Cloning of the human eosinophil chemoattractant, eotaxin. Expression, receptor binding, and functional properties suggest a mechanism for the selective recruitment of eosinophils

Influenza virus A stimulates expression of eotaxin by nasal epithelial cells

BACKGROUND

Respiratory virus is one of the most common causes of airway inflammation, but its pathogenic mechanisms are not well understood. Eotaxin is a potent eosinophil chemoattractant and is a selective agonist for C-C chemokine receptor 3 (CCR3). Although it has recently been demonstrated that epithelial cells express eotaxin, both in vivo and in vitro, there are few data concerning the expression in viral infection.

OBJECTS

We hypothesized that eotaxin may play an important role in attracting inflammatory cells into the airway after viral infection and analysed whether viral infection induces eotaxin in nasal epithelial cells in vitro.

METHODS

Nasal epithelial cells obtained from polypectomy for nasal polyp were infected with influenza virus A (subtype H3N2). The cells and supernatants were collected 8, 24 and 48 h after infection. Eotaxin mRNA was analysed by RT-PCR. Eotaxin concentration in the supernatants was analysed by enzyme-linked immunosorbent assay. We also examined a blocking assay to analyse the intervention of pro-inflammatory cytokines, TNF-alpha and IL-1beta in eotaxin production induced by influenza virus.

RESULTS

The results showed that eotaxin was expressed constitutively in uninfected cells, but was up-regulated for both mRNA and protein levels in infected cells. Blocking experiments using anti-TNF-alpha and anti-IL-1beta antibodies showed no effects of these agents on the level of eotaxin. In addition, UV-inactivated virus did not enhance the expression of eotaxin.

CONCLUSIONS

These results suggest that influenza virus A infection in nasal epithelial cells stimulates the expression of eotaxin, and may play an important role in the pathogenesis of airway inflammation by inducing eotaxin.

Discovery of potent and selective phenylalanine derived CCR3 receptor antagonists. Part 2

Highly potent CCR3 antagonists have been developed from a previously reported series of phenylalanine ester-based leads. Solution-phase, parallel synthesis optimization was utilized to identify highly potent, functional CCR3 antagonists.

Eotaxin expression after segmental allergen challenge in subjects with atopic asthma

Expression of pulmonary eotaxin protein and mRNA was determined in six subjects with atopic asthma and five nonatopic normal subjects. Levels of eotaxin expression and eosinophil mobilization were compared before and after segmental allergen challenge in subjects with atopic asthma. In the absence of allergen challenge, we found significantly higher levels of eotaxin in the bronchoalveolar lavage (BAL) fluid of subjects with asthma than in that of normal subjects (25 +/- 3 versus 15 +/- 2 pg/ml, p < 0.05). BAL eotaxin levels increased after segmental allergen challenge in all six subjects with atopic asthma tested, with a mean increase from 22 +/- 4 to 53 +/- 10 pg/ml (p = 0.013). Segmental allergen challenge was associated with a significant increase in the percentage of BAL macrophages and eosinophils that were immunopositive for eotaxin. Eotaxin mRNA was detectable by northern analysis in BAL cells exclusively from allergen-challenged segments. Allergen- induced increases in eotaxin levels were strongly associated with increases in BAL eosinophil recovery (r(2) = 0.88, p = 0.0036). Segmental allergen challenge also increased eotaxin expression in airway epithelial and endothelial cells obtained by endobronchial biopsy. These findings demonstrate, for the first time, that the airways of subjects with allergic asthma respond to allergen by increasing eotaxin expression. The tissue loci of eotaxin expression, the levels of eotaxin recovered in BAL fluid, and the association of eotaxin levels with eosinophil mobilization suggest either that eotaxin plays a mechanistic role in allergen-induced airway eosinophilia or that it serves as a biomarker for the causal mechanisms.

Erythema toxicum neonatorum: an immunohistochemical analysis

Erythema toxicum neonatorum is a benign rash of unknown etiology, present to various degrees in most term newborns and characterized by an accumulation of eosinophils in dermal lesions. The recruitment of leukocytes to tissues implicates the involvement of adhesion molecules, cytokines, and chemokines. We therefore performed immunohistochemistry on punch biopsy specimens from cutaneous lesions of ten 1-day-old infants with erythema toxicum using specific monoclonal antibodies directed against a variety of adhesion molecules, cytokines, chemokines, and cell type-specific membrane markers. Biopsy specimens of noninflamed skin from four matched newborns and four adults served as controls. The immunohistologic features of erythema toxicum in all 10 infants included a strong staining of the adhesion molecule E-selectin in the vessel wall and the presence of numerous inflammatory cells that were identified as dendritic cells (CD1a, CD83, HLA-DR, CD40, and ICAM-1 positive), eosinophils (EG2 positive), neutrophils (CD15 positive), macrophages (CD14, CD68, and Mac387 positive), and E-selectin-expressing cells. Furthermore, the lesions showed a high incidence of the proinflammatory cytokines interleukin (IL)-1alpha and IL-1beta and of the chemokines IL-8 and eotaxin. This immunologic activity was reduced or absent in noninflamed skin from newborn controls and adults. We conclude that there is an accumulation and activation of immune cells in the lesions of erythema toxicum, also present in noninflamed skin of 1-day-old infants, but to a lower level. The physiologic significance of the rash remains to be elucidated.

CD80 costimulation is required for Th2 cell cytokine production but not for antigen-specific accumulation and migration into the lung

The CD28 ligands CD80 and CD86 are expressed on APC, and both provide costimulatory function. However, the reason for the expression of two separate CD28 ligands remains unclear. We have previously shown that blockade of CD80 costimulation by Y100F-Ig, a CTL-associated Ag-4 (CTLA4)-Ig mutant that does not bind CD86, inhibits the development of lung inflammatory immune responses, but does not affect blood eosinophilia or Ab production. Each of those responses was inhibited by treatment with CTLA4-Ig, which binds both CD80 and CD86. To clarify the mechanism underlying these observations we have developed a model of lung inflammation using adoptively transferred CD4(+) T cells expressing a Valpha11(+)Vbeta3(+) transgenic TCR specific for I-E(k) and moth cytochrome c. Treatment with Y100F-Ig inhibited the induction of lung eosinophilia in adoptively transferred mice. However, Y100F-Ig did not detectably affect the accumulation of Ag-specific T cells at the site of peptide deposit or in the draining lymphoid tissues. Acquisition of an activated phenotype and expression of adhesion molecules required for migration into the lung were modestly affected. Importantly, treatment with Y100F-Ig diminished the ability of T cells to produce the cytokines IL-4 and IL-5 following intranasal challenge with Ag. All the responses examined were severely inhibited by treatment with CTLA4-Ig. We conclude that T cells require CD80 costimulation for the optimal production of IL-5 following intranasal administration of Ag. Decreased IL-5 production is the most likely explanation for the diminished airway eosinophilia observed.

Expression cloning of the STRL33/BONZO/TYMSTRligand reveals elements of CC, CXC, and CX3C chemokines

STRL33/BONZO/TYMSTR is an orphan chemokine and HIV/SIV coreceptor receptor that is expressed on activated T lymphocytes. We describe an expression cloning strategy whereby we isolated a novel chemokine, which we name CXCL16. CXCL16 is an alpha (CXC) chemokine but also has characteristics of CC chemokines and a structure similar to fractalkine (neurotactin) in having a transmembrane region and a chemokine domain suspended by a mucin-like stalk. A recombinant version of CXCL16 fails to mediate chemotaxis to all known chemokine receptor transfectants tested but does mediate robust chemotaxis, high affinity binding, and calcium mobilization to Bonzo receptor transfectants, indicating that this is a unique receptor ligand interaction. In vitro polarized T cell subsets including Th1, Th2, and Tr1 cells express functional Bonzo, suggesting expression of this receptor in chronic inflammation, which we further verified by demonstration of CXCL16-mediated migration of tonsil-derived CD4(+) T lymphocytes. CXCL16 is expressed on the surface of APCs including subsets of CD19(+) B cells and CD14(+) monocyte/macrophages, and functional CXCL16 is also shed from macrophages. The combination of unique structural features of both Bonzo and CXCL16 suggest that this interaction may represent a new class of ligands for this receptor family. Additionally, this chemokine might play a unique dual role of attracting activated lymphocyte subsets during inflammation as well as facilitating immune responses via cell-cell contact.

Eotaxin expression and eosinophil infiltrate in the liver of patients with drug-induced liver disease

BACKGROUND

Drug-induced liver disease is due to intrinsic or idiosyncratic hepatotoxins. Liver parenchyma is then infiltrated by immunocompetent cells. Eosinophils are primarily tissue leukocytes which are attracted into tissues by various chemoattractants, including chemokines. The aim of this study was to study eosinophils in the livers of patients with drug-induced liver disease.

METHODS

Immunohistochemical studies with antibodies against eosinophil cationic proteins (major basic protein, eosinophil-derived neurotoxin and eosinophil cationic protein), cytokines (interleukin 5 (IL-5), interleukin 3 (IL-3) and granulocyte-macrophage colony stimulating factor (GM-CSF)) and chemokines (eotaxin and RANTES (Regulated upon Activation Normal T cell Expressed and Secreted)) were performed to assess the in situ activation of the liver-infiltrating eosinophils of 14 patients with drug-induced liver disease and 19 controls.

RESULTS

Eosinophils were only observed in patients with drug-induced liver disease. Eosinophils were morphologically normal when hepatitis was due to paracetamol whereas eosinophils had granular changes when hepatitis was due to an idiosyncratic hepatotoxin. Eotaxin was detected in all patients with drug-induced liver disease, whereas RANTES was detected in three of them. IL-5, IL-3 or GM-CSF were not detected.

CONCLUSIONS

In patients with drug-induced liver disease, the recruitment of eosinophils in the liver may depend on eotaxin expression. Eosinophil changes may vary according to the type of drug.

Detection of mRNA for eotaxin-2 and eotaxin-3 in human dermal fibroblasts and their distinct activation profile on human eosinophils

As many new biologically active chemokines have been cloned exploring the genomic DNA sequence database in the vicinity of already known chemokine sequences without demonstrating their natural origin, it is important to transfer findings from in vitro experiments with chemokines into the in vivo situation. With respect to eosinophils and fibroblasts that play an important part in the pathogenesis of allergic and autoimmune diseases, the role of the recently discovered members of the eotaxin family, eotaxin-2 and eotaxin-3, is not really understood. In order to elucidate the origin and biologic potency of the eotaxin family this study was performed. Conventional reverse transcription-polymerase chain reaction analysis was suitable to detect mRNA for eotaxin and eotaxin-3 but not for eotaxin-2 in dermal fibroblasts. In contrast to conventional reverse transcription-polymerase chain reaction, LightCycler analysis revealed that dermal fibroblasts constitutively expressed mRNA not only for eotaxin and eotaxin-3 but also for eotaxin-2. Moreover, with this technique we investigated mRNA expression levels after stimulation of fibroblasts with interleukin-4 and interleukin-4 plus tumor necrosis factor-alpha: the rank order of expression levels within the eotaxin family was eotaxin > eotaxin-3 > eotaxin-2. To address the question of the efficacy of eotaxin-3, we compared its activity with eotaxin, eotaxin-2, monocyte chemotactic protein-3, monocyte chemotactic protein-4, and RANTES in different test systems for eosinophils. The efficacy of the CC chemokines at equimolar concentrations with respect to the chemotactic response of human eosinophils was eotaxin-3 = eotaxin = eotaxin-2 > RANTES > monocyte chemotactic protein-4. The rank order of activity with respect to actin polymerization and release of toxic reactive oxygen species was eotaxin-3 = eotaxin = eotaxin-2 and eotaxin = eotaxin-2 > eotaxin-3 = monocyte chemotactic protein-3 = monocyte chemotactic protein-4 = RANTES, respectively. This study indicated a distinct profile in expression levels of the members of the eotaxin family in dermal fibroblasts. Indeed, all three eotaxin ligands demonstrated activation of human eosinophils with similar efficacies for chemotaxis, cytoskeletal rearrangements, activation of Gi proteins and transients of [Ca2+]i, but a distinct profile of activity with respect to the binding to CCR3 and the release of toxic reactive oxygen species. These findings may help to understand further the role of CC chemokines in fibroblast/eosinophil activation, which is of interest particularly in allergic and autoimmune diseases.

Characterization of the CC chemokine receptor 3 on human keratinocytes

CC chemokine receptors are expressed on hematopoietic cells, and these may impart selective homing of monocyte, leukocyte, and lymphocyte subsets to sites of inflammation. CC chemokine receptor 3 is the major receptor on eosinophils and is also expressed on other inflammatory cells suggesting its important role for allergic diseases such as atopic dermatitis and bronchial asthma. Eotaxin, eotaxin-2 and eotaxin-3 have been identified as ligands that only activate CC chemokine receptor 3. CC chemokine receptor 3 is also activated by other promiscuous ligands, however, such as RANTES and monocyte chemotactic protein 4. To date, CC chemokine receptor 3 has not been reported to be expressed on nonhematopoietic cells. In this study, we investigated whether keratinocytes possess autocrine and paracrine mechanisms for CC chemokine secretion and receptor expression as reported for the expression of interleukin 8 and its receptors. Reverse transcriptase polymerase chain reaction analysis demonstrated that CC chemokine receptor 3 mRNA is expressed constitutively in cultured keratinocytes. The signal quantities of the CC chemokine receptor 3 amplicons showed lower intensities for keratinocytes than for eosinophils. In situ hybridization techniques exhibited that basal cell layers of the epidermis were stained homogeneously for CC chemokine receptor 3 mRNA with a decreasing signal to the upper epidermis showing that differentiating and proliferating keratinocytes did express mRNA specific for CC chemokine receptor 3. Immunohistochemical studies confirmed low expression of CC chemokine receptor 3 protein on epidermal keratinocytes compared to the high level observed on infiltrating eosinophils. Furthermore, stimulation of cultured keratinocytes with eotaxin resulted in an increased [3H]thymidine incorporation indicating a role of CC chemokine receptor 3 in epidermal proliferation and differentiation. These data demonstrate that CC chemokine receptor 3 is expressed not only on hematopoietic cells but also on keratinocytes as nonhematopoietic cells with ectodermal origin. Therefore, the identification of CC chemokine receptor 3 on epidermal keratinocytes may indicate a role for CC chemokine receptor 3 and its ligands in skin physiology and pathophysiology.

Eotaxin and the attraction of eosinophils to the asthmatic lung

Eosinophilic leukocytes accumulate in high numbers in the lungs of asthmatic patients, and are believed to be important in the pathogenesis of asthma. A potent eosinophil chemoattractant is produced in the asthmatic lung. This small protein, the chemokine eotaxin, is synthesized by a number of different cell types, and is stimulated by interleukin-4 and interleukin-13, which are produced by T-helper (Th)2 lymphocytes. Low molecular weight compounds have been developed that can block the eotaxin receptor C-C chemokine receptor (CCR)3, and prevent stimulation by eotaxin. This provides the potential for orally available drugs that can prevent eosinophil recruitment into the lung and the associated damage and dysfunction.

CC chemokines and the receptors CCR3 and CCR5 are differentially expressed in the nonneoplastic leukocytic infiltrates of Hodgkin disease

Lymph nodes with Hodgkin disease (HD) harbor few neoplastic cells in a marked leukocytic infiltrate. Since chemokines are likely to be involved in the recruitment of these leukocytes, the expression of potentially relevant chemokines and chemokine receptors were studied in lymph nodes from 24 patients with HD and in 5 control lymph nodes. The expression of regulated on activation, normal T cell expressed and secreted (RANTES), monocyte chemotactic protein (MCP)-1, macrophage inflammatory protein (MIP)-1alpha, and MIP-1beta was analyzed by in situ hybridization and that of CCR3 and CCR5 by immunohistochemistry and flow cytometry. It was found that, overall, the expression of all 4 chemokines was markedly enhanced, but the cellular source was different. RANTES was expressed almost exclusively by T cells whereas the expression of MCP-1, MIP-1alpha, and MIP-1beta was confined largely to macrophages. In control lymph nodes, chemokine expression was low, with the exception of MIP-1alpha in macrophages. CCR3 and CCR5 were highly expressed in T cells of HD involved but not of control lymph nodes. CCR3 was equally distributed in CD4+ and CD8+ cells, but CCR5 was associated largely with CD4+ cells. In HD lymph nodes, CCR3 and CCR5 were also expressed in B cells, which normally do not express these receptors. All these chemokines and receptors studied, by contrast, were absent in the neoplastic cells. It was concluded that chemokines are involved in the formation of the HD nonneoplastic leukocytic infiltrate. Expression of CCR3 and CCR5 appears to be characteristic of HD, but the roles of these receptors' up-regulation for the disease process remain unclear.

Identification of a potent and nonpeptidyl ccr3 antagonist

CCR3 is expressed in a variety of leukocyte subsets, especially eosinophils, and may be involved in allergic disorders such as atopic asthma. To clarify the pathophysiological roles of CCR3 in allergic disorders, we developed a nonpeptidyl CCR3 antagonist. This antagonist, which is referred to as "Compound X," that inhibited the binding of [(125)I]Eotaxin to CHO cells transfected with human CCR3 with an IC(50) value of 2.3 nM. In human eosinophils, Compound X also inhibited Eotaxin-induced increases in intracellular Ca(2+) concentrations and chemotaxis. Thus, Compound X appears to be a highly potent CCR3 antagonist. These findings suggest that Compound X may be a useful tool for elucidating the pathophysiological roles of CCR3 in a variety of allergic disorders.

Chemokine-induced cutaneous inflammatory cell infiltration in a model of Hu-PBMC-SCID mice grafted with human skin

Recently, certain chemokines and chemokine receptors have been preferentially associated with the selective recruitment in vitro of type 1 T cells, such as IP-10 and its receptor CXCR3, or type 2 T cells such as monocyte-derived chemokine (MDC) and eotaxin and their receptors CCR4 and CCR3. Very few models have provided confirmation of these findings in vivo. Taking advantage of the humanized SCID mouse model grafted with autologous human skin, the ability of the chemokines IP-10, MDC, eotaxin, and RANTES to stimulate cell recruitment was investigated. Intradermal IP-10 injection resulted in an influx of CD4+ T lymphocytes but also surprisingly in the recruitment of dendritic cells. MDC recruited mainly CD8+ T lymphocytes, and had little effect on eosinophils. As predicted, eotaxin was a potent inducer of eosinophil and basophil migration, also recruiting CD4+ T cells. RANTES, a ubiquitous chemokine associated with both type 1 and type 2 profiles, was able to recruit all cell types. CXCR3-positive cells were preferentially recruited by IP-10, whereas CCR3- and CCR4-positive cells were predominantly found after injection of eotaxin and MDC. Thus, in a human environment in vivo, some chemokines have the ability to recruit cells expressing chemokine receptors preferentially expressed on type 1 or type 2 cells. Further investigations revealed that MDC and eotaxin induced the recruitment of type 2, but not type 1, cytokine-producing cells. RANTES, on the other hand, induced the migration of both type 1 and type 2 cytokine-secreting cells, whereas IP-10 did not induce the recruitment of either subtype. These studies provide detailed information on the properties of MDC, eotaxin, IP-10, and RANTES as chemotactic molecules in skin in vivo. The use of the humanized SCID mouse model grafted with human skin is validated as a useful model for the evaluation of chemokine function in the inflammatory reaction, and suggests that therapeutic targeting of certain chemokines might be of interest in diseases associated preferentially with a type 1 or type 2 profile.

Analysis of eosinophils and myeloid progenitor responses to modified forms of MPIF-2

Myeloid progenitor inhibitory factor (MPIF)-2 is a beta-chemokine with select and potent activities on eosinophils and myeloid progenitors. In the beta-chemokine family, biological activity is modulated by differential processing of the amino-terminus. Here, for MPIF-2, we describe the biological activities of NH(2)-terminal deletion mutants and compare regions necessary for eosinophil and myeloid progenitor activities. Five MPIF-2 proteins with deletions at the amino-terminus were produced in Escherichia coli and assayed for calcium mobilization, chemotaxis and receptor binding activities on eosinophils, and for their ability to inhibit colony formation of human myeloid bone marrow progenitors. For eosinophils, deletion of the first two amino acids did not markedly alter activity, while subsequent truncations result in a complete loss of activity. One of the MPIF-2 mutants, MPIF-2 (P30-R99) was converted from an agonist to an antagonist of eotaxin, MPIF-2 and MCP-4 functional responses in eosinophil calcium flux and chemotaxis assays. Surprisingly, while displaying a complete loss of agonist activity toward eosinophils, MPIF-2 (P30-R99) retains ability to inhibit human bone marrow myeloid progenitor cell colony formation. In addition, processing at the amino terminus of MPIF-2 in vivo, may result in a chemokine with altered biological activities.

IL-12-dependent vascular cell adhesion molecule-1 expression contributes to airway eosinophilic inflammation in a mouse model of asthma-like reaction

Bronchial-alveolar eosinophilic inflammation is among the characteristic pathological changes in asthma, which has been shown to be correlated with type 2 cytokine and chemokine production. Exogenous IL-12 has been found to be inhibitory for pulmonary eosinophilia in reported studies. Using a murine asthma-like model induced by OVA, we found in the present study that IL-12 gene knockout (KO) mice showed substantially reduced airway recruitment of eosinophils compared with wild-type control mice following OVA sensitization/challenge, although the levels of circulating eosinophils were comparable in these two groups of mice. Cytokine analysis showed Ag-driven Th1 (IFN-gamma) and Th2 (IL-4, IL-5, IL-10, and IL-13) cytokine production by CD4 T cells from local draining lymph nodes and spleen. Similarly, local eotaxin production was comparable in wild-type and IL-12 KO mice. In contrast, immunohistochemical analysis showed that the expression of VCAM-1 on the lung endothelium of IL-12 KO mice was dramatically less than that in wild-type mice. Furthermore, administration of rIL-12 at the stage of sensitization and challenge with OVA restored airway eosinophilia and VCAM-1 expression in IL-12 KO mice. The results suggest that endogenous IL-12 contributes to the recruitment of eosinophils into airways observed in asthma, possibly via enhancement of the expression of VCAM-1 on local vascular endothelial cells.

beta(2)-adrenoceptor agonists inhibit release of eosinophil-activating cytokines from human airway smooth muscle cells

1. Airway smooth muscle (ASM) is a potential source of multiple pro-inflammatory cytokines during airway inflammation. beta-Adrenoceptor agonist hyporesponsiveness is a characteristic feature of asthma, and interleukin (IL)-1 beta and tumour necrosis factor (TNF)-alpha are implicated in its cause. Here, the capacity of beta-adrenoceptor agonists to prevent release of GM-CSF, RANTES, eotaxin and IL-8, elicited by IL-1 beta or TNF alpha, was examined in human ASM cells. 2. Isoprenaline (approximately EC(50) 150 nM), a non-selective beta-adrenoceptor agonist, and salbutamol ( approximately EC(50) 25 nM), a selective beta(2)-adrenoceptor agonist, attenuated release of GM-CSF, RANTES and eotaxin, but not IL-8 (EC(50) >1 microM). The maximum extent of attenuation was RANTES > or = eotaxin > GM-CSF >> IL-8, and was prevented by either propranolol (1 microM), a non-selective beta-adrenoceptor antagonist, or ICI 118511 (IC(50) 15 nM), a selective beta(2)-adrenoceptor antagonist. 3. The cyclic AMP-elevating agents, dibutyryl cyclic AMP ( approximately EC(50) 135 microM), forskolin ( approximately EC(50) 530 nM) and cholera toxin ( approximately EC(50) 575 pg ml(-1)) abolished IL-1 beta-induced release of GM-CSF, RANTES and eotaxin, but not IL-8. 4. IL-1 beta (1 ng ml(-1)) attenuated early increases (up to 1 h) in cyclic AMP formation induced by salbutamol (1 microM), but not by forskolin (10 microM). The cyclo-oxygenase inhibitor, indomethacin (1 microM) prevented later increases (3 - 12 h) in IL-1 beta-stimulated cyclic AMP content, but did not prevent the attenuation by salbutamol of IL-1 beta-induced cytokine release. 5. We conclude in human ASM cells that activation of beta(2)-adrenoceptors and generation of cyclic AMP is negatively-linked to the release, elicited by IL-1 beta or TNF alpha, of eosinophil-activating cytokines such as GM-CSF, RANTES and eotaxin, but not IL-8.

Eosinophil-induced liver injury: an experimental model using IL-5 transgenic mice

BACKGROUND/AIMS

In certain liver diseases, activated eosinophils are considered to be important effector cells in addition to T-cell-mediated cytotoxicity. No experimental model, however, has been developed for in vivo analysis of the cytotoxic mechanisms.

METHODS

Interleukin-5 (IL-5) transgenic mice (C3H/HeN-TgN(IL-5)Imeg), which exhibit marked eosinophilia without liver injury, were injected once with 25 microg of lipopolysaccharide (LPS) intraperitoneally. The mice were sacrificed weekly and eosinophilic injuries were assessed microscopically. To clarify the role of Kupffer cells and tumor necrosis factor-alpha (TNF-alpha) in the liver injury, gadolinium chloride (GdCl3) and anti-TNF-alpha neutralizing antibody were administrated before the LPS injection.

RESULTS

Two weeks after injection, transgenic mice exhibited marked infiltration of eosinophils and extensive lobular necrosis. Transmigration of eosinophils through vascular endothelium and degranulation of eosinophil cytotoxic granules in inflamed areas were observed. These eosinophilic injuries were transient, but liver-specific. Pre-administration of GdCl3 and anti-TNF-alpha markedly reduced the hepatic inflammation, suggesting that LPS-activated Kupffer cells play a key role in producing the cytotoxicity of eosinophils by releasing TNF-alpha.

CONCLUSIONS

We have established an experimental model of eosinophil-induced liver injury using IL-5 transgenic mice. Since this model is simple and highly reproducible, it will be useful for analysis of in vivo cytotoxic mechanisms of eosinophils.

Chemokines: immunology's high impact factors

Chemokines facilitate leukocyte migration and positioning as well as other processes such as angiogenesis and leukocyte degranulation. The burgeoning knowledge on chemokines and their receptors has influenced many aspects of immunology, in part because cell migration is intimately related to leukocyte function. This overview assesses the impact that chemokines have had on our understanding of immunology and infectious diseases. These include the role of chemokines in leukocyte-endothelial cell interactions; dendritic cell function; T cell differentiation and function; inflammatory diseases; mucosal and subcutaneous immunity; and subversion of immune responses by viruses, including HIV-1. This knowledge heralds new opportunities for the manipulation of immune responses and the development of new anti-inflammatory therapies. It has also provided a new perspective on the functioning of the immune system.

Regulation of TNF-alpha-induced eotaxin release from cultured human airway smooth muscle cells by beta2-agonists and corticosteroids

Eotaxin is a potent eosinophil chemoattractant that contributes to the eosinophilia seen in asthma and other allergic disorders. Recent studies have identified human airway smooth muscle (HASM) as a rich source of eotaxin, but the factors regulating its production are poorly understood. Here we describe for the first time that beta2-agonists can inhibit cytokine-induced eotaxin release. We found that TNF-alpha stimulated eotaxin release (assayed by ELISA) from HASM cells and that the release was partially inhibited by salbutamol and salmeterol. The effect of beta2-agonists was mimicked by forskolin and 8-bromo-cAMP and potentiated by the cAMP-dependent phosphodiesterase inhibitor rolipram, suggesting that it is cAMP dependent. We also found that the cAMP inhibition was likely at the transcription stage, although experiments with the PKA inhibitors H-89 and Rp-cAMP or the PKG inhibitor KT5823 suggested that none of these kinases was involved. Partial inhibition of eotaxin release was also seen with the corticosteroids dexamethasone and fluticasone. The combined use of beta2-agonists, rolipram, and steroids abolished TNF-alpha-induced eotaxin release. These results suggest that the combination of a beta2-agonist, PDE inhibitor, and a corticosteroid may have additive beneficial effects in the treatment of the eosinophilia associated with asthma and other allergic diseases.

Eotaxin is specifically cleaved by hookworm metalloproteases preventing its action in vitro and in vivo

Eotaxin is a potent eosinophil chemoattractant that acts selectively through CCR3, which is expressed on eosinophils, basophils, mast cells, and Th2-type T cells. This arm of the immune system is believed to have evolved to control helminthic parasites. We hypothesized that helminths may employ mechanisms to inhibit eosinophil recruitment, to prolong worm survival in the host. We observed that the excretory/secretory products of the hookworm Necator americanus inhibited eosinophil recruitment in vivo in response to eotaxin, but not leukotriene B(4), a phenomenon that could be prevented by the addition of protease inhibitors. Using Western blotting, N. americanus supernatant was shown to cause rapid proteolysis of eotaxin, but not IL-8 or eotaxin-2. N. americanus homogenate was fractionated by gel filtration chromatography, and a FACS-based bioassay measured the ability of each fraction to inhibit the activity of a variety of chemokines. This resulted in two peaks of eotaxin-degrading activity, corresponding to approximately 15 and 50 kDa molecular mass. This activity was specific for eotaxin, as responses to other agonists tested were unaffected. Proteolysis of eotaxin was prevented by EDTA and phenanthroline, indicating that metalloprotease activity was involved. Production of enzymes inactivating eotaxin may be a strategy employed by helminths to prevent recruitment and activation of eosinophils at the site of infection. As such this represents a novel mechanism of regulation of chemokine function in vivo. The existence of CCR3 ligands other than eotaxin (e.g., eotaxin-2) may reflect the evolution of host counter measures to parasite defense systems.

Glucocorticoids preferentially upregulate functional CXCR4 expression in eosinophils

BACKGROUND

Chemokines play an important role in accumulation of eosinophils at allergic inflammatory sites. Systemic administration of glucocorticoids (GCCs) attenuates tissue eosinophilia. In vivo chemokine actions are regulated at levels of both ligand production and receptor expression. The inhibitory effects of GCCs on the production of eosinophil-active chemokines, such as eotaxin, have been well established. However, no data exist regarding the effects of GCCs on expression of chemokine receptors in eosinophils per se.

OBJECTIVE

The objective of this study was to investigate the regulation of chemokine receptor expression in eosinophils by GCCs.

METHODS

Chemokine receptor expression was analyzed by using flow cytometry and reverse transcriptase PCR. Intracellular Ca(2+) influx and chemotaxis were also analyzed.

RESULTS

Eosinophil CCR3 expression was slightly downregulated by 24-hour treatment with dexamethasone (DEX). On the other hand, DEX-treated eosinophils showed markedly increased CXCR4 expression ( approximately 6 fold) in a time- and dose-dependent fashion. In contrast to eosinophils, CXCR4 expression in neutrophils was only marginally affected by DEX. In DEX-treated eosinophils, stromal cell-derived factor 1alpha, a natural ligand for CXCR4, induced a higher level of Ca(2+) influx and chemotaxis compared with untreated cells.

CONCLUSION

GCCs upregulate the expression of CXCR4 in eosinophils but not in neutrophils. Because stromal cell-derived factor 1alpha may play a role in baseline trafficking of eosinophils into extravascular tissues rather than recruiting them directly to inflammatory sites, upregulation of CXCR4 by GCCs may mediate the antiallergic property of these drugs by sequestering eosinophils from the circulation to extravascular tissues.

Pathogenic roles of eosinophils in guinea-pig contact sensitivity: regulation of dermal eosinophilia with remotely administered IL-5

Eosinophils have a variety of functions. Although increasing evidence links the presence of eosinophils to airway damage, studies have not examined in detail if, and how, eosinophils affect skin inflammation. The purpose of this study was to determine whether eosinophil infiltration augments the contact sensitivity reaction in vivo. Guinea-pigs were sensitized with 2, 4-dinitrochlorobenzene and challenged on the dorsal skin or on the right ear lobe. The number of eosinophils and macroscopic changes of the skin lesion in the presence or absence of human recombinant IL-5 (rIL-5) administered at the remote site was assessed. The reaction on the dorsal skin was acutely eczematous with considerable basophil infiltration. In contrast, eosinophils had extensively infiltrated the right ear lobe and major basic protein was deposited in the dermis. A subcutaneous injection of rIL-5 (10 pmol/kg) at the remote site (left ear lobe) 12 h after challenge induced transient blood eosinophilia and enhanced eosinophil accumulation in the challenged ear lobe. These changes were accompanied by increased ear swelling and severe erythema. In contrast, eosinophil infiltration was significantly inhibited by rIL-5 administered at the time of challenge. Ear thickness, as well as the erythema and oedema, were also reduced. These data suggest that marked eosinophil infiltration enhances skin inflammation in allergic contact dermatitis. Moreover, locally administered IL-5 functions remotely by controlling eosinophil recruitment into the skin. The guinea-pig model of contact sensitivity may be useful for evaluating therapies and pharmaceuticals targeted at eosinophil infiltration.

Murine eotaxin-2: a constitutive eosinophil chemokine induced by allergen challenge and IL-4 overexpression

The generation of tissue eosinophilia is governed in part by chemokines; initial investigation has identified three chemokines in the human genome with eosinophil selectivity, referred to as eotaxin-1, -2, and -3. Elucidation of the role of these chemokines is dependent in part upon analysis of murine homologues; however, only one murine homologue, eotaxin-1, has been identified. We now report the characterization of the murine eotaxin-2 cDNA, gene and protein. The eotaxin-2 cDNA contains an open reading frame that encodes for a 119-amino acid protein. The mature protein, which is predicted to contain 93 amino acids, is most homologous to human eotaxin-2 (59.1% identity), but is only 38.9% identical with murine eotaxin-1. Northern blot analysis reveals three predominant mRNA species and highest constitutive expression in the jejunum and spleen. Additionally, allergen challenge in the lung with Aspergillus fumigatus or OVA revealed marked induction of eotaxin-2 mRNA. Furthermore, eotaxin-2 mRNA was strongly induced by both transgenic over-expression of IL-4 in the lung and administration of intranasal IL-4. Analysis of eotaxin-2 mRNA expression in mice transgenic for IL-4 but genetically deficient in STAT-6 revealed that the IL-4-induced expression was STAT-6 dependent. Recombinant eotaxin-2 protein induced dose-dependent chemotactic responses on murine eosinophils at concentrations between 1-1000 ng/ml, whereas no activity was displayed on murine macrophages or neutrophils. Functional analysis of recombinant protein variants revealed a critical role for the amino terminus. Thus, murine eotaxin-2 is a constitutively expressed eosinophil chemokine likely to be involved in homeostatic, allergen-induced, and IL-4-associated immune responses.

Expression of eotaxin, interleukin 13 and tumour necrosis factor-alpha in dermatitis herpetiformis

BACKGROUND

The dermal and perivascular infiltrate in dermatitis herpetiformis (DH), which is mainly composed of CD4+ lymphocytes, neutrophils and eosinophils, is believed to play an important part in the pathogenesis of the disease. Previous studies suggest that cytokines such as interleukin (IL) -8, granulocyte-macrophage colony-stimulating factor, IL-4 and IL-5 could be involved in the pathogenesis of DH. These cytokines appear to drive tissue infiltration and maturation of eosinophils. Part of the effect of T-helper (Th) 2-type cytokines (IL-4, IL-5) on eosinophils could be mediated by eotaxin, which is a highly specific chemotactic protein induced by various cytokines [IL-4, IL-13, tumour necrosis factor (TNF) -alpha and interferon-gamma].

OBJECTIVES

To evaluate the expression of eotaxin and its inducers, IL-13 and TNF-alpha, in DH. METHODS We examined lesions collected from 10 DH patients with active disease. Sections from each specimen were incubated with anti-IL-13, anti-TNF-alpha and anti-eotaxin antibodies. Chloroacetyl esterase reaction was performed to show mast cell infiltration.

RESULTS

Eotaxin was mainly expressed at the tips of the dermal papillae, within the microabscesses. Positivity was also found in the lymphomonocytic infiltrate in the dermis. IL-13 was expressed in the dermal infiltrate and TNF-alpha was found in the inflammatory infiltrate and in dermal vascular cells.

CONCLUSIONS

These findings confirm the importance of the lymphomonocytic infiltrate and of Th2 cytokines in the pathogenesis of this disease, suggesting that tissue infiltration in DH is mediated by cell-specific chemokines such as eotaxin and not only by non-specific chemokines such as IL-8.

Eotaxin induces a sustained reduction in the functional adhesive state of very late antigen 4 for the connecting segment 1 region of fibronectin

BACKGROUND

Eosinophils that have bound to extracellular matrix proteins, such as the connecting segment 1 (CS-1) region of fibronectin, need to deadhere before undergoing chemotaxis through the extracellular matrix.

OBJECTIVE

We have investigated whether eotaxin can regulate the strength of eosinophil adhesion to the CS-1 region of fibronectin.

METHODS

We have used a micropipette single-cell adhesion assay to determine the force of eosinophil adhesion to the CS-1 region of fibronectin.

RESULTS

Eosinophils bound to CS-1 with high avidity, and this binding could be inhibited with neutralizing antibodies to alpha4 integrins expressed by eosinophils or with neutralizing antibodies to CS-1. Eosinophils incubated in the presence of eotaxin demonstrated a transient increase in the force of eosinophil adhesion to CS-1, which was followed by a more sustained reduction in the force of eosinophil adhesion to CS-1, as assessed in the micropipette single-cell adhesion assay. This decreased binding of eosinophils to CS-1 was not due to alterations in very late antigen 4 (VLA-4) receptor number, as assessed with FACS analysis, or alterations in VLA-4 receptor distribution, as assessed with immunofluorescence microscopy.

CONCLUSIONS

These studies suggest that eotaxin can cause a transient increase followed by a more sustained reduction in the functional force of VLA-4 adhesion to CS-1 and thus promote deadhesion of CS-1 adherent eosinophils in the extracellular matrix.

Comparison of the structure of vMIP-II with eotaxin-1, RANTES, and MCP-3 suggests a unique mechanism for CCR3 activation

Herpesvirus-8 macrophage inflammatory protein-II (vMIP-II) binds a uniquely wide spectrum of chemokine receptors. We report the X-ray structure of vMIP-II determined to 2.1 A resolution. Like RANTES, vMIP-II crystallizes as a dimer and displays the conventional chemokine tertiary fold. We have compared the surface topology and electrostatic potential of vMIP-II to those of eotaxin-1, RANTES, and MCP-3, three CCR3 physiological agonists with known three-dimensional structures. Surface epitopes identified on RANTES to be involved in binding to CCR3 are mimicked on the eotaxin-1 and MCP-3 surface. However, the surface topology of vMIP-II in these regions is markedly different. The results presented here indicate that the structural basis for interaction with the chemokine receptor CCR3 by vMIP-II is different from that for the physiological agonists eotaxin-1, RANTES, and MCP-3. These differences on vMIP-II may be a consequence of its broad-range receptor recognition capabilities.

Regulation of helper T cell differentiation and recruitment in airway inflammation

CD4(+) helper T type 1 (Th1) and Th2 cells are critical mediators of inflammatory diseases. Although T cells represent only a fraction of the leukocytes that are found in the lung during inflammation, they play a critical role in coordinating the immune response to infectious agents and allergens. T cells have the ability to rapidly expand in response to specific stimuli and to differentiate into effector cells that, through the production of soluble factors such as cytokines and chemokines, communicate with other cells to initiate a cascade of inflammatory events. The objective of this review is to outline the cellular and molecular mechanisms involved in the generation and recruitment of Th1 and Th2 cells in the lung. Defining these mechanisms should lead to improved immunopharmacological strategies for prophylaxis and therapy.

Analysis of the CC chemokine receptor 3 gene reveals a complex 5′ exon organization, a functional role for untranslated exon 1, and a broadly active promoter with eosinophil-selective elements

To understand the regulation of CC chemokine receptor 3 (CCR3) expression, its gene structure and promoter have been characterized. The CCR3 gene contains 4 exons that give rise to multiple messenger RNA (mRNA) species by alternative splicing. Exon 1 is present in all transcripts, whereas exon 2 or 3 is present at low frequency (< 10%). Exon 4 contains the open reading frame and 11 bp of the 5′ untranslated region. Northern analysis revealed 4 species of CCR3 mRNA. Direct sequencing revealed that the first 1 kb of the promoter and exon 1 contained only one mutation in 19 individuals, indicating that the CCR3 promoter and exon 1 are conserved between individuals. The first 1.6 kb of the 5′ flanking region of exon 1 contained promoter elements including a TATA box and motifs for myeloid transcription factors and had strong promoter activity in eosinophilic, lymphoid, myeloid, and respiratory epithelial cell lines. Deletion analysis revealed differential regulation of the CCR3 promoter in eosinophilic and epithelial cells suggesting the presence of lineage-specific elements. Interestingly, exon 1 enhanced the activity of the promoter and this effect was especially prominent in eosinophilic cells. Thus, the humanCCR3 gene has a complex 5′ exon structure, a conserved promoter with strong activity in multiple cell types, and a functional 5′ untranslated exon.

Elevated chemokine levels in bronchoalveolar lavage fluid of patients with eosinophilic pneumonia

BACKGROUND

Allergic lung inflammation is caused by accumulation and activation of different leukocyte subsets, such as eosinophils and T lymphocytes, in the lung. The chemokines are a large group of chemotactic cytokines that regulate leukocyte trafficking and may play an important role in allergic lung inflammation.

OBJECTIVE

The purpose of this study was to evaluate the role of various chemokines, including eotaxin, RANTES, monocyte chemotactic protein (MCP)-1, macrophage inflammatory protein (MIP)-1beta, and IL-8 in the pathogenesis of eosinophilic pneumonia (EP).

METHODS

The concentrations of eotaxin, RANTES, MCP-1, MIP-1beta, and IL-8 in bronchoalveolar lavage fluid (BALF) were measured by using ELISA in 15 patients with EP, 10 with idiopathic pulmonary fibrosis, 10 with sarcoidosis, and 11 healthy volunteers.

RESULTS

Eotaxin in BALF was high only in patients with EP, and its level correlated significantly with the number of eosinophils in BALF of patients with EP and healthy volunteers. MCP-1 and MIP-1beta in BALF were preferentially increased in patients with EP. There was a significant correlation between MCP-1 levels and the number of macrophages in BALF of patients with EP and healthy volunteers.

CONCLUSION

Our findings suggest that these CC chemokines contribute to the pathogenesis of EP through the specific recruitment of leukocyte subsets in the lung.

Attenuation of the allergen-induced late asthmatic reaction by cyclosporin A is associated with inhibition of bronchial eosinophils, interleukin-5, granulocyte macrophage colony-stimulating factor, and eotaxin

The allergen-induced late asthmatic reaction (LAR) is associated with increases in bronchial eosinophils and basophils as well as upregulation of several eosinophil active cytokines and C-C chemokines. Cyclosporin A (CsA) was previously shown to inhibit the LAR, but not the early asthmatic reaction (EAR), and this was associated with a decrease in blood eosinophils. For these reasons, we determined whether CsA inhibited the allergen-induced increases in bronchial eosinophils, basophils, eotaxin, interleukin-5 (IL-5), and granulocyte macrophage colony-stimulating factor (GM-CSF). Subjects with a demonstrable LAR underwent bronchoscopy with biopsy and bronchoalveolar lavage (BAL) at baseline and then were randomly allocated to receive either CsA (n = 13) or placebo (n = 11) before challenge. A second bronchoscopy was performed 24 h later. The LAR, but not the EAR, was significantly attenuated in the CsA group compared with placebo (p < 0.05). CsA significantly inhibited the allergen-induced increases in IL-5 (p = 0.02) and GM-CSF (p = 0. 0028) in mRNA+ cells in BAL, and in a mAB against human activated eosinophils (EG2+) (p = 0.0227). We conclude that inhibition of the LAR by CsA may be related to its inhibitory effects on eosinophil-associated cytokines and chemokines. The beneficial effect of CsA in asthma may also be the result of inhibition of eosinophil accumulation.

Upregulation of nasal mucosal eotaxin in patients with allergic rhinitis during grass pollen season: effect of a local glucocorticoid

BACKGROUND

Allergic rhinitis is a common disease characterized by infiltration of eosinophils into the nasal mucosa during the periods of symptoms. Among chemokines, which attract cells to the site of inflammation, eotaxin is relatively specific for eosinophils.

OBJECTIVE

We examined the influence of grass pollen season on nasal eotaxin expression in patients with seasonal allergic rhinitis, as well as the effect of a nasal glucocorticoid on this eotaxin expression.

METHODS

Nineteen patients with allergic rhinitis received treatment with either nasal beclomethasone (400 microgram/day) or placebo over a grass pollen season. In these patients, nasal biopsies were taken prior to and during the peak of the pollen season and stained immunohistochemically for eotaxin and EG2 + eosinophils. Five healthy subjects served as controls and gave nasal biopsies once prior to the pollen season.

RESULTS

Prior to pollen season, there was no significant difference in nasal eotaxin expression between patients with allergic rhinitis and healthy subjects. Grass pollen season induced significant increase in eotaxin expression in placebo-treated (P = 0.04; n = 9) but not in beclomethasone-treated rhinitis patients (P = 0.8; n = 10). During peak grass pollen season, the eotaxin expression in placebo-treated patients was significantly higher compared with healthy subjects outside season (P = 0.03). There was no significant correlation between the expression of eotaxin and the number of EG2 + eosinophils in nasal mucosa. The serum levels of eotaxin in rhinitis patients remained stable over the pollen season.

CONCLUSION

Expression of eotaxin in nasal mucosa of grass-pollen allergic rhinitis patients is upregulated during pollen season and treatment with a nasal glucocorticoid protects against this upregulation.

Analysis of the CC chemokine receptor 3 gene reveals a complex 5′ exon organization, a functional role for untranslated exon 1, and a broadly active promoter with eosinophil-selective elements

To understand the regulation of CC chemokine receptor 3 (CCR3) expression, its gene structure and promoter have been characterized. The CCR3 gene contains 4 exons that give rise to multiple messenger RNA (mRNA) species by alternative splicing. Exon 1 is present in all transcripts, whereas exon 2 or 3 is present at low frequency (&lt; 10%). Exon 4 contains the open reading frame and 11 bp of the 5′ untranslated region. Northern analysis revealed 4 species of CCR3 mRNA. Direct sequencing revealed that the first 1 kb of the promoter and exon 1 contained only one mutation in 19 individuals, indicating that the CCR3 promoter and exon 1 are conserved between individuals. The first 1.6 kb of the 5′ flanking region of exon 1 contained promoter elements including a TATA box and motifs for myeloid transcription factors and had strong promoter activity in eosinophilic, lymphoid, myeloid, and respiratory epithelial cell lines. Deletion analysis revealed differential regulation of the CCR3 promoter in eosinophilic and epithelial cells suggesting the presence of lineage-specific elements. Interestingly, exon 1 enhanced the activity of the promoter and this effect was especially prominent in eosinophilic cells. Thus, the humanCCR3 gene has a complex 5′ exon structure, a conserved promoter with strong activity in multiple cell types, and a functional 5′ untranslated exon.

A small molecule antagonist of chemokine receptors CCR1 and CCR3. Potent inhibition of eosinophil function and CCR3-mediated HIV-1 entry

We describe a small molecule chemokine receptor antagonist, UCB35625 (the trans-isomer J113863 published by Banyu Pharmaceutical Co., patent WO98/04554), which is a potent, selective inhibitor of CCR1 and CCR3. Nanomolar concentrations of UCB35625 were sufficient to inhibit eosinophil shape change responses to MIP-1alpha, MCP-4, and eotaxin, while greater concentrations could inhibit the chemokine-induced internalization of both CCR1 and CCR3. UCB35625 also inhibited the CCR3-mediated entry of the human immunodeficiency virus-1 primary isolate 89.6 into the glial cell line, NP-2 (IC(50) = 57 nm). Chemotaxis of transfected cells expressing either CCR1 or CCR3 was inhibited by nanomolar concentrations of the compound (IC(50) values of CCR1-MIP-1alpha = 9.6 nm, CCR3-eotaxin = 93.7 nm). However, competitive ligand binding assays on the same transfectants revealed that considerably larger concentrations of UCB35625 were needed for effective ligand displacement than were needed for the inhibition of receptor function. Thus, it appears that the compound may interact with a region present in both receptors that inhibits the conformational change necessary to initiate intracellular signaling. By virtue of its potency at the two major eosinophil chemokine receptors, UCB35625 is a prototypic therapy for the treatment of eosinophil-mediated inflammatory disorders, such as asthma and as an inhibitor of CCR3-mediated human immunodeficiency virus-1 entry.

Peyer's patch eosinophils: identification, characterization, and regulation by mucosal allergen exposure, interleukin-5, and eotaxin

The gastrointestinal immune system is traditionally thought to be composed of lymphocytes located within Peyer's patches and the lamina propria. We have recently reported that eosinophils also reside in the gastrointestinal tract during healthy states, in particular, within the lamina propria, and that these cells substantially increase after oral allergen exposure. We now demonstrate the presence of eosinophils in Peyer's patches and characterize the signals that regulate the accumulation of eosinophils in Peyer's patches. In contrast to the lamina propria, intestinal Peyer's patches have very low levels of eosinophils under healthy states. However, elevated levels of interleukin-5 (IL-5), generated by transgenic or pharmacologic approaches, result in a dramatic increase in eosinophil levels in Peyer's patches. Most eosinophils are located in the outer cortex and interfollicular regions of the Peyer's patches. To dissect the mechanism of eosinophil trafficking to Peyer's patches, the role of eotaxin was examined. Mice transgenic for IL-5 and genetically deficient in eotaxin were found to have reduced levels of eosinophils in Peyer's patches compared with IL-5-transgenic mice. To prove that eosinophils also traffic to Peyer's patches in wild-type mice, allergic hypersensitivity was induced and Peyer's patches were examined. Exposure to mucosal allergen promoted marked accumulation of eosinophils in Peyer's patches and this process was attenuated in eotaxin-deficient mice. In summary, these data demonstrate that elevated levels of IL-5 and mucosal allergen exposure promote eotaxin-dependent eosinophil trafficking to Peyer's patches. These studies suggest that eosinophils may cooperate with lymphocytes in the development of mucosal immune responses in the gastrointestinal tract.

Peyer's patch eosinophils: identification, characterization, and regulation by mucosal allergen exposure, interleukin-5, and eotaxin

The gastrointestinal immune system is traditionally thought to be composed of lymphocytes located within Peyer's patches and the lamina propria. We have recently reported that eosinophils also reside in the gastrointestinal tract during healthy states, in particular, within the lamina propria, and that these cells substantially increase after oral allergen exposure. We now demonstrate the presence of eosinophils in Peyer's patches and characterize the signals that regulate the accumulation of eosinophils in Peyer's patches. In contrast to the lamina propria, intestinal Peyer's patches have very low levels of eosinophils under healthy states. However, elevated levels of interleukin-5 (IL-5), generated by transgenic or pharmacologic approaches, result in a dramatic increase in eosinophil levels in Peyer's patches. Most eosinophils are located in the outer cortex and interfollicular regions of the Peyer's patches. To dissect the mechanism of eosinophil trafficking to Peyer's patches, the role of eotaxin was examined. Mice transgenic for IL-5 and genetically deficient in eotaxin were found to have reduced levels of eosinophils in Peyer's patches compared with IL-5-transgenic mice. To prove that eosinophils also traffic to Peyer's patches in wild-type mice, allergic hypersensitivity was induced and Peyer's patches were examined. Exposure to mucosal allergen promoted marked accumulation of eosinophils in Peyer's patches and this process was attenuated in eotaxin-deficient mice. In summary, these data demonstrate that elevated levels of IL-5 and mucosal allergen exposure promote eotaxin-dependent eosinophil trafficking to Peyer's patches. These studies suggest that eosinophils may cooperate with lymphocytes in the development of mucosal immune responses in the gastrointestinal tract.

Evaluation of chemokine- and phlogistin-mediated leukocyte chemotaxis using an in vivo sponge model

We have directly compared the in vivo activity of a number of chemokines and phlogistins using a modified murine in vivo sponge model in which gelatin sponges are soaked with chemoattractant and implanted in the peritoneal cavity. Sponges soaked with murine JE/MCP-1 (monocyte chemoattractant protein-1) or zymosan promoted the chemotaxis of specific leukocyte populations in a time-dependent manner, as judged by multiparameter flow cytometry, with granulocytes predominating in zymosan-soaked sponges and granulocytes and macrophages present in JE/MCP-1-soaked sponges. Smaller numbers of B, T and dendritic cells were identified as well. Eotaxin selectively chemoattracted eosinophils in this model, while MIG induced significant T cell migration relative to other chemokines. Cell migration was inhibited by administration of methotrexate, piroxicam or dexamethasone, and JE/MCP-1-mediated trafficking was impaired by treatment with anti-JE antibody or with IL-10, suggesting a role for pro-inflammatory factors in amplifying the JE/MCP-1-induced response. This amplification phase involves the production of the chemokine KC, since anti-KC antibody significantly attenuated JE/MCP-1-induced chemotaxis. These results indicate that intraperitoneally implanted chemoattractant-soaked gelatin sponges are capable of inducing a pronounced inflammatory response characterized by the selective migration of leukocyte populations, and suggest that this model may be useful for delineating the activity of novel inhibitors of leukocyte chemotaxis.

The role of chemokine receptors in primary, effector, and memory immune responses

The immune system is composed of single cells, and its function is entirely dependent on the capacity of these cells to traffic, localize within tissues, and interact with each other in a precisely coordinated fashion. There is growing evidence that the large families of chemokines and chemokine receptors provide a flexible code for regulating cell traffic and positioning in both homeostatic and inflammatory conditions. The regulation of chemokine receptor expression during development and following cell activation explains the complex migratory pathways taken by dendritic cells, T and B lymphocytes, providing new insights into the mechanisms that control priming, effector function, and memory responses.

Elevated levels of eotaxin and interleukin-5 in blister fluid of bullous pemphigoid: correlation with tissue eosinophilia

BACKGROUND

Bullous pemphigoid (BP) often provokes blood and tissue eosinophilia, which suggests that some chemoattractants modulate the eosinophil infiltration in BP. Eotaxin, a CC chemokine, strongly attracts eosinophils, and interleukin (IL)-5 induces eosinophil differentiation, proliferation and colony formation in vitro.

OBJECTIVES

To examine the correlation between levels of eotaxin and IL-5 and the number of lesional eosinophils, and the expression of eotaxin in BP lesions.

PATIENTS/METHODS

In this study we measured eotaxin and IL-5 levels in blister fluid of BP by enzyme-linked immunosorbent assay. We also examined the expression of eotaxin in BP lesions by immunohistochemistry.

RESULTS

Both eotaxin and IL-5 were detected at high levels in BP blister fluid. Blister fluid eotaxin, but not IL-5 levels, correlated significantly with the number of dermal infiltrating eosinophils. By immunohistochemistry, eotaxin was strongly expressed in epidermal keratinocytes around BP blisters.

CONCLUSIONS

These findings suggest that eotaxin and IL-5 are strongly associated with the tissue eosinophilia of BP. Therapies which aim to inhibit production of eotaxin and IL-5 may improve the inflammation and blister formation in BP.

Bradykinin stimulates eotaxin production by a human lung fibroblast cell line

BACKGROUND

Bradykinin, a potent inflammatory peptide, is increased in the airways of allergic patients. Accompanying the elevated bradykinin levels are increases in both eosinophils and fibroblasts. Eotaxin, a potent eosinophil-specific chemotactic factor, is released by fibroblasts and increased in the lower respiratory tract of allergic patients.

OBJECTIVE

We sought to test the hypothesis that lung fibro-blasts release eotaxin in response to bradykinin.

METHODS

The potential of bradykinin to induce the release of eotaxin from the human lung fibroblast cell line HFL-1 was tested by cell culture and evaluation of the culture supernatant fluids and RNA for immunoreactive eotaxin and eotaxin messenger RNA.

RESULTS

HFL-1 cells released eotaxin constitutively without stimulation, but bradykinin stimulated eotaxin release in a dose- and time-dependent manner and resulted in augmented expression of eotaxin messenger RNA. The release of eotaxin was sensitive to the action of glucocorticoids. Eosinophil chemotactic activity by HFL-1 supernatant fluids was inhibited by anti-human eotaxin-neutralizing antibody. Consistent with these results, inhibitors of bradykinin B2 receptors, but not bradykinin B1 receptors, inhibited bradykinin-induced eotaxin release.

CONCLUSION

These data demonstrate that bradykinin may stimulate lung fibroblasts to release eotaxin and suggest the potential for this mechanism to be important in modulation of lung inflammation.

Effect of eotaxin and platelet-activating factor on airway inflammation and hyperresponsiveness in guinea pigs in vivo

Although eotaxin causes selective infiltration of eosinophils into the lung, its role in airway hyperresponsiveness remains unclear. We studied the effects of local administration of eotaxin on airway inflammation and hyperresponsiveness in guinea pigs in vivo. Airway responsiveness to inhaled histamine and differential cell counts in bronchoalveolar lavage fluid (BALF) were evaluated 12 h, 24 h, 3 d, and 7 d after intratracheal instillation of eotaxin. Significant eosinophilia in BALF was observed between 6 h and 7 d after eotaxin administration. Histologically, eosinophil accumulation was observed in the airways but not in the alveoli. In contrast, eotaxin did not affect airway responsiveness between 12 h and 7 d after its administration. We then studied the effects on airway responsiveness of subthreshold doses of interleukin 5, leukotriene D(4) (LTD(4)), and platelet-activating factor (PAF) combined with eotaxin. Neither interleukin 5 nor LTD(4) affected airway responsiveness. After eotaxin treatment, PAF significantly enhanced airway responsiveness without further increases in eosinophil counts. Eotaxin plus PAF significantly increased in eosinophil peroxidase activity in BALF compared with control and with eotaxin alone. These data indicate that eotaxin alone causes eosinophil accumulation in the airways but not hyperresponsiveness, and that additional factors such as PAF are needed to activate eosinophils for the development of airway hyperresponsiveness.

Expression of CXCR4 in eosinophils: functional analyses and cytokine-mediated regulation

We examined the expression of transcripts of a panel of chemokine receptors in human eosinophils and found intense constitutive expression of CXCR4 mRNA. Although surface CXCR4 protein was hardly detectable in the peripheral blood or freshly isolated eosinophils, surface expression of CXCR4 became gradually apparent during incubation at 37 degrees C. In contrast, the level of CCR3 expression was virtually unchanged during the incubation. Stromal cell-derived factor-1alpha (SDF-1alpha), the natural ligand of CXCR4, elicited an apparent Ca2+ influx in these cells and induced a strong migratory response comparable to that by eotaxin. The surface expression of CXCR4 in eosinophils was up-regulated by IFN-gamma, TNF-alpha, and TGF-beta while it was down-regulated by IL-4 and eosinophil-directed hemopoietins such as IL-5. The CXCR4 expression did not always parallel the apoptotic changes in cytokine-treated eosinophils. In contrast to IL-4 and IFN-gamma, IL-5 potently reduced the level of CXCR4 mRNA. It seems unlikely that CXCR4 is fundamentally involved in the pathogenesis of allergic disorders by inducing the migration of eosinophils toward inflammatory sites, because a Th2-dominant state down-regulates eosinophil CXCR4 expression. However, CXCR4 may affect the size of the mobilizable pool by holding eosinophils at noninflamed tissues. Th2-dominant state may favor the liberation of eosinophils by down-regulating CXCR4 expression. The interplay between CXCR4 and SDF-1alpha in eosinophils potentially plays an important role in the accumulation of these cells at the allergic inflammatory sites.

Chemokine receptors and their role in inflammation and infectious diseases

Chemokines are small peptides that are potent activators and chemoattractants for leukocyte subpopulations and some nonhemopoietic cells. Their actions are mediated by a family of 7-transmembrane G-protein–coupled receptors, the size of which has grown considerably in recent years and now includes 18 members. Chemokine receptor expression on different cell types and their binding and response to specific chemokines are highly variable. Significant advances have been made in understanding the regulation of chemokine receptor expression and the intracellular signaling mechanisms used in bringing about cell activation. Chemokine receptors have also recently been implicated in several disease states including allergy, psoriasis, atherosclerosis, and malaria. However, most fascinating has been the observation that some of these receptors are used by human immunodeficiency virus type 1 in gaining entry into permissive cells. This review will discuss structural and functional aspects of chemokine receptor biology and will consider the roles these receptors play in inflammation and in infectious diseases.

Chemokine receptors and their role in inflammation and infectious diseases

Chemokines are small peptides that are potent activators and chemoattractants for leukocyte subpopulations and some nonhemopoietic cells. Their actions are mediated by a family of 7-transmembrane G-protein–coupled receptors, the size of which has grown considerably in recent years and now includes 18 members. Chemokine receptor expression on different cell types and their binding and response to specific chemokines are highly variable. Significant advances have been made in understanding the regulation of chemokine receptor expression and the intracellular signaling mechanisms used in bringing about cell activation. Chemokine receptors have also recently been implicated in several disease states including allergy, psoriasis, atherosclerosis, and malaria. However, most fascinating has been the observation that some of these receptors are used by human immunodeficiency virus type 1 in gaining entry into permissive cells. This review will discuss structural and functional aspects of chemokine receptor biology and will consider the roles these receptors play in inflammation and in infectious diseases.