[Multidirectional effect of MIF and sodium polyprenyl phosphate on the course of experimental flavivirus infection in mice].

AIM: Study of macrophage migration inhibiting factor (MIF) effect after intracerebral administration on the course of experimental infection induced in mice by tick borne encephalitis virus (TEV), and study of sodium polyprenyl phosphate (PPP) and/or antibodies against MIF on the course of this infection against the background of MIF administration. MATERIALS AND METHODS: Phosprenil preparation was used as a source of PPP. PPP was administered intracerebrally. MIF--human recombinant (R&D, USA), mice--Balb/c line. RESULTS: In the sera of mice infected with TEV, MIF production stimulation was detected at days 8 through 10 after the infection--against the background of clinical signs presentation of tick borne encephalitis (TE). Administration of PPP to infected mice, on the contrary, resulted in MIF production suppression at the specified period. After administration of 20 ng of MIF to mice, lethality increased by 40% and average life span decreased by 2.3 days. Thus, MIF at high doses caused an increase of infection course severity, induced by TEV in mice, and administration of 60 microg of PPP resulted in the protection from infection in 100% of cases. Intracerebral administrationto mice of antibodies against MIF resulted in a decrease of lethality indicator up to 26% as compared with control and an increase of averagelife span by 5.5 days. During simultaneous administration into the brain of infected mice of MIF, PPP and antibodies against MIF, prevention of MIF-induced increase of TE course severity was registered. CONCLUSION: The data obtained allow to conclude that MIF may serve as an indicator of TE course severity, and possible prognostic indicator of meningo-encephalitic form development in humans.

[Lactobacillus plantarum and phosprenyl competitively distinguish ovalbumin oligomannoside n-glycan].

AIM: Demonstration of the ability of native products of lactobacteria to bind mannose containing N-glycans as a display of one of the mechanisms of probiotic behavior of these symbiont microorganism in gastrointestinal tract (GIT). MATERIALS AND METHODS: Lactobacillus plantarum 30 grown on selective medium (MRS-agar) and their ultrasound lysates were used in the study. Standard technique of delayed type hypersensitivity (DTH) reaction was used with inactivated Listeria monocytogenes culture as a priming agent. RESULTS: DTH reaction in vivo has demonstrated that oligomannoside N-glycan of egg albumin is a general acceptor for adhesins that are present in the native preparations of certain L. plantarum strains, as well as for phosprenyl (PHP) immunomodulator--an inhibitor of cell IL-2 reception. CONCLUSION: The data obtained give evidence that mannose specific adhesins that are conserved in lactobacteria preparations have the same binding sites in egg albumin as PHP and, therefore, IL-2.

Control of CD56 expression and tumor cell cytotoxicity in human Vgamma2Vdelta2 T cells.

BACKGROUND: In lymphocyte subsets, expression of CD56 (neural cell adhesion molecule-1) correlates with cytotoxic effector activity. For cells bearing the Vgamma2Vdelta2 T cell receptor, isoprenoid pyrophosphate stimulation leads to uniform activation and proliferation, but only a fraction of cells express CD56 and display potent cytotoxic activity against tumor cells. Our goal was to show whether CD56 expression was regulated stochastically, similar to conventional activation antigens, or whether CD56 defined a lineage of cells committed to the cytotoxic phenotype. RESULTS: Tracking individual cell clones defined by their Vgamma2 chain CDR3 region sequences, we found that CD56 was expressed on precursor cytotoxic T cells already present in the population irrespective of their capacity to proliferate after antigen stimulation. Public T cell receptor sequences found in the CD56+ subset from one individual might appear in the CD56- subset of another donor. The commitment of individual clones to CD56+ or CD56- lineages was stable for each donor over a 1 year interval. CONCLUSION: The ability to express CD56 was not predicted by TCR sequence or by the strength of signal received by the TCR. For gammadelta T cells, cytotoxic effector function is acquired when cytotoxic precursors within the population are stimulated to proliferate and express CD56. Expression of CD56 defines a committed lineage to the cytotoxic phenotype.

Geranylgeranylation but not GTP-loading of Rho GTPases determines T cell function.

Rho guanosine triphosphatases (GTPases) orchestrate signaling pathways leading to cell migration. They are typically responsible for the organization of actin filaments that support actomyosin contractility and cell-body translocation. The function of Rho GTPases depends on GTP-loading and isoprenylation by geranylgeranyl pyrophosphate (GGpp). The latter posttranslational modification may be manipulated by agents such as 3-hydroxy-3-methylglutaryl-CoA reductase inhibitors (HMGCRIs) that prevent de novo synthesis of isoprenoids such as GGpp. HMGCRIs have anti-inflammatory properties and substantially reduce infiltration of inflammatory immune cells into target tissues, including the central nervous system (CNS) during neuroinflammation. The depletion of the cellular isoprenoid pool is believed to result in the regulation of antigen-specific T cells outside the target organ and also to prevent migration of these cells into target organs, such as the CNS. In vivo treatment with HMGCRI in the experimental autoimmune encephalitis (EAE) rodent model of multiple sclerosis reduces the capacity of activated T cells to traffic to and within the brain. This presentation shows that geranylgeranylation is fundamental for RhoA-mediated downstream events such as influencing cytoskeletal organization and the migration of T cells. Tethering of RhoA to the membrane by GGpp is necessary for T cell migration and provides a mechanism by which HMGCRI may prevent T cell infiltration into inflamed compartments.

Endogenous lipid mediators in the resolution of airway inflammation.

Acute inflammation in the lung is fundamentally important to host defence, but chronic or excessive inflammation leads to several common respiratory diseases, including asthma and acute respiratory distress syndrome. The resolution of inflammation is an active process. In health, events at the onset of acute inflammation establish biosynthetic circuits for specific chemical mediators that later serve as agonists to orchestrate a return to tissue homeostasis. In addition to an overabundance of pro-inflammatory stimuli, pathological inflammation can also result from defects in resolution signalling. The understanding of anti-inflammatory, pro-resolution molecules and their counter-regulatory signalling pathways is providing new insights into the molecular pathophysiology of lung disease and opportunities for the design of therapeutic strategies. In the present review, the growing family of lipid mediators of resolution is examined, including lipoxins, resolvins, protectins, cyclopentenones and presqualene diphosphate. Roles are uncovered for these compounds, or their structural analogues, in regulating airway inflammation.

Preferential recognition of a microbial metabolite by human Vgamma2Vdelta2 T cells.

Human Vgamma2Vdelta2 T cells are stimulated by prenyl pyrophosphates, such as isopentenyl pyrophosphate (IPP), and play important roles in mediating immunity against microbial pathogens and have potent anti-tumor activity. (E)-4-hydroxy-3-methyl-but-2-enyl pyrophosphate (HMBPP) has been identified as a metabolite in the 2-C-methyl-D-erythritol-4 phosphate (MEP) pathway for isoprenoid biosynthesis that is used by many bacteria and protozoan parasites. We find that HMBPP is the major Vgamma2Vdelta2 T-cell antigen for many bacteria, including Mycobacterium tuberculosis, Yersinia enterocolitica and Escherichia coli. HMBPP was a 30 000-fold more potent antigen than IPP. Using mutant bacteria, we show that bacterial antigen levels for Vgamma2Vdelta2 T cells are controlled by MEP pathway enzymes and find no evidence for the production of 3-formyl-1-butyl pyrophosphate. Moreover, HMBPP reactivity required only germ line-encoded Vgamma2Vdelta2 TCR elements and is present at birth. Importantly, we show that bacterial HMBPP levels correlated with their ability to expand Vgamma2Vdelta2 T cells in vivo upon engraftment into severe combined immunodeficiency-beige mice. Thus, the production of HMBPP by a microbial-specific isoprenoid pathway plays a major role in determining whether bacteria will stimulate Vgamma2Vdelta2 T cells in vivo. This preferential stimulation by a common microbial isoprenoid metabolite allows Vgamma2Vdelta2 T cells to respond to a broad array of pathogens using this pathway.

Structural features of nonpeptide prenyl pyrophosphates that determine their antigenicity for human gamma delta T cells.

Human Vgamma2Vdelta2(+) T cells proliferate in vivo during many microbial infections. We have found that Vgamma2Vdelta2(+) T cells recognize nonpeptide prenyl pyrophosphates and alkylamines. We now have defined structural features that determine the antigenicity of prenyl pyrophosphates by testing synthetic analogs for bioactivity. We find that the carbon chain closest to the pyrophosphate moiety plays the major role in determining bioactivity. Changes in this area, such as the loss of a double bond, abrogated bioactivity. The loss of a phosphate from the pyrophosphate moiety also decreased antigenicity 100- to 200-fold. However, nucleotide monophosphates could be added with minimal changes in bioactivity. Longer prenyl pyrophosphates also retained bioactivity. Despite differences in CDR3 sequence, Vgamma2Vdelta2(+) clones and a transfectant responded similarly. Ag docking into a Vgamma2Vdelta2 TCR model reveals a potential binding site in germline regions of the Vgamma2Jgamma1.2 CDR3 and Vdelta2 CDR2 loops. Thus, Vgamma2Vdelta2(+) T cells recognize a core carbon chain and pyrophosphate moiety. This recognition is relatively unaffected by additions at distal positions to the core Ag unit.

Superantigen recognition by gammadelta T cells: SEA recognition site for human Vgamma2 T cell receptors.

Human gammadelta T cells expressing the Vgamma2Vdelta2 antigen receptors recognize nonpeptide prenyl pyrophosphate and alkylamine antigens. We find that they also recognize staphylococcal enterotoxin A superantigens in a manner distinct from the recognition of nonpeptide antigens. Using chimeric and mutant toxins, SEA amino acid residues 20-27 were shown to be required for gammadelta TCR recognition of SEA. Residues at 200-207 that are critical for specific alphabeta TCR recognition of SEA do not affect gammadelta TCR recognition. SEA residues 20-27 are located in an area contiguous with the binding site of V beta chains. This study defines a superantigen recognition site for a gammadelta T cell receptor and demonstrates the differences between Vgamma2Vdelta2+ T cell recognition of superantigens and nonpeptide antigens.

CD1c-mediated T-cell recognition of isoprenoid glycolipids in Mycobacterium tuberculosis infection.

The discovery of the CD1 antigen presentation pathway has expanded the spectrum of T-cell antigens to include lipids, but the range of natural lipid antigens and functions of CD1-restricted T cells in vivo remain poorly understood. Here we show that the T-cell antigen receptor and the CD1c protein mediate recognition of an evolutionarily conserved family of isoprenoid glycolipids whose members include essential components of protein glycosylation and cell-wall synthesis pathways. A CD1c-restricted, mycobacteria-specific T-cell line recognized two previously unknown mycobacterial hexosyl-1-phosphoisoprenoids and structurally related mannosyl-beta1-phosphodolichols. Responses to mannosyl-beta1-phosphodolichols were common among CD1c-restricted T-cell lines and peripheral blood T lymphocytes of human subjects recently infected with M. tuberculosis, but were not seen in naive control subjects. These results define a new class of broadly distributed lipid antigens presented by the CD1 system during infection in vivo and suggest an immune mechanism for recognition of senescent or transformed cells that are known to have altered dolichol lipids.

Crucial role of TCR gamma chain junctional region in prenyl pyrophosphate antigen recognition by gamma delta T cells.

Human gamma delta T cells recognize prenyl pyrophosphate Ags and their analogues in a V gamma 2V delta 2 TCR-dependent manner. Few data are available regarding the TCR structural requirements for recognition of such prenyl pyrophosphate Ags by gamma delta T cells. Presently, we made chain pair switch, chimeric, and site mutant gamma delta TCRs and transfected them into TCR- mutant Jurkat T cells to examine the effects of changing the TCR gamma junctional region sequences on reactivity to prenyl pyrophosphate Ags. Substitution of the TCR gamma junctional region (N and J) sequences from an Ag-reactive TCR with TCR gamma junctional region sequences from an Ag-nonreactive TCR abrogated reactivity to the prenyl pyrophosphate Ag isopentenyl pyrophosphate and to its synthetic analogue ethyl pyrophosphate but not to a mycobacterial supernatant containing a mixture of prenyl pyrophosphate Ags. Substitution of only the TCR gamma N nucleotide region with that from this Ag-nonreactive TCR destroyed reactivity to isopentenyl pyrophosphate and to the mycobacterial supernatant. Substitution of the entire V delta 2 chain from the Ag-reactive TCR with a V delta 1 chain from an Ag-nonreactive TCR yielded a prenyl pyrophosphate Ag-nonreactive TCR. Thus, using TCR mutagenesis and TCR transfectants, we show that gamma delta TCR reactivity to prenyl pyrophosphate Ags is dependent upon the junctional region of the TCR gamma chain and upon pairing of V gamma 2 and V delta 2 TCR chains. These structural requirements of TCR gamma delta recognition of prenyl pyrophosphates distinguish this reactivity from that of protein superantigens and emphasize the importance of the TCR gamma CDR3 loop and adjacent residues.

Reactivity of vitamin A derivatives and analogues with vitamin A antibodies.

Vitamin A antibodies were obtained using retinoic acid conjugated to human serum albumin as an immunogen. The following constraints governed the reactivity of vitamin A analogues with such an anti-serum. The stereochemistry of the side chain is relatively unimportant, and 9- and 13-cis retinal react almost as well as all-trans retinal. The nature of the ring is important; all of the compounds that react readily carry a beta-ionic ring; all of the compounds bearing an aromatic ring react poorly; the two compounds that display intermediate reactivity have non-aromatic 6- and 5-membered rings, respectively.