Detection of Nα-terminally formylated native proteins by a pan-N-formyl methionine-specific antibody.

N-formyl methionine (fMet)-containing proteins are produced in bacteria, eukaryotic organelles mitochondria and plastids, and even in cytosol. However, Nα-terminally formylated proteins have been poorly characterized because of the lack of appropriate tools to detect fMet independently of downstream proximal sequences. Using a fMet-Gly-Ser-Gly-Cys peptide as an antigen, we generated a pan-fMet-specific rabbit polyclonal antibody called anti-fMet. The raised anti-fMet recognized universally and sequence context-independently Nt-formylated proteins in bacterial, yeast, and human cells as determined by a peptide spot array, dot blotting, and immunoblotting. We anticipate that the anti-fMet antibody will be broadly used to enable an understanding of the poorly explored functions and mechanisms of Nt-formylated proteins in various organisms.

Cross-recognition of N-formylmethionine peptides is a general characteristic of H2-M3-restricted CD8+ T cells.

H2-M3-restricted CD8+ T cells can exhibit cross-reactivity to different bacterially derived N-formylmethionine peptides. The extent of this promiscuity is unclear. We deleted the nonredundant fMIVTLF epitope and found that Listeria monocytogenes still primed fMIVTLF-specific T cells. Thus, cross-reactivity appears to be a more general characteristic of H2-M3-restricted T cells.

T cell response to N-formylated peptides in humans.

We present the first evidence of a T lymphocyte response to N-formylated peptides in humans. N-formylated peptide sequences from self (mitochondrial) and foreign (microbial) antigens were used to isolate antigen-specific T cell clones from healthy individuals, including a set of monozygotic twins. The observed response differed from that previously described in mouse (CD4(+) phenotype and MHC class II restriction in humans vs. CD8(+) phenotype and class I restriction in mice). These lymphocytes produce substantial amounts of IFN-gamma. They were isolated in only one of the monozygotic twins, which suggests that their expansion in the healthy immune repertoire is independent of the genetic background. Our result will help in assessing the relevance of N-formylated peptide-specific T cells in protection against infections within the human immune system.

Induction of M3-restricted cytotoxic T lymphocyte responses by N-formylated peptides derived from Mycobacterium tuberculosis.

Major histocompatibility complex (MHC) class I-restricted CD8(+) T cells play a critical role in the protective immunity against Mycobacterium tuberculosis (Mtb). However, only a few Mtb peptides recognized by MHC class Ia-restricted CD8(+) T cells have been identified. Information on epitopes recognized by class Ib-restricted T cells is even more limited. M3 is an MHC class Ib molecule that preferentially presents N-formylated peptides to CD8(+) T cells. Because bacteria initiate protein synthesis with N-formyl methionine, the unique binding specificity of M3 makes it especially suitable for presenting these particular bacterial epitopes. We have scanned the full sequence of the Mtb genome for NH2-terminal peptides that share features with other M3-binding peptides. Synthetic peptides corresponding to these sequences were tested for their ability to bind to M3 in an immunofluorescence-based peptide-binding assay. Four of the N-formylated Mtb peptides were able to elicit cytotoxic T lymphocytes (CTLs) from mice immunized with peptide-coated splenocytes. The Mtb peptide-specific, M3-restricted CTLs lysed the Mtb-infected macrophages effectively, suggesting that these N-formylated Mtb peptides are presented as the naturally processed epitopes by Mtb-infected cells. Furthermore, T cells from Mtb-infected lungs, spleen, and lymph nodes responded to N-formylated Mtb peptides in an M3-restricted manner. Taken together, our data suggest that M3-restricted T cells may participate in the immune response to Mtb.

Immunization with f-Met peptides induces immune reactivity against Mycobacterium tuberculosis.

OBJECTIVE: To determine whether synthetic peptides containing an amino terminal formyl-methionine residue and corresponding to the sequence of several proteins produced by Mycobacterium tuberculosis, would elicit an immune response in mice. DESIGN: Peptides corresponding to the amino termini of 8 M. tuberculosis proteins and initiating with formyl methionine residues were synthesized. The ability of these peptides to bind to the mouse non-classical MHC class I molecule H-2M3a was determined by flow microfluorimetry. These peptides were used to pulse dendritic cells that were then injected into normal mice. These mice were subsequently challenged with aerosolized M. tuberculosis and, 30 days later, the number of viable bacteria in the lungs was determined. RESULTS: Four of the 8 synthetic peptides bound to H-2M3a and stabilized its expression on the cell surface. Injection of mice with dendritic cells pulsed with H-2M3a binding peptides elicited non-MHC restricted cytotoxic T lymphocytes that killed peptide pulsed target cells and macrophages infected with M. tuberculosis. Immunization of mice with syngeneic dendritic cells pulsed in vitro with 2 of these peptides led to retardation of the growth of M. tuberculosis following aerosol challenge. CONCLUSION: Peptides that bind to non-polymorphic class I molecules can elicit immune reactivity directed towards M. tuberculosis.

Positive selection of an H2-M3 restricted T cell receptor.

Thymocytes are positively selected for alphabeta T cell antigen receptors (TCR) that recognize antigen in conjunction with self-major histocompatibility complex (MHC) molecules. MHC bound peptides participate in positive selection; however, their role has remained controversial. A TCR transgenic mouse was established using a TCR restricted to the MHC class Ib molecule, H2-M3. Having defined H2-M3 as the positively selecting MHC molecule, the severely limited number of H2-M3 binding peptides allowed us to characterize an NADH dehydrogenase subunit 1 (ND1)-derived peptide as the physiological ligand of positive selection. This peptide bears no apparent sequence homology to the cognate peptide, is expressed ubiquitously, and yet does not interfere with peripheral T cells. Our studies also suggest that positive selection becomes promiscuous at high epitope densities.

Characterization of the murine H2-M3wt-restricted CD8 response against a hydrophobic, protease-resistant, phospholipid-associated antigen from Listeria monocytogenes.

Mice infected with Listeria monocytogenes (LM) generate protective CD8 cells of varying specificity. One subset, unlike conventional LM-immune CD8 cells, can respond to antigen-presenting cells (APC) treated with heat-killed LM (HKLM). These cells proved to have surprisingly uniform specificity, recognizing a product we designated HKLM-associated antigen (HAA) presented by the non-classical class Ib product H2-M3wt. HAA proved to be extremely hydrophobic and the bioactive portion of the molecule was highly protease-resistant, leading us initially to speculate that it might be a non-peptide. Recent studies, however, identify HAA as a complex containing lemA, a listerial protein bearing the immunogenic amino terminal peptide sequence fMIGWII, tightly associated with bacterial cardiolipin. A variety of cell types can process and present exogenous HAA/lemA, and the phospholipid component appears essential for this processing. Endosomal acidification and proteolysis are required for processing, but the site where antigen binds to H2-M3wt within APC remains uncertain. HAA/lemA-immune effectors are unusually cross-reactive. We could readily detect H2-M3wt-restricted responses to APC incubated with unrelated N-formylated peptides, and bacteria. HAA-like products represent an intriguing new set of bacterial antigens recognizable by immune CD8 cells.

N-formylmethionyl-leucyl-[3H]phenylalanine binding, superoxide release, and chemotactic responses of human blood monocytes that repopulate the circulation during leukapheresis.

Human blood monocytes comprise two subpopulations: one migrates to the chemoattractant, N-formylmethionyl-leucyl-phenylalanine (fMet-Leu-Phe), and has saturable binding sites for this peptide; the other does not migrate and exhibits little peptide binding. To determine if expression of binding sites was a function of monocyte maturation, we depleted human subjects of blood monocytes by leukapheresis so that the circulation was repopulated by monocytes released from the bone marrow. Pre- and postleukapheresis monocytes were then compared for fMet-Leu-[3H]Phe binding, superoxide generation, and chemotactic responses. No significant differences in peptide binding curves were found, suggesting that receptor expression was stable over the maturational span represented by these two groups of cells. This supports the hypothesis that there are two distinct lineages of monocytes with respect to expression of receptors for fMet-Leu-Phe. An additional finding of interest was that the number of chemotactically responsive cells immediately postleukapheresis was half the control. This was a transient state; monocyte responses were normal 3 hr after termination of leukapheresis, suggesting that they rapidly become functionally mature.

Density heterogeneity of neutrophilic polymorphonuclear leukocytes: gradient fractionation and relationship to chemotactic stimulation.

When elicited murine peritoneal exudate cells were subjected to Percoll density gradient centrifugation, polymorphonuclear neutrophils (PMN) were found to distribute over a broad spectrum of buoyant densities (1.10-1.06 g/ml). PMN isolated between approximately 1.10 and 1.085 g/ml were referred to as high density PMN (HD-PMN), and those isolated at approximately 1.085-1.06 g/ml were designated intermediate density PMN (ID-PMN). Cells were characterized on the basis of morphology and specific markers: PMN by lactoferrin immunocytofluorescence and macrophages by nicotinamide adenine dinucleotide glycohydrase activity. Macrophages banded near the top of the gradient with a peak at 1.04 g/ml. At increasing times following elicitation, the ratio of HD to ID-PMN decreased. Decreased density of either murine HD-PMN or human peripheral blood PMN could be induced in vitro by exposure of the cells to endotoxin-activated serum. A decrease in buoyant density of human PMN was also demonstrated in vitro using the synthetic chemotactic peptide N-formyl-methionyl-leucyl-phenylalanine (FMLP). The response was time dependent, related to dose, and appeared to be mediated by the cell membrane receptor for FMLP. A competitive antagonist of FMLP binding, carbobenzoxy-phenylalanyl-methionine, inhibited the density change with a calculated Kd similar to that reported for inhibition of FMLP-induced aggregation, degranulation, locomotion, and superoxide production. The FMLP-induced decrease in PMN density was shown to be directly correlated with increases in relative mean cell volume. The density response is a new measurement of PMN interaction with specific chemotactic factors, which may be important in the generation of PMN heterogeneity observed in elicited peritoneal exudate cells. In addition, this approach offers a means of physically separating "activated" from "resting" PMN and of studying resultant biochemical differences between these cell populations using both in vivo and in vitro systems.

Effects of novel lipoxygenase products on migration of eosinophils and neutrophils in vitro.

Since it has been suggested that a lipoxygenase product might be specific chemotactic factor for eosinophils, we assessed the stimulating effects of a variety of lipoxygenase products (LTB4, 20-OH-LTB4, 20-COOH-LTB4 and 5(S)12(S)-DHETE) on both neutrophil and eosinophil migration under agarose. LTB4 was the most potent lipoxygenase cytotaxin for neutrophils as well as eosinophils and its stimulating potential for both cell types was similar. The other leukotrienes stimulated migration of neutrophils less than LTB4, whereas eosinophils did not respond. Thus, the previous suggestion that an eosinophil chemotactic factor could be identical with LTB4 was not verified.

Anti-f Met-Leu-Phe: similarities in fine specificity with the formyl peptide chemotaxis receptor of the neutrophil.

We have prepared antisera in both rabbits and rats against f Met-Leu-Phe conjugated to a variety of carrier proteins. Over 40 peptides with widely varying reactivity for the neutrophil formylpeptide receptor have been tested for their ability to bind to rabbit antibody raised against fMLP10-BSA. Structure-activity studies of peptides structurally related to f Met-Leu-Phe demonstrate that the N-formyl group is mandatory for maximum antibody binding activity. Methionine in position 1 and phenylalanine in position 3 are found to confer maximum binding activity. Stereoselectivity of the antibody-combining site also has been demonstrated. Comparison of the ability of the peptides to bind to the antibody receptor with their reactivity for the neutrophil has demonstrated a strong correlation in the rank order of reactivity of the numerous synthetic peptides: for the alpha NH2-acyl group, r = 0.94; for position 1, r = 0.90; for position 2, r = 0.97; and for position 3, r = 0.78. This strong correlation is seen across species lines with both rabbit and rat antibodies. Significant differences, however, in the specificity of the antibody and neutrophil receptors are seen at the carboxyl terminus of phenylalanine, and beyond the phenylalanine ring, r = 0.29. In addition, bacterial chemotactic factor-enriched butanol extracts from Escherichia coli culture filtrates can also bind to anti-f Met-Leu-Phe, affording additional evidence for the similarity in the structure of the bacterial chemotactic factor to the synthetic chemotactic peptides.

Anti-idiotype as antibody against the formyl peptide chemotaxis receptor of the neutrophil.

Anti-idiotypic antibodies have been produced in mice, guinea pigs, and goat against rabbit antibodies to the chemoattractant f Met-Leu-Phe. The anti-idiotypic antibodies were demonstrated by their capacity in the presence of preimmune rabbit serum to block the binding of 125I anti-f Met-Leu-Phe to f Met-Leu-Phe-human transferrin absorbed to microtiter plates. Goat anti-idiotypic antibodies were further demonstrated by their ability, when absorbed to Staphylococcus aureus, to selectively bind 125I anti-f Met-Leu-Phe. In addition, some of the goat anti-idiotypic IgG was able to bind nearly all rabbit and rat anti-f Met-Leu-Phe antibodies examined. This was shown by 1) the ability of antibodies produced in rabbits immunized with either f Met-Leu-Phe conjugated to goat IgG or f Met-Leu-Phe conjugated to keyhole limpet hemocyanin (KLH) when adsorbed to S. aureus to bind the 125I F(ab')2 goat anti-idiotype, and 2) the ability of various rat anti-f Met-Leu-Phe antibodies to block the binding of 125I rabbit anti-f Met-Leu-Phe to goat anti-idiotype absorbed to S. aureus. Finally, goat anti-idiotypic antibodies can also cross-react with the receptor on the rabbit neutrophil for the formyl peptides as evidenced by 1) the direct binding of goat anti-idiotypic IgG to the PMN, 2) the ability of F(ab')2 fragments to goat anti-idiotype to partially inhibit the binding of f Met-Leu-(3H)Phe to rabbit PMN, and 3) loss of anti-idiotype and anti-PMN receptor activity after passage over an anti-f Met-Leu-Phe column. These data support Jerne's hypothesis of "internal image" and suggest a feasible experimental approach for producing anti-cell receptor antibody without purifying the receptor.

Induction of ocular inflammation by synthetic mediators.

Chemotactic mediators, N-formylmethionyl-leucyl-phenylalanine (FMLP) and the complement component C5a, were injected into the rabbit cornea, vitreous, and skin to induce a reaction resembling the "Arthus phenomenon." Injection of these mediators induced edema and granulocytic infiltration in the cornea, conjunctiva, and skin. These histologic changes resembled the inflammation produced by antigen (ovalbumin [OVA]) in specifically immunized rabbits. Keratitis began after two hours and subsided six hours after the injection. Conversely, the vitreous response started six hours after injection of FMLP and C5a and peaked between 24 and 48 hours. All the inflammatory reactions induced by FMLP, C5a, and rechallenge with antigen could be inhibited in varying degrees by subconjunctival injection of 0.1 mL of 10(-5)M dexamethasone, quinacrine, 5,8,11,14-eicosatetraynoic acid (ETYA), or indomethacin, agents that suppress different sites of chemotaxis of polymorphonuclear leukocytes. However, only the inflammation induced by FMLP could be inhibited by carbobenzoxy-phe-met, a competitive inhibitor of FMLP.

The release of inflammatory mediators from neutrophils.

Human polymorphonuclear leukocytes exposed to phagocytic stimuli undergo a series of cellular reactions designed to eliminate foreign invaders such as bacteria, viruses, or fungi. The responses of human granulocytes to the stimuli of phagocytosis are initiated at the cell surface and proceed in the following sequence: a. ligand binding to surface receptors; b. membrane hyperpolarization; c. O2- generation by a surface oxidase and 1O2 metabolism; d. generation of thromboxanes and prostaglandins; e. lysosomal enzyme secretion. These events, known as 'stimulus-secretion coupling', result in the secretion of toxic substances which, though intended to end up in the phagocytic vacuole, may escape to the extracellular space where they initiate inflammation.

Diverging effects of chemotactic serum peptides and synthetic f-Met-Leu-Phe on neutrophil locomotion and adhesion.

The chemotactic serum peptide preparations CAT 1.6.1. and C5adesArg induced marked directional locomotion over a wide concentration range without significant effects on random locomotion and adhesion of human neutrophils in Gey's solution containing 2% HSA. In contrast, f-Met-Leu-Phe produced marked negative chemokinetic effects and its capacity to induce directional locomotion was more limited with respect to magnitude and concentration range. The negative chemokinetic effect of f-Met-Leu-Phe correlated closely with increased spreading and cell adhesion.

Basophil "releasability" in patients with asthma.

This study was based on the premise that mediator release plays a role in the pathogenesis of allergen-induced as well as nonallergen-induced asthma. We studied histamine release from human basophils obtained from patients with asthma and from control subjects. These cells were challenged with several different stimuli: goat anti-human IgE-Fc, C5-peptide, N-formyl-methionyl-leucyl-phenylalanine (f-met peptide), Ca++ ionophore A23187, hyperosmolar mannitol, and D2O. Release induced by any one stimulus was unrelated to the response to any other stimulus. The basophils of patients with asthma and control subjects responded similarly to most stimuli: they were significantly less responsive to C5-peptide and f-met peptide, and significantly more responsive to D2O. The results suggest that there is a parameter of releasibility that must be defined for each separate stimulus, and that patients with asthma can be differentiated from normal persons by the response of their basophils to selected stimuli.