peptides (each in 12 replicate wells) derived from Tri r 2 to stimulate T lymphocyte proliferation in vitro. Peptide 5 (P5; aa 41-60) induced the strongest response in DTH subjects and showed the largest difference between DTH and IH responders in proliferation (mean standardized index, 2.22 and 0.82, respectively; p = 0.0047) and number of positive wells (81 vs 12). Responses to P5 were associated with diverse HLA haplotypes. These results showed that P5 contains an immunodominant epitope specifically associated with DTH and that this peptide is recognized in a permissive manner. Cross-validated linear discriminant analysis using T cell proliferative responses to two regions of Tri r 2 (aa 51-90 and 231-270) gave a 95% predictive accuracy for classification of subjects into IH or DTH groups. We conclude that different immune responses to Trichophyton are mediated by distinct T cell repertoires between individuals with IH and DTH reactions to Tri r 2.     

Effects of pertussis toxin on delayed-type hypersensitivity responses and on the activity of suppressor T cells on the responses

Experiments were performed on mice to investigate the effects of pertussis toxin (PT) on delayed-type hypersensitivity (DTH) to ovalbumin (OA) and on the activity of suppressor T cells on the DTH (DTH-Ts). Mice immunized with alum-precipitated ovalbumin showed a transient DTH, which was determined as footpad swelling which disappeared 2 weeks after immunization. Maximal footpad swelling was observed 24 hr after DTH elicitation. On the other hand, when mice received PT (2 micrograms/mouse) at the time of immunization, the transient DTH became an enhanced and persistent DTH, which persisted for at least 4 weeks. In addition, the time of maximum footpad swelling was delayed from 24 to 48 hr after DTH elicitation. The immune spleen T cells from PT-treated mice showed a persistently high ability to transfer DTH into syngenic naive mice. DTH-Ts was induced in spleens of mice injected iv with OA-coupled syngeneic spleen cells. However, when these mice received PT at the time of suppressor induction, their spleen cells revealed considerably reduced suppressor activity. The activity of DTH-Ts was also reduced when DTH-Ts were either treated in vitro with PT or transferred into PT-injected recipient mice. From these results, interference with the suppressor function of DTH-Ts from PT was considered to be, at least in part, as an enhancing mechanism of DTH.     

Peptide analogs of thymopentin distinguish distinct thymopoietin receptor specificities on two human T cell lines

Thymopoietin, a polypeptide hormone of the thymus, and the synthetic pentapeptide thymopentin, corresponding to thymopoietin32-36, both induced elevations of intracellular cyclic GMP in two human T cell lines, CEM and MOLT-4. In contrast, the closely related polypeptide thysplenin, which differs from thymopoietin at position 34, induced intracellular cyclic GMP elevation in MOLT-4 but not in CEM. We synthesized a series of penta- and tetrapeptide analogs of amino acids 32-36 of human thymopoietin and thysplenin, and now show that distinct patterns of activity can be obtained in these small peptides, with selectivity for cyclic GMP elevation in MOLT-4 alone or CEM alone. This suggests that the thymopoietin receptors (TPR) on these two human T cell lines are distinguishable by their differing ligand specificities, and we have termed them alpha TPR and beta TPR for CEM and MOLT-4 receptors, respectively.     

Anti-idiotypic regulation of an insulin-reactive T cell clone

A series of MHC-restricted, bovine-insulin-(BI) reactive T cell clones were generated. The specificity of one group was shown to be for an insulin A-chain loop determinant; the other group apparently demonstrated specificity of a B-chain determinant and/or amino acid residue A4. Guinea pig anti-idiotypic antisera were prepared against two idiotypically related BI monoclonal antibodies of similar A-chain loop specificity. These reagents were able to modulate the antigen-specific proliferation of an insulin-reactive, A-chain loop-specific T cell clone. Because the monoclonal antibodies and the T cell clone recognize a similar molecular domain of the insulin molecule, these data suggest that the anti-idiotypic sera mimic an insulin-like determinant, perhaps by bearing an "internal image" of the antigen and thereby interfering with T cell antigen recognition. Further, these results suggest that such reagents may be useful in characterization of T cell antigen receptor specificity and lend further credence to the concept of idiotypic-anti-idiotypic regulation of the immune response.     

Age related decline in functional T cell subsets in the mouse

The changes of two functions of regulatory T cells in mice of different ages were determined. Mice were immunized with SRBC. DTH responsiveness of spleen cells and the production of IL-2 after Concanavalin A stimulation of the same cell suspension was measured. Cell populations were analysed for expression of Lyt-2 and Thy-1 surface markers. The relationship between DTH responsiveness and T cell subset distribution in peripheral blood was analysed. A direct relationship between age related changes in DTH responsiveness and T cell subset distributions in peripheral blood was observed in most individual animals.     

Suppressor T cell circuits in contact sensitivity. III. A monoclonal T cell hybrid-derived suppressor factor specifically suppresses local DTH transfer by a DNP-specific T cell clone

Herein we described the direct suppressive effects of a monoclonal T cell hybridoma-derived, DNP-specific suppressor T cell factor (26.10.2 TsF) on the local transfer of delayed-type hypersensitivity (DTH) by a DNP-specific BALB/c T cell clone (dD1.9). The L3T4+, Lyt-2- dD1.9 T cell clone proliferated in response to DNP-OVA and DNBS, but not TNP-OVA or TNBS, in association with I-Ed determinants present on antigen-presenting cells. Similarly, local injection of histopaque-purified dD1.9 cell blasts resulted in DNP-specific, radioresistant, I-Ed-restricted, mononuclear cell-rich ear swelling responses. Incubation in 26.10.2 TsF specifically suppressed local transfer of DNP-specific DTH by dD1.9, but not local DTH responses transferred by BALB/c T cell clones specific for TNP or GAT. The suppressive effect of 26.10.2 TsF correlated with targeting on DNP-major histocompatibility complex determinants associated with the DTH T cell (TDH) targets. 26.10.2 TsF-mediated suppression was most pronounced after exposure of dD1.9 target cells to antigen (after the stimulation phase of the T cell clone maintenance procedure), and greatly reduced when dD1.9 was cultured for long periods in the absence of DNP (after the rest phase of clone maintenance). In additional support of this hypothesis, GAT-specific TDH, normally resistant to 26.10.2 TsF-mediated suppression, were rendered susceptible to suppression after surface DNPylation. The results demonstrate a direct, antigen-specific, effector phase regulatory effect of a monoclonal TsF on a cloned, antigen-specific T cell target, and strongly suggest that suppression is mediated via targeting on DNP determinants associated with the TDH target. Simplification of complex Ts circuitry operating in suppression of the efferent limb of DTH by the use of monoclonal TsF and cloned T cell targets should provide a basis for the future study of the molecular mechanisms of immune suppression.     

Analysis of the biotin-binding site on acetyl-CoA carboxylase from rat

The biotin-binding site of acetyl-CoA carboxylase from rat was characterized as to its amino acid sequence and relative position in the enzyme molecule. Biotin binds to the lysyl residue in the tetrapeptide Val-Met-Lys-Met; this tetrapeptide is located in close proximity to the NH2 terminus. In all other biotin-containing enzymes, the conserved tetrapeptide Ala-Met-Lys-Met is the counterpart to that of rat acetyl-CoA carboxylase; and the lysyl residue is 35 residues from the COOH terminus. To examine the significance of these unusual features of the biotinylation site of animal acetyl-CoA carboxylase, cDNA fragments were expressed in a bacterial system and the effects of specific site-directed mutagenesis were examined. Replacement of Val by Ala in the conserved tetrapeptide abolished biotinylation of the expressed protein. However, introduction of a termination codon at residue 36, in such a way that the distance between the lysine on which biotin binds and the COOH-terminal amino acid was 35 residues and the penultimate amino acid was the hydrophobic residue leucine, increased the efficiency of biotinylation, provided a substantial portion of the NH2-terminal peptide was removed.