Pharmacokinetic/pharmacodynamic modelling of 2-acetyl-4(5)-tetrahydroxybutyl imidazole-induced peripheral lymphocyte sequestration through increasing lymphoid sphingosine 1-phosphate.

2-Acetyl-4(5)-tetrahydroxybutyl imidazole (THI) has been shown to reduce rodent peripheral blood lymphocytes through increasing lymphoid sphingosine 1-phosphate (S1P) by inhibiting S1P lyase. The objective of this study was to characterize the relationship between systemic THI exposure, splenic S1P concentrations, and lymphopenia in rats. Following the oral administration of 10 and 100 mg kg(-1) THI to male rats, THI was rapidly absorbed and reached a plasma peak level at 1 h post-dosing. Splenic S1P increased and reached the peak level at 24 h. Blood lymphocyte count decreased as the splenic S1P level increased. THI plasma concentration was linked to splenic S1P concentration using an indirect model incorporated with a four-step signal transduction model. In turn, the S1P level was directly coupled with blood lymphocyte number. The integrated model simultaneously captured the splenic S1P and blood lymphocyte responses. This pharmacokinetic-biomarker-pharmacodynamic model resolved the remarkable discrepancy between plasma THI concentration and the pharmacological response and quantitatively described the relationship of THI exposure, S1P, and lymphopenic response.

beta1 Integrin-extracellular matrix protein interaction modulates the migratory response to chemokine stimulation.

It is well established that chemokines have a major role in the stimulation of cell movement on extracellular matrix (ECM) substrates. However, it is also clear that ECM substrates may influence the ability of cells to undergo migration. Using the migration chamber method, we assessed the migratory response of human embryonic kidney-293 (HEK) transfectant cells expressing the CC chemokine receptor 5 (CCR5) (HEK-CCR5) to stimulation by chemokines (macrophage inflamatory protein (MIP)-1alpha, MIP-1beta, and regulated on activation normal-T cell expressed and secreted (RANTES)) on ECM substrates (collagen type I and fibronectin). Using filters coated with collagen (20 microg/mL), results showed that the chemokines differed in their ability to elicit cell movement according to the order MIP-1beta > RANTES MIP-1alpha. In contrast, using filters coated with fibronectin (20 microg/mL), all three chemokines were similar in their ability to stimulate migration of HEK-CCR5 cells. In addition, the migratory response with respect to the concentrations of ECM substrates appeared biphasic: thus, chemokine-stimulated cell movement was inhibited at high ECM concentrations (100 microg/mL). To determine the involvement of beta1 integrins, results showed that the migratory response to chemokine stimulation on collagen was largely inhibited by monoclonal antibody (mAb) to alpha2beta1; however, complete inhibition required a combination of mAbs to alpha1beta1 and alpha2beta1. In comparison, migration on fibronectin was inhibited by mAb to alpha3beta1 and alpha5beta1. Our results suggest that the migratory response to CCR5 stimulation may vary quantitatively with both the CCR5 ligand (MIP-1alpha, MIP-1beta, and RANTES), as well as the nature and concentration of the ECM substrate involved.

Chemical synthesis and characterization of chemokine RANTES and its analogues.

RANTES, a polypeptide of 68 amino acid residues, is a member of the C-C chemokine subfamily including other monocyte chemoattractants such as MIP-1alpha, MIP-1beta, MCP-1, MCP-2 and MCP-3. To provide a chemically defined RANTES in quantity suitable for structure-function studies, RANTES and its analogues were synthesized, using a modified solid-phase chemistry approach. The fully protected RANTES and RANTES(3-68) were assembled by automated solid-phase methodology using Fmoc chemistry. Deprotection and cleavage of the resin bound peptides yielded crude peptides, which were then folded and further purified by reverse-phase HPLC. The chemically synthesized RANTES with its identity and purity established, was found to be immunochemically and functionally indistinguishable from the recombinant human RANTES. RANTES and its analog, RANTES(3-68), have recently been used as the substrate in the study of dipeptidyl peptidase IV (CD26)-mediated processing of RANTES and its effect on receptor specificity.

Cytokine regulation of human immunodeficiency virus type 1 entry and replication in human monocytes/macrophages through modulation of CCR5 expression.

Human macrophages express chemokine receptors that act as coreceptors for human immunodeficiency virus type 1 (HIV-1) and are major targets for HIV-1 infection in vivo. The effects of cytokines on HIV-1 infection of macrophages and on the expression of CCR5, the principal coreceptor for macrophage-tropic viruses, have now been investigated. Expression of CCR5 on the surface of freshly isolated human monocytes was virtually undetectable by flow cytometry with the monoclonal antibody 5C7. However, after culture of monocytes for 48 h in serum-free medium, approximately 30% of the resulting macrophages expressed CCR5 and the cells were susceptible to infection by macrophage-tropic HIV-1. Addition of either macrophage colony-stimulating factor (M-CSF) or granulocyte-macrophage colony-stimulating factor (GM-CSF) to the cultures markedly increased both the extent of HIV-1 entry and replication as well as surface expression of CCR5. In contrast, addition of the T-helper 2 (Th2) cell-derived cytokine interleukin-4 (IL-4) or IL-13 prevented the expression of CCR5 induced by culture in medium alone, and IL-4 inhibited virus entry, replication, and cytopathicity under these conditions. IL-4 or IL-13 also prevented the stimulatory effects of M-CSF or GM-CSF on CCR5 expression as well as HIV-1 entry and replication. In addition, IL-4 reversed the increase in CCR5 expression induced by pretreatment of cells with M-CSF. Although IL-10 also inhibits HIV-1 replication in macrophages, it did not suppress surface CCR5 expression induced by colony-stimulating factors. These results indicate that the cytokine environment determines the susceptibility of macrophages to HIV-1 infection by various mechanisms, one of which is the regulation of HIV-1 coreceptor expression.

A semiautomated fluorescence-based cell-to-cell fusion assay for gp120-gp41 and CD4 expressing cells.

A novel fluorescence-based method was developed to measure HIV envelope glycoprotein (env)-CD4-mediated cell fusion. This method measures the spread of a fluorescent dye as the cytosolic compartments of adjacent cells become contiguous upon cell-to-cell fusion. Calcein-labeled CD4+ Sup-T1 cells were seeded onto a monolayer of unlabeled TF228.1.16 cells, which stably express env, the gp120-gp41 complex. Changes in the following parameters were measured using a stage-scanning laser microscope: total fluorescent area, average fluorescent area, and average shape factor. Anti-CD4 monoclonal antibodies, anti-Leu3a, and OKT4E were shown to block fusion in a dose-dependent manner, while OKT4 had no effect. Aurin tricarboxylic acid, a compound that interferes with the binding of anti-Leu3a mAb and gp120 to CD4+ human peripheral blood lymphocytes, T20, a peptide that interferes with gp41, and cytochalasin D, a microfilament disrupter, all blocked fusion in a dose-dependent manner. This semiautomated assay can be used to quickly assess the effectiveness of compounds acting at different sites to block CD4 and env initiated cell-to-cell fusion.

Regulation of anti-HIV-1 activity of RANTES by heparan sulfate proteoglycans.

The role of cell surface proteoglycans in CC chemokine-mediated anti-HIV-1 activity in T cells and macrophages was investigated. Enzyme digestion of heparan sulfate (HS), but not chondroitin sulfate, from the surface of PM1(CD26H) cells (a human T cell line selected for high CD26 expression) rendered them resistant to the antiviral effects of RANTES and macrophage-inflammatory protein-1beta at otherwise inhibitory chemokine concentrations. HIV-1 infection of macrophages, however, was inhibited only partially, even at high concentrations of RANTES, and this inhibition was not prevented by HS removal. Flow cytometry revealed that digestion of cell surface proteoglycans, including HS, prevented the binding of RANTES at 10 to 100 nM concentrations to PM1(CD26H) cells. However, the binding of RANTES to activated macrophages occurred only at higher concentrations (100-300 nM) and was mostly chondroitin sulfate, and not HS, dependent. These results support a role for HS in facilitating the interaction of CC chemokines with the cell surface and the consequent inhibition of HIV-1 infection. The absence of HS-dependent binding of RANTES at lower concentrations to macrophages is consistent with the resistance of these cells to the antiviral effects of chemokines.

Regulation of the receptor specificity and function of the chemokine RANTES (regulated on activation, normal T cell expressed and secreted) by dipeptidyl peptidase IV (CD26)-mediated cleavage.

CD26 is a leukocyte activation marker that possesses dipeptidyl peptidase IV activity but whose natural substrates and immunological functions have not been clearly defined. Several chemo-kines, including RANTES (regulated on activation, normal T cell expressed and secreted), have now been shown to be substrates for recombinant soluble human CD26. The truncated RANTES(3-68) lacked the ability of native RANTES(1-68) to increase the cytosolic calcium concentration in human monocytes, but still induced this response in macrophages activated with macrophage colony-stimulating factor. Analysis of chemokine receptor messenger RNAs and patterns of desensitization of chemokine responses showed that the differential activity of the truncated molecule results from an altered receptor specificity. RANTES(3-68) showed a reduced activity, relative to that of RANTES(1-68), with cells expressing the recombinant CCR1 chemokine receptor, but retained the ability to stimulate CCR5 receptors and to inhibit the cytopathic effects of HIV-1. Our results indicate that CD26-mediated processing together with cell activation-induced changes in receptor expression provides an integrated mechanism for differential cell recruitment and for the regulation of target cell specificity of RANTES, and possibly other chemokines.

Beta-chemokine inhibition of monocytotropic HIV-1 infection. Interference with a postbinding fusion step.

The beta-chemokines RANTES, MIP-1 alpha, and MIP-1 beta have potent suppressive effects on HIV-1 infection resulting from an early postbinding block in virus fusion and entry. Inhibition was observed only with monocytotropic isolates and mapped to the V3 region of the HIV-1 envelope. RANTES did not inhibit virus expression in chronically infected cells or reduce initial virus attachment to the cell membrane. Inhibitory activity required RANTES binding to the target cell but not G protein-mediated signaling or protein tyrosine kinase activity. The results are consistent with a reversible competitive mechanism of virus inhibition that prevents a V3-associated postbinding step in membrane fusion. The data support a role for a RANTES chemokine receptor as a coreceptor for monocytotropic-HIV-1.

CD26 expression correlates with entry, replication and cytopathicity of monocytotropic HIV-1 strains in a T-cell line.

Experiments to identify cell determinants involved in HIV-1 tropism revealed a specific decrease in the expression of the T-cell activation antigen CD26 after monocytotropic (M-tropic) but not T-cell line-tropic (T-tropic) virus infection of the PM1 T-cell line. The level of CD26 expression in single-cell clones of PM1 correlated with the entry rate and cytopathicity of M-tropic HIV-1 variants, resulting in preferential survival of cells with low CD26 levels after infection. Experiments with recombinant viruses showed that the third hypervariable region of the envelope gp120 plays an important role in this selection process. This study identifies CD26 as a key marker for M-tropic human immunodeficiency virus type 1 (HIV-1) infection and suggests a mechanism for the early loss of CD26-expressing cells in HIV-1-infected individuals.

Mediation of human immunodeficiency virus type 1 binding by interaction of cell surface heparan sulfate proteoglycans with the V3 region of envelope gp120-gp41.

The mechanism of heparan sulfate (HS)-mediated human immunodeficiency virus type 1 (HIV-1) binding to and infection of T cells was investigated with a clone (H9h) of the T-cell line H9 selected on the basis of its high level of cell surface CD4 expression. Semiquantitative PCR analysis revealed that enzymatic removal of cell surface HS by heparitinase resulted in a reduction of the amount of HIV-1 DNA present in H9h cells 4 h after exposure to virus. Assays of the binding of recombinant envelope proteins to H9h cells demonstrated a structural requirement for an oligomeric form of gp120/gp41 for HS-dependent binding to the cell surface. The ability of the HIV-1 envelope to bind simultaneously to HS and CD4 was shown by immunoprecipitation of HS with either antienvelope or anti-CD4 antibodies from 35SO4(2-)-labeled H9h cells that had been incubated with soluble gp140. Soluble HS blocked the binding of monoclonal antibodies that recognize the V3 and C4 domains of the envelope protein to the surface of H9 cells chronically infected with HIV-1IIIB. The V3 domain was shown to be the major site of envelope-HS interaction by examining the effects of both antienvelope monoclonal antibodies and heparitinase on the binding of soluble gp140 to H9h cells.

Effect of phytohaemagglutinin on CD45 in T cells.

In this study the effect of PHA activation on the phosphatase activity of CD45 has been investigated in human leukemic T-cell lines. It has been found that in vivo activation of the cells with PHA resulted in 2-4-fold increase in enzyme activity. Addition of PHA to the postnuclear supernatant of cell lysates also resulted in elevation of phosphatase activity. Elevation of enzyme activity resulted from an increase in the amount of antigen in the immunoprecipitates. Elevation of the quantity was not the result of a de novo protein synthesis since the presence of cycloheximide, a protein synthesis inhibitor, did not modulate the effect of PHA. The effect of PHA was specific since ConA, that also bound to the CD45 molecules, or crosslinking of the antigen by antibody did not affect CD45. Since direct binding of PHA to CD45 molecules was shown in immunoblotting analysis, we suggest that the effect of PHA is a consequence of a PHA-induced conformational change of CD45 that results in up-regulation of the analyzed CD45 epitopes.

Cryptic nature of envelope V3 region epitopes protects primary monocytotropic human immunodeficiency virus type 1 from antibody neutralization.

Characterization of biological and immunological properties of human immunodeficiency virus type 1 (HIV-1) is critical to developing effective therapies and vaccines for AIDS. With the use of a novel CD4+ T-cell line (PM-1) permissive to infection by both monocytotropic (MT) and T-cell-tropic virus types, we present a comparative analysis of the immunological properties of a prototypic primary MT isolate of HIV-1 strain JR-CSF (MT-CSF) with those of a T-cell-tropic variant (T-CSF) of the same virus, which emerged spontaneously in vitro. The parental MT-CSF infected only PM-1 cells and was markedly resistant to neutralization by sera from HIV-1-infected individuals, rabbit antiserum to recombinant MT-CSF gp120, and anti-V3 monoclonal antibodies. The T-CSF variant infected a variety of CD4+ T-cell lines, contained positively charged amino acid substitutions in the gp120 V3 region, and was highly sensitive to antibody neutralization. Neutralization and antibody staining of T-CSF-expressing cells were significantly inhibited by HIV-1 V3 peptides; in contrast, the MT strain showed only weak V3-specific binding of polyclonal and monoclonal antibodies. Exposure of PM-1 cells to a mixture of both viruses in the presence of human anti-HIV-1 neutralizing antiserum resulted in infection with only MT-CSF. These results demonstrate that although the V3 region of MT viruses is immunogenic, the target epitopes in the V3 principal neutralizing domain on the membrane form of the MT envelope appear to be cryptic or hidden from blocking antibodies.

Novel heterogeneity of the leucocyte common antigen (CD45): disulfide-bound heterodimers between CD45 and an 80 kDa polypeptide.

The leukocyte common antigen, CD45, is one of the major glycoproteins on cells of hemopoietic origin showing considerable heterogeneity in both structure and expression. Biochemical heterogeneity has been attributed to differences in the primary sequence and glycosylation. In this paper we report an additional basis for generation of heterogeneity by revealing that CD45 can form disulfide-bound heterodimers with an 80 kDa polypeptide. Since a respectable fraction of the CD45 molecules is involved in heterodimer formation, it is suggested that the 80 kDa polypeptide could be involved in the regulation of CD45 function.

Immunohistochemical detection of raf protein kinase in cerebral cortical areas of adult guinea pigs and rats.

The raf protooncogenes are the cellular counterparts of the v-raf oncogene expressed by a murine sarcoma virus. The raf protooncogenes encode cytoplasmic serine/threonine-specific protein kinases which can be activated from different growth factor receptors by phosphorylation. The mRNAs of raf protooncogenes are found in a large variety of normal adult tissues, including the central nervous system. As concerns the distribution and localization of their protein products (the raf kinases), very few data are to be found in the literature. This is the first detailed description of their light microscopic localization in neocortical and allocortical areas of rodents. Preembedding immunohistochemical studies were performed on vibratome sections from the brains of adult guinea pigs and albino rats. The localizations of two isoenzymes, raf-1 kinase and B-raf kinase, were studied with the help of isoenzyme-specific polyclonal antibodies. Both of the antibodies detected raf protein-like immunoreactivity in many neurons and scattered glial cells of the sensory neocortex, and the cingular, pyriform, perirhinal and entorhinal allocortical areas. Pyramidal and non-pyramidal cells of Ammon's horn, granule cells of the dentate fascia and the large neurons in the hilar region were immunoreactive, too. The findings indicated that B-raf protein kinase and raf-1 kinase are present almost ubiquitously in the neurons of the investigated cortical structures. The intensity of staining obtained with serial dilutions of the antibodies indicated that the cytoplasmic concentration of B-raf kinase is tended to be higher than that of raf-1 kinase. The present findings suggested that the raf kinases are localized in postsynaptic structures, mainly in dendrites and cell bodies. Their cytosolic localization and their ability to undergo intracellular translocation during activation and phosphorylation raise the possibility that they play a pivotal role in the intracellular signaling of neurons.

Costimulatory properties of the human CD4 molecule: enhancement of CD3-induced T cell activation by human immunodeficiency virus type 1 through viral envelope glycoprotein gp120.

This study was designed to investigate the T cell costimulatory activity of ligands binding to different regions on the human CD4 molecule. We assayed the costimulatory properties of a panel of CD4 MAbs, intact HIV, and viral envelope glycoproteins in CD3-induced activation of resting T cell subpopulations. Our data using MAbs reveal epitope-specific variations in the functional activities of CD4 MAbs under specific conditions in which CD3 and CD4 molecules are co-cross-linked. We show that both naive and memory CD4+ T cell subsets are susceptible to CD4-mediated costimulation, which overcomes the functional differences between the two cell populations in responsiveness to CD3 MAbs. We show for the first time that, analogous to CD4 MAbs, preparations of HIV and viral envelope glycoprotein gp120 are also potent costimulators of T cell proliferation and IL-2 production. On the basis of these results we propose possible mechanisms for polyclonal cell activation in the course of HIV infection and suggest that viral inhibitory and costimulatory effects may together disrupt the normal balanced function of the immune system, leading to AIDS.

Cell-surface heparan sulfate proteoglycan mediates HIV-1 infection of T-cell lines.

The role of cell-surface proteoglycans in human immunodeficiency virus (HIV) infection of T-cell lines was investigated. HIV-1-susceptible lymphoblastic T-cell lines, MT-4 and H9, were analyzed for proteoglycan synthesis and found to make heparan sulfate (HS) and chondroitin sulfate proteoglycans. Enzymatic treatment of these cells with heparitinase, but not chondroitinase, significantly prevented HIV-1(IIIB) infection as measured by inhibition of cytopathicity, reverse transcriptase production, and syncytia formation. Sulfation of glycosaminoglycans HS chains was critical to viral entry as shown by inhibition of viral infection with sodium chlorate and its specific reversal with exogenous sulfate addition. Quantitation of direct virus binding to cells showed that treatment of cells with heparitinase inhibited HIV-1 binding to the T-cell surface. Exogenous HS added to cultures inhibited virus infection in a manner analogous to dextran sulfate, further supporting a functional role for HS in HIV-1 binding. These results provide evidence for participation of cell-surface HS proteoglycans in HIV-cell attachment and virus entry.

CD3-induced T-cell proliferation and interleukin-2 secretion is modulated by the CD45 antigen.

In the present study we have investigated the effect of CD45, CD45RA and CD45RO monoclonal antibodies (MoAbs) on the CD3 receptor-mediated proliferation of human T lymphocytes. It is shown that CD3-induced proliferation of purified resting T cells and quiescent T lymphoblasts (QTL) is promoted via all of the investigated CD45-associated epitopes. It is also shown that the CD45 molecules are required to be cross-linked for costimulation. The MoAbs enhance the interleukin-2 (IL-2) production of CD3-stimulated QTL. The elevation of the IL-2 production correlates with the increase in CD3-induced cell proliferation suggesting that the CD45-driven regulation of T lymphocyte activation is linked to the IL-2 pathway.

Immunohistochemical localization of raf protein kinase in dendritic spines and spine apparatuses of the rat cerebral cortex.

The ultrastructural localization of raf protein (product of the raf protooncogene) in the neocortex, pyriform cortex and hippocampus of the rat has been investigated by means of pre-embedding immunohistochemistry. Specificity of the antiserum was tested with Western blotting. Besides the immunoreactivity of the dendrites, remarkably strong immunostaining of the dendritic spines and spine apparatuses was noted in each of the investigated areas. The postsynaptic densities were also stained. Since raf proteins are serine/threonine-specific protein kinases, our findings could be important steps toward the understanding of dendritic spine plasticity.