Sun-Sang J. Sung

A Major Lung CD103 (αE)-β7 Integrin-Positive Epithelial Dendritic Cell Population Expressing Langerin and Tight Junction Proteins

Dendritic cells (DC) mediate airway Ag presentation and play key roles in asthma and infections. Although DC subsets are known to perform different functions, their occurrence in mouse lungs has not been clearly defined. In this study, three major lung DC populations have been found. Two of them are the myeloid and plasmacytoid DC (PDC) well-characterized in other lymphoid organs. The third and largest DC population is the integrin αE (CD103) β7-positive and I-AhighCD11chigh-DC population. This population was found to reside in the lung mucosa and the vascular wall, express a wide variety of adhesion and costimulation molecules, endocytose avidly, present Ag efficiently, and produce IL-12. Integrin αEβ7+ DC (αE-DC) were distinct from intraepithelial lymphocytes and distinguishable from CD11bhigh myeloid and mPDCA-1+B220+Gr-1+ PDC populations in surface marker phenotype, cellular functions, and tissue localization. Importantly, this epithelial DC population expressed high levels of the Langerhans cell marker Langerin and the tight junction proteins Claudin-1, Claudin-7, and ZO-2. In mice with induced airway hyperresponsiveness and eosinophilia, αE-DC numbers were increased in lungs, and their costimulation and adhesion molecules were up-regulated. These studies show that αE-DC is a major and distinct lung DC population and a prime candidate APC with the requisite surface proteins for migrating across the airway epithelia for Ag and pathogen capture, transport, and presentation. They exhibit an activated phenotype in allergen-induced lung inflammation and may play significant roles in asthma pathogenesis.

NKT Cell Activation Mediates Neutrophil IFN-γ Production and Renal Ischemia-Reperfusion Injury

Previous work has shown that ischemia-reperfusion (IR) injury (IRI) is dependent on CD4+ T cells from naive mice acting within 24 h. We hypothesize that NKT cells are key participants in the early innate response in IRI. Kidneys from C57BL/6 mice were subjected to IRI (0.5, 1, 3, and 24 h of reperfusion). After 30 min of reperfusion, we observed a significant increase in CD4+ cells (145% of control) from single-cell kidney suspensions as measured by flow cytometry. A significant fraction of CD4+ T cells expressed the activation marker, CD69+, and adhesion molecule, LFA-1high. Three hours after reperfusion, kidney IFN-γ-producing cells were comprised largely of GR-1+CD11b+ neutrophils, but also contained CD1d-restricted NKT cells. Kidney IRI in mice administered Abs to block CD1d, or deplete NKT cells or in mice deficient of NKT cells (Jα18−/−), was markedly attenuated. These effects were associated with a significant decrease in renal infiltration and, in activation of NKT cells, and a decrease in IFN-γ-producing neutrophils. The results support the essential role of NKT cells and neutrophils in the innate immune response of renal IRI by mediating neutrophil infiltration and production of IFN-γ.

The chemokine receptors CCR2 and CX3CR1 mediate monocyte/macrophage trafficking in kidney ischemia–reperfusion injury

Chemokines and their receptors such as CCR2 and CX3CR1 mediate leukocyte adhesion and migration into injured tissue. To further define mechanisms of monocyte trafficking during kidney injury we identified two groups of F4/80-positive cells (F4/80(low) and F4/80(high)) in the normal mouse kidney that phenotypically correspond to macrophages and dendritic cells, respectively. Following ischemia and 3 h of reperfusion, there was a large influx of F4/80(low) inflamed monocytes, but not dendritic cells, into the kidney. These monocytes produced TNF-alpha, IL-6, IL-1alpha and IL-12. Ischemic injury induced in CCR2(-/-) mice or in CCR2(+/+) mice, made chimeric with CCR2(-/-) bone marrow, resulted in lower plasma creatinine levels and their kidneys had fewer infiltrated F4/80(low) macrophages compared to control mice. CX3CR1 expression contributed to monocyte recruitment into inflamed kidneys, as ischemic injury in CX3CR1(-/-) mice was reduced, with fewer F4/80(low) macrophages than controls. Monocytes transferred from CCR2(+/+) or CX3CR1(+/-) mice migrated into reperfused kidneys better than monocytes from either CCR2(-/-) or CX3CR1(-/-) mice. Adoptive transfer of monocytes from CCR2(+/+) mice, but not CCR2(-/-) mice, reversed the protective effect in CCR2(-/-) mice following ischemia-reperfusion. Egress of CD11b(+)Ly6C(high) monocytes from blood into inflamed kidneys was CCR2- and CX3CR1-dependent. Our study shows that inflamed monocyte migration, through CCR2- and CX3CR1-dependent mechanisms, plays a critical role in kidney injury following ischemia reperfusion.

Diverse and Potent Chemokine Production by Lung CD11bhigh Dendritic Cells in Homeostasis and in Allergic Lung Inflammation

Lung CD11chigh dendritic cells (DC) are comprised of two major phenotypically distinct populations, the CD11bhigh DC and the integrin αEβ7+ DC (CD103+ DC). To examine whether they are functionally distinguishable, global microarray studies and real-time PCR analysis were performed. Significant differences between the two major CD11chigh DC types in chemokine mRNA expression were found. CD11bhigh DC is a major secretory cell type and highly expressed at least 16 chemokine mRNA in the homeostatic state, whereas CD103+ DC highly expressed only 6. Intracellular chemokine staining of CD11chigh lung cells including macrophages, and ELISA determination of sort-purified CD11chigh cell culture supernatants, further showed that CD11bhigh DC produced the highest levels of 9 of 14 and 5 of 7 chemokines studied, respectively. Upon LPS stimulation in vitro and in vivo, CD11bhigh DC remained the highest producer of 7 of 10 of the most highly produced chemokines. Induction of airway hyperreactivity and lung inflammation increased lung CD11bhigh DC numbers markedly, and they produced comparable or higher amounts of 11 of 12 major chemokines when compared with macrophages. Although not a major producer, CD103+ DC produced the highest amounts of the Th2-stimulating chemokines CCL17/thymus and activation-related chemokine and CCL22/monocyte-derived chemokine in both homeostasis and inflammation. Significantly, CCL22/monocyte-derived chemokine exhibited regulatory effects on CD4+ T cell proliferation. Further functional analysis showed that both DC types induced comparable Th subset development. These studies showed that lung CD11bhigh DC is one of the most important leukocyte types in chemokine production and it is readily distinguishable from CD103+ DC in this secretory function.

A role for IL-10-mediated HLA-DR7-restricted T cell-dependent events in development of the modified Th2 response to cat allergen.

Although high dose exposure to inhaled cat allergen (Fel d 1) can cause a form of tolerance (modified Th2 response), the T cell mechanism for this phenomenon has not been studied. T cell responses to Fel d 1 were characterized in both allergic (IgEpos) and modified Th2 (IgEnegIgGpos) responders as well as serum Ab-negative controls (IgEnegIgGneg). Fel d 1 stimulated high levels of IL-10 in PBMC cultures from all individuals, with evidence of Th2 and Th1 cytokine skewing in allergic and control subjects, respectively. Using overlapping peptides, epitopes at the N terminus of Fel d 1 chain 2 were shown to stimulate strong T cell proliferation and to preferentially induce IL-10 (peptide 2:1 (P2:1)) or IFN-γ (P2:2) regardless of the allergic status of the donor. Injection of cat extract during conventional immunotherapy stimulated expansion of IL-10- and IFN-γ-producing chain 2 epitope-specific T cells along with increased Fel d 1-specific serum IgG and IgG4 Ab. Six of 12 modified responders expressed the major HLA-DRB1 allele, *0701, and both P2:1 and P2:2 were predicted ligands for this allele. Cultures from DR7-positive modified responders produced the highest levels of IL-10 to P2:1 in addition to other major and minor epitopes within chains 1 and 2. In the presence of anti-IL-10 mAb, both T cell proliferation and IFN-γ production were enhanced in a Fel d 1- and epitope-specific manner. We conclude that IL-10-producing T cells specific for chain 2 epitopes are relevant to tolerance induction, and that DR7-restricted recognition of these epitopes favors a modified Th2 response.

Intratracheal Priming with Ovalbumin- and Ovalbumin 323–339 Peptide-Pulsed Dendritic Cells Induces Airway Hyperresponsiveness, Lung Eosinophilia, Goblet Cell Hyperplasia, and Inflammation

Dendritic cells (DC) are the primary APC responsible for the capture of allergens in the airways and the shuttling of processed allergens to the draining lymph nodes where Ag presentation and T cell activation take place. The mechanism of this Ag handling and presentation in asthma is poorly understood. In addition, the feasibility of asthma induction by DC priming has not been directly tested. In this report an asthma model using intratracheally (i.t.) injected splenic DC was used to address these issues. DC pulsed with a model Ag OVA or the major MHC class II-restricted OVA T epitope peptide OVA323–339 and instilled i.t. primed mice to exhibit asthma-like diseases. With OVA as the Ag, mice exhibit airway hyperresponsiveness (AHR), lung eosinophilia and inflammation, and pulmonary goblet cell hyperplasia. In OVA323–339-immunized mice, AHR and goblet cell hyperplasia were noted, with little eosinophilia and parenchymal inflammation. The latter finding provides evidence for dissociating AHR from eosinophilia. In both cases mediastinal node hypertrophy occurred, and high levels of Th2 cytokines were produced by the lung and mediastinal lymph node cells (LNC). Interestingly, mediastinal LNC also produced high levels of Th1 cytokines. Lung cells produced much less Th1 cytokines than these LNC. These results demonstrate that DC when introduced i.t. are potent in inducing asthma-like diseases by recruiting lymphocytes to the lung-draining lymph nodes and by stimulating Th2 responses and also suggest that the lung environment strongly biases T cell responses to Th2.

Distinct Human T Cell Repertoires Mediate Immediate and Delayed-Type Hypersensitivity to the Trichophyton Antigen, Tri r 2

The 29-kDa subtilase homologue, Tri r 2, derived from the dermatophyte fungus Trichophyton rubrum, exhibits unique immunologic characteristics in its ability to elicit immediate (IH) and delayed-type (DTH) hypersensitivity skin tests in different individuals. Thus, Tri r 2 provides a model for comparing the T cell repertoire in subjects with distinct immune responses to a single Ag. Recombinant Tri r 2 produced as a GST fusion protein in Escherichia coli stimulated strong in vitro lymphoproliferative responses in 10 IH and 10 DTH responders. Patterns of T cell epitope recognition were compared between skin test groups using 28 overlapping peptides (each in 12 replicate wells) derived from Tri r 2 to stimulate T lymphocyte proliferation in vitro. Peptide 5 (P5; aa 41–60) induced the strongest response in DTH subjects and showed the largest difference between DTH and IH responders in proliferation (mean standardized index, 2.22 and 0.82, respectively; p = 0.0047) and number of positive wells (81 vs 12). Responses to P5 were associated with diverse HLA haplotypes. These results showed that P5 contains an immunodominant epitope specifically associated with DTH and that this peptide is recognized in a permissive manner. Cross-validated linear discriminant analysis using T cell proliferative responses to two regions of Tri r 2 (aa 51–90 and 231–270) gave a 95% predictive accuracy for classification of subjects into IH or DTH groups. We conclude that different immune responses to Trichophyton are mediated by distinct T cell repertoires between individuals with IH and DTH reactions to Tri r 2.

Recombinant allergens for immunotherapy: a Der p 2 variant with reduced IgE reactivity retains T-cell epitopes.

N.Y.) diluted 1:5000 in PBS-T, goat anti-rabbit IgG, alkaline phosphatase conjugate (Sigma Chemicals, St. Louis, Mo.) diluted 1:10,000 in PBS-T, and enzyme substrate p-nitrophenyl phosphate (Sigma 104 phosphate) 1 mg/ml in 10% diethanolamine buffer (pH 9.8). The optical density of each well was read at 405 nm after 30 minutes at 37° C in a Biotek Model EL-312 automatic ELISA reader (Biotek, Inc., Winooski, Vt.).

Sequential Activation of CD8+ T Cells in the Draining Lymph Nodes in Response to Pulmonary Virus Infection

We have used a TCR-transgenic CD8+ T cell adoptive transfer model to examine the tempo of T cell activation and proliferation in the draining lymph nodes (DLN) in response to respiratory virus infection. The T cell response in the DLN differed for mice infected with different type A influenza strains with the onset of T cell activation/proliferation to the A/JAPAN virus infection preceding the A/PR8 response by 12–24 h. This difference in T cell activation/proliferation correlated with the tempo of accelerated respiratory DC (RDC) migration from the infected lungs to the DLN in response to influenza virus infection, with the migrant RDC responding to the A/JAPAN infection exhibiting a more rapid accumulation in the lymph nodes (i.e., peak migration for A/JAPAN at 18 h, A/PR8 at 24–36 h). Furthermore, in vivo administration of blocking anti-CD62L Ab at various time points before/after infection revealed that the virus-specific CD8+ T cells entered the DLN and activated in a sequential “conveyor belt”-like fashion. These results indicate that the tempo of CD8+ T cell activation/proliferation after viral infection is dependent on the tempo of RDC migration to the DLN and that T cell activation occurs in an ordered sequential fashion.

IgE, IgG1, and IgG4 antibody responses to Blomia tropicalis in atopic patients.

Background:  Allergens from house dust mites (HDMs), Dermatophagoides pteronyssinus and Blomia tropicalis are clinically relevant in atopic respiratory diseases in tropical countries.