Bernd Schoel

Heat‐Shock Protein 60: Implications for Pathogenesis of and Protection against Bacterial Infections

In this review we have focused on antigenic features of hsp 60 related to: its ubiquitous distribution in the biosphere; its extraordinary homology among various bacteria; its high conservation from prokaryotic to eukaryotic cells; and its abundant expression under stress situations occurring during infection. These unique features make hsp 60 an excellent candidate antigen relevant to protection and pathogenesis of bacterial infections and, perhaps in a broader sense, to surveillance and autoimmunity. We will briefly discuss these possibilities in the following. Acquired resistance. If we assume that bacterial organisms contain some thousand different proteins which all represent potential antigens, the frequency of T cells with specificity for mycobacterial hsp 60 appears surprisingly high. Although, during the course of infection, high levels of hsp may be induced in bacteria, mere abundance appears to be an important though insufficient explanation. In addition, constant boosting by similar hsp 60 cognates from various microbes with which humans come into contact may contribute to dominance. This could easily explain the occurrence of hsp 60-specific T cells in healthy individuals with no clinical history of mycobacterial infections. Involvement of more sophisticated mechanisms, such as the affinity of hsp to other proteins, cannot be excluded (Flynn et al. 1989). Yet dominance does not necessarily mean protection and definite proof that hsp are protective antigens is lacking. Perhaps the immune response against epitopes shared by various mycobacterial pathogens represents a first line of defence preceding a more specific immune response. Such broadly reactive antigens would not qualify as prime candidates for vaccine design. Immunesurveillance. T cells with specificity for epitopes shared by bacterial and human hsp 60 are readily demonstrable and stressed host cells are recognized by hsp 60-specific T cells. Such T lymphocytes are endowed with the capacity to identify host cells stressed by a variety of assaults such as inflammation, infection, trauma, or transformation. Although it has been claimed that hsp-reactive gamma/delta T cells are particularly destined for such surveillance functions (Born et al. 1990, Asarnow et al. 1988), alpha/beta T cells could also participate. Pathogenesis. The mechanisms causing pathogenesis should be similar to those underlying protection and surveillance. In the former case bacterial hsp would be responsible for both induction of immunity and expression of pathogenic reactions; in the latter case an immune response stimulated by conserved regions of bacterial hsp 60 would be converted against a host-derived cognate.(ABSTRACT TRUNCATED AT 400 WORDS)

gp96-Peptide Vaccination of Mice against Intracellular Bacteria

ABSTRACT This work demonstrates that gp96 preparations isolated from cells infected with intracellular bacteria induce cytotoxic T-lymphocyte responses and confer protection. Our findings extend previous reports on the immunogenicity of gp96-associated peptides to antigens derived from intracellular bacteria. Immunization with gp96 may therefore represent a promising vaccination strategy against bacterial pathogens.

T -Cells, Stress Proteins, and Pathogenesis of Mycobacterial Infections*

When a microbial pathogen meets a mammalian organism, different kinds of relationship may evolve. Exotoxin-producing pathogens can harm the host in a dramatic way without becoming too involved themselves. Purulent bacteria colonize extracellular niches from which they can cause acute-type diseases. In both cases, humoral immunity has a profound effect, and normally either type of pathogen is rapidly eliminated once it is taken up by professional phagocytes. So-called intracellular pathogens establish a lifestyle inside host cells, and many of them survive within macrophages at least for some time. Bacteria of this group include Mycobacterium tuberculosis, M. bovis, M. leprae, Salmonella typhi, Legionella pneumophila, and Listeria monocytogenes—the etiologic agents of tuberculosis, leprosy, typhoid fever, Legionnaire’s disease, and listeriosis, respectively. Although macrophages provide a major habitat for these microorganisms, other host cells can be affected as well, with M. leprae-infected Schwann’s cell providing a notable example.

Direct blotting with viable cells of protein mixtures separated by two-dimensional gel electrophoresis

A procedure is described which combines the high resolution power of two-dimensional (2D) gel electrophoresis with the advantage of direct probing with viable cells. This device permits the transfer by electroelution of 480 distinct fractions from a 2D gel into soluble phase. Transferred fractions are virtually nontoxic, thus allowing direct probing with viable cells. Using this procedure it was shown that T cells from normal healthy individuals recognized a multitude of Mycobacterium tuberculosis antigens and that the fine antigen recognition pattern of T cells changed after short-term culture in vitro. The application of this procedure to the verification of antigen purity at the T cell level and to the identification of antigens within crude bacterial lysates which are recognized by cloned T cells is described. This approach should be applicable to the rapid identification and characterization of any interesting T cell antigen, for example from important pathogens against which a subunit vaccine is desirable. Moreover, it could be helpful for the analysis of interactions between soluble ligands and their target cells.

Quantification of protein in dilute and complex samples: modification of the bicinchoninic acid assay

The colorimetric assay using bicinchoninic acid (BCA) as test reagent is useful for quantitative protein determinations due to its high sensitivity, ease, and tolerance to various contaminations present in biological samples or added during purification. For removal of interfering substances, protein precipitations have been described. Yet, obstructions became apparent with diluted and complex samples. Therefore we tested different solvents for removal of such interfering contaminants from the protein precipitate, and 1 M HCl was identified as the useful washing agent. The protocol described allows simple and accurate microdetermination in microtiter plates of proteins from complex samples.

Hydrophobic interaction chromatography for the purification of cytolytic bacterial toxins

The usefulness of hydrophobic interaction chromatography for the simple purification of cytolytic bacterial toxins was studied. Conditions are described for different hydrophobic interaction chromatographic media for purifying with high yields two different kinds of such haemolysins, the thiol-activated toxin listeriolysin O from Listeria monocytogenes and alpha-toxin from Staphylococcus aureus. For listeriolysin O, purification on butyl-Sepharose was followed by gel filtration chromatography. From butyl-Sepharose the recovery of 22%. Alpha-toxin was obtained by a single purification step from alkyl-Superose with 80% recovery and a specific activity of 29,000 U/mg. On sodium dodecyl sulphate polyacrylamide gel electrophoresis purified listeriolysin O and alpha-toxin showed a single band. Another thiol-activated toxin, streptolysin O from group A streptococci, showed a recovery of 38% from butyl-Sepharose. The results suggest the feasibility of using hydrophobic interaction chromatography, particularly with columns of weak hydrophobicity, for the purification of bacterial haemolysins in high yield.

Hydrophobic interaction chromatography for the purification of a mycobacterial heat shock protein of relative molecular mass 60 000

A recombinant mycobacterial heat shock protein of relative molecular mass 60,000 was purified by hydrophobic interaction chromatography. Chromatographic media with ligands of medium hydrophobicity, such as phenyl-Sepharose, bound too strongly to be used for the purification of this heat shock protein. Butyl-Sepharose, with weak hydrophobicity, allowed binding and elution with decreasing concentrations of ammonium sulphate, but only alkyl-Superose allowed the separation of two similar proteins from the Escherichia coli clone expressing the recombinant heat shock protein (relative molecular mass 60,000) of Mycobacterium bovis BCG. The binding parameters of recombinant human heat shock proteins of relative molecular mass 60,000 and 70,000 indicate that phenyl-Sepharose also binds too strongly for the separation of these two heat shock proteins.

Analysis of Primary T Cell Responses to Intact and Fractionated Microbial Pathogens

Freshly isolated human T lymphocytes were tested for their response to mycobacteria, mycobacterial lysates, 2 dimensional (2D) PAGE separated mycobacterial lysates, leishmania and defined leishmanial antigen preparations. While gamma delta T cells proliferated vigorously in the presence of mycobacteria and mycobacteria derived lysates, a significant stimulation from 2 D gel separated lysates was not detected. In addition gamma delta T cells failed to respond towards leishmania or leishmanial components. In the alpha beta T cell compartment some donors, presumably according to their state of immunity against mycobacteria, responded to mycobacteria, mycobacterial lysates and 2 D gel separated mycobacterial lysates. Neither freshly isolated gamma delta T cells nor alpha beta T cells from naive donors did mount a significant immune response against leishmania.

Isolation of recombinant mycobacterial antigens by an automatic and generally applicable purification method for β-galactosidase fusion proteins

An automated two-dimensional chromatographic method has been developed for the isolation and concentration of recombinant fusion proteins with beta-galactosidase. The system consists of an immunoaffinity column with anti-beta-galactosidase antibodies as ligand, followed by an anion-exchange column. It was used for the purification and concentration of recombinant fusion proteins from Mycobacterium tuberculosis and M. leprae. Small amounts of crude lysates of Escherichia coli were loaded stepwise onto the immunoaffinity column with intermittent washing, elution and re-equilibration. After several cycles the eluate was passed through the anion-exchanger. Using an immunoaffinity gel of 5-ml volume and the anion-exchanger Mono Q HR 5/5, from 10 ml of crude E. coli lysate (containing up to 50 mg of protein) up to 100 micrograms of recombinant protein in a 2-ml volume could be isolated overnight.

Tuberculosis and Leprosy: Attempts to Identify T-Cell Antigens of Potential Value for Vaccine Design

Tuberculosis and leprosy are chronic bacterial infectious diseases which represent major health problems worldwide. It is generally accepted that, on the one hand, effective vaccination strategies are required for satisfactory control of these diseases and, on the other hand, that currently available vaccination measures are insufficient for this purpose. Ideally, a subunit vaccine should be designed which is composed of one or a few protective antigens. In this brief treatise our approach towards the identification of antigens with potential value for vaccine design is described. It comprises high resolution fractionation by two‐dimensional gel electrophoresis, transfer of separated fractions by electroelution and testing of separated fractions with viable T cells and accessory cells. Using this approach we find: (1) multiple antigens are recognized by T cells from leprosy and tuberculosis patients as well as healthy contacts; (2) apparently, suppressive antigens exist in leprosy; (3) an antigen cluster which is apparently indicative for immunity against M. tuberculosis is present among secreted proteins. We hope that further improvement of this methodology will help in the rational design of subunit vaccines against tuberculosis and leprosy.