Dynamics of Cytokine/Chemokine Responses in Intestinal CD4+ and CD8+ T Cells during Acute Simian Immunodeficiency Virus Infection

Loss of intestinal CD4⁺ T cells was associated with decreased production of several T-helper 1 (T_H1) and T_H2 cytokines and increased production of interleukin 17 (IL-17), gamma interferon (IFN-γ), CCL4, and granulocyte-macrophage colony-stimulating factor (GM-CSF) by CD8⁺ T cells 21 days after simian immunodeficiency virus (SIV) infection in rhesus macaques. Shifting of mucosal T_H1 to T_H2 or T-cytotoxic 1 (T_C1) to T_C2 cytokine profiles was not evident. Additionally, both CD4⁺ and CD8⁺ T cells showed upregulation of macrophage migration inhibition factor (MIF) and basic fibroblast growth factor (FGF-basic) cytokines that have been linked to HIV disease progression.     

Antibodies to IL-3 and IL-4 suppress helminth-induced intestinal mastocytosis

Rodents infected with the nematode parasite Nippostrongylus brasiliensis (Nb) develop intestinal mastocytosis, eosinophilia, and elevated serum IgE levels. Although IL-4 and IL-5 are necessary for stimulation of IgE synthesis and eosinophilia, respectively, the cytokines that regulate gut mast cell hyperplasia have not been identified. To address this question, 6- to 8-wk-old BALB/c mice were injected on day 0 and day 7 of Nb infection with a rat anti-mouse IL-4 mAb, and with polyclonal sheep (day 0) and rabbit (day 7) anti-mouse IL-3 IgG antibodies. Additional Nb-infected mice received equal doses of isotype- and species-matched control antibodies. Mice were sacrificed on days 12 or 13 post-infection, and mucosal mast cells (MMC) in sections of the small intestine were enumerated. Nb infection induced a 25- to 40-fold increase in MMC over that observed in uninfected controls. Anti-IL-3 or anti-IL-4 alone suppressed the Nb-induced MMC response by 40 to 50%, whereas both antibodies combined suppressed the MMC response by 85 to 90%. Anti-IL-3 alone had no effect on the serum IgE levels, which were essentially abrogated in the Nb-infected mice treated with anti-IL-4. Blood eosinophilia was not affected by treatment with anti-IL-3 and/or anti-IL-4. These studies demonstrate that IL-3 and IL-4 are physiologically important stimuli of mastocytosis in vivo, and suggest therapeutic interventions that may counteract adverse host responses to allergens as well as to parasites.     

Absence of the Common Gamma Chain (γc), a Critical Component of the Type I IL-4 Receptor,Increases the Severity of Allergic Lung Inflammation

The T_H2 cytokines, IL-4 and IL-13, play critical roles in inducing allergic lung inflammation and drive the alternative activation of macrophages (AAM). Although both cytokines share receptor subunits, IL-4 and IL-13 have differential roles in asthma pathogenesis: IL-4 regulates T_H2 cell differentiation, while IL-13 regulates airway hyperreactivity and mucus production. Aside from controlling T_H2 differentiation, the unique contribution of IL-4 signaling via the Type I receptor in airway inflammation remains unclear. Therefore, we analyzed responses in mice deficient in gamma c (γ_c) to elucidate the role of the Type I IL-4 receptor. OVA primed CD4⁺ OT-II T cells were adoptively transferred into RAG2^−/− and γ_c ^−/− mice and allergic lung disease was induced. Both γ_c ^−/− and γ_cxRAG2^−/− mice developed increased pulmonary inflammation and eosinophilia upon OVA challenge, compared to RAG2^−/− mice. Characteristic AAM proteins FIZZ1 and YM1 were expressed in lung epithelial cells in both mouse strains, but greater numbers of FIZZ1+ or YM1+ airways were present in γ_c ^−/− mice. Absence of γ_c in macrophages, however, resulted in reduced YM1 expression. We observed higher T_H2 cytokine levels in the BAL and an altered DC phenotype in the γ_c ^−/− recipient mice suggesting the potential for dysregulated T cell and dendritic cell (DC) activation in the γ_c-deficient environment. These results demonstrate that in absence of the Type I IL-4R, the Type II R can mediate allergic responses in the presence of T_H2 effectors. However, the Type I R regulates AAM protein expression in macrophages.     

Decreased Langerhans Cell Responses to IL-36γ: Altered Innate Immunity in Patients with Recurrent Respiratory Papillomatosis

Recurrent respiratory papillomatosis (RRP) is a rare, chronic disease caused by human papillomaviruses (HPVs) types 6 and 11 that is characterized by the polarization of adaptive immune responses that support persistent HPV infection. Respiratory papillomas express elevated mRNA levels of IL-36γ, a proinflammatory cytokine in comparison to autologous clinically normal laryngeal tissues; however there is no evidence of inflammation in these lesions. Consistent with this, respiratory papillomas do not contain T_H1-like CD4⁺ T-cells or cytotoxic CD8⁺ T-cells, but instead contain a predominance of T_H2-like and T regulatory cells (Tregs). In addition, papillomas also are infiltrated with immature Langerhans cells (iLCs). In this study, we show that papilloma cells express IL-36γ protein, and that human keratinocytes transduced with HPV11 have reduced IL-36γ secretion. We now provide the first evidence that peripheral blood-derived iLCs respond to IL-36γ by expressing inflammatory cytokines and chemokines. When stimulated with IL-36γ, iLCs from patients with RRP had lower expression levels of the T_H2-like chemokine CCL-20 as compared with controls. Patients’ iLCs also had decreased steady state levels of CCL-1, which is a proinflammatory chemokine. Moreover, CCL-1 levels in iLCs inversely correlated with the severity of RRP. The combined decrease of T_H1- and a T_H2-like chemokines by iLCs from patients could have consequences in the priming of IFN-γ expression by CD8⁺ T-cells. Taken together, our results suggest that, in RRP, there is a defect in the proinflammatory innate immune responses made by iLCs in response to IL-36γ. The consequence of this defect may lead to persistent HPV infection by failing to support an effective HPV-specific, T_H1-like and/or T_c1-like adaptive response, thus resulting in the predominant T_H2-like and/or Treg micromilieu present in papillomas.     

Nippostrongylus-Induced Intestinal Hypercontractility Requires IL-4 Receptor Alpha-Responsiveness by T Cells in Mice

Gut-dwelling helminthes induce potent IL-4 and IL-13 dominated type 2 T helper cell (T_H2) immune responses, with IL-13 production being essential for Nippostrongylus brasiliensis expulsion. This T_H2 response results in intestinal inflammation associated with local infiltration by T cells and macrophages. The resulting increased IL-4/IL-13 intestinal milieu drives goblet cell hyperplasia, alternative macrophage activation and smooth muscle cell hypercontraction. In this study we investigated how IL-4-promoted T cells contributed to the parasite induced effects in the intestine. This was achieved using pan T cell-specific IL-4 receptor alpha-deficient mice (iLck^creIL-4Rα^−/lox) and IL-4Rα-responsive control mice. Global IL-4Rα^−/− mice showed, as expected, impaired type 2 immunity to N. brasiliensis. Infected T cell-specific IL-4Rα-deficient mice showed comparable worm expulsion, goblet cell hyperplasia and IgE responses to control mice. However, impaired IL-4-promoted T_H2 cells in T cell-specific IL-4Rα deficient mice led to strikingly reduced IL-4 production by mesenteric lymph node CD4⁺ T cells and reduced intestinal IL-4 and IL-13 levels, compared to control mice. This reduced IL-4/IL-13 response was associated with an impaired IL-4/IL-13-mediated smooth muscle cell hypercontractility, similar to that seen in global IL-4Rα^−/− mice. These results demonstrate that IL-4-promoted T cell responses are not required for the resolution of a primary N. brasiliensis infection. However, they do contribute significantly to an important physiological manifestation of helminth infection; namely intestinal smooth muscle cell-driven hypercontractility.     

Development and function of invariant natural killer T cells producing T(h)2- and T(h)17-cytokines

There is heterogeneity in invariant natural killer T (iNKT) cells based on the expression of CD4 and the IL-17 receptor B (IL-17RB), a receptor for IL-25 which is a key factor in T_H2 immunity. However, the development pathway and precise function of these iNKT cell subtypes remain unknown. IL-17RB⁺ iNKT cells are present in the thymic CD44^+/− NK1.1⁻ population and develop normally even in the absence of IL-15, which is required for maturation and homeostasis of IL-17RB⁻ iNKT cells producing IFN-γ. These results suggest that iNKT cells contain at least two subtypes, IL-17RB⁺ and IL-17RB⁻ subsets. The IL-17RB⁺ iNKT subtypes can be further divided into two subtypes on the basis of CD4 expression both in the thymus and in the periphery. CD4⁺ IL-17RB⁺ iNKT cells produce T_H2 (IL-13), T_H9 (IL-9 and IL-10), and T_H17 (IL-17A and IL-22) cytokines in response to IL-25 in an E4BP4-dependent fashion, whereas CD4⁻ IL-17RB⁺ iNKT cells are a retinoic acid receptor-related orphan receptor (ROR)γt⁺ subset producing T_H17 cytokines upon stimulation with IL-23 in an E4BP4-independent fashion. These IL-17RB⁺ iNKT cell subtypes are abundantly present in the lung in the steady state and mediate the pathogenesis in virus-induced airway hyperreactivity (AHR). In this study we demonstrated that the IL-17RB⁺ iNKT cell subsets develop distinct from classical iNKT cell developmental stages in the thymus and play important roles in the pathogenesis of airway diseases.     

Analysis of the Dynamics of Infiltrating CD4+ T Cell Subsets in the Heart during Experimental Trypanosoma cruzi Infection

Chagas disease, caused by the protozoan parasite Trypanosoma cruzi, affects several million people in Latin America. Myocarditis, observed during both the acute and chronic phases of the disease, is characterized by an inflammatory mononuclear cell infiltrate that includes CD4⁺ T cells. It is known that Th1 cytokines help to control infection. The role that T_reg and Th17 cells may play in disease outcome, however, has not been completely elucidated. We performed a comparative study of the dynamics of CD4⁺ T cell subsets after infection with the T. cruzi Y strain during both the acute and chronic phases of the disease using susceptible BALB/c and non-susceptible C57BL/6 mice infected with high or low parasite inocula. During the acute phase, infected C57BL/6 mice showed high levels of CD4⁺ T cell infiltration and expression of Th1 cytokines in the heart associated with the presence of T_reg cells. In contrast, infected BALB/c mice had a high heart parasite burden, low heart CD4⁺ T cell infiltration and low levels of Th1 and inflammatory cytokines, but with an increased presence of Th17 cells. Moreover, an increase in the expression of IL-6 in susceptible mice was associated with lethality upon infection with a high parasite load. Chronically infected BALB/c mice continued to present higher parasite burdens than C57BL/6 mice and also higher levels of IFN-γ, TNF, IL-10 and TGF-β. Thus, the regulation of the Th1 response by T_reg cells in the acute phase may play a protective role in non-susceptible mice irrespective of parasite numbers. On the other hand, Th17 cells may protect susceptible mice at low levels of infection, but could, in association with IL-6, be pathogenic at high parasite loads.     

Development of a TH17 immune response during the induction of murine syngeneic graft-versus-host disease

Syngeneic graft-versus-host disease (SGVHD) develops following lethal irradiation, reconstitution with syngeneic bone marrow (BM) and treatment with a 21 day course of the immunosuppressive agent cyclosporine A (CsA). Clinical symptoms of SGVHD appear 2–3 weeks post-CsA with inflammation occurring in the colon and liver. Previously we have demonstrated that CD4⁺ T cells and a T helper cell type 1 cytokine response (T_H1) are involved in the development of SGVHD associated intestinal inflammation. Studies have recently discovered an additional T cell lineage that produces IL-17 and is termed T_H17. It has been suggested that inflammatory bowel disease is a result of a T_H17 response rather than a T_H1 response. This study was designed to investigate T_H17 involvement in SGVHD-associated colitis. Following induction of SGVHD, the levels of T_H17 and T_H1 cytokine mRNA and protein were measured in control and SGVHD animals. In vivo cytokine neutralization was performed to determine the role of the prototypic T_H17 cytokine, IL-17, in the disease process. We found that during CsA-induced murine SGVHD there was an increase in both T_H17 and T_H1 mRNA and cytokines within the colons of diseased mice. The administration of an anti-mouse IL-17A mAb did not alter the course of disease. However, neutralization of IL-17A resulted in an increased production of IL-17F, a related family member, with an overlapping range of effector activities. These results demonstrate that in the pathophysiology of SGVHD, there is a redundancy in the T_H17 effector molecules that mediate the development of SGVHD.     

Basophils amplify type 2 immune responses, but do not serve a protective role, during chronic infection of mice with the filarial nematode Litomosoides sigmodontis

Chronic helminth infections induce a type 2 immune response characterized by eosinophilia, high levels of IgE, and increased T cell production of type 2 cytokines. Because basophils have been shown to be substantial contributors of IL-4 in helminth infections, and because basophils are capable of inducing Th2 differentiation of CD4(+) T cells and IgE isotype switching in B cells, we hypothesized that basophils function to amplify type 2 immune responses in chronic helminth infection. To test this, we evaluated basophil function using the Litomosoides sigmodontis filaria model of chronic helminth infection in BALB/c mice. Time-course studies showed that eosinophilia, parasite Ag-specific CD4(+) T cell production of IL-4 and IL-5 and basophil activation and IL-4 production in response to parasite Ag all peak late (6-8 wk) in the course of L. sigmodontis infection, after parasite-specific IgE has become detectable. Mixed-gender and single-sex worm implantation experiments demonstrated that the relatively late peak of these responses was not dependent on the appearance of circulating microfilariae, but may be due to initial low levels of parasite Ag load and/or habitation of the developing worms in the pleural space. Depletion of basophils throughout the course of L. sigmodontis infection caused significant decreases in total and parasite-specific IgE, eosinophilia, and parasite Ag-driven CD4(+) T cell proliferation and IL-4 production, but did not alter total worm numbers. These results demonstrate that basophils amplify type 2 immune responses, but do not serve a protective role, in chronic infection of mice with the filarial nematode L. sigmodontis.     

Recent Advances in the Characterization of Genetic Factors Involved in Human Susceptibility to Infection by Schistosomiasis

Human resistance to infection by schistosomes is associated to a strong Th2 immune. However a persistent Th2 response can cause severe kidney and liver disease in human. In this review, we mainly focused on the control of infection levels caused by schistosomes. Several experimental models allowed us to better understand the immunological mechanisms of the host against schistosome infection. High IgE and eosinophil levels are associated with resistance to infection by schistosomes and this effect is counterbalanced by IgG4. IgE and eosinophils are highly dependent on IL-4, IL-13, and Il-5, which are three main Th2 cytokines. We also examined the genetic factors involved in human susceptibility to infection by schistosomiasis. Infection levels are mainly regulated by a major locus SM1, in 5q31-q33 region, which contains the genes encoding for the IL-4, IL-13, and Il-5 cytokines. An association between an IL13 polymorphism, rs1800925, and infection levels has been shown. This polymorphism synergistically acts with another polymorphism (rs324013) in the STAT6 gene, encoding for the signal transducer of the IL13 pathway. This pathway has also been involved in atopic disorders. As helminthiasis, atopy is the result of aberrant Th2 cytokine response to allergens, with an increased production of IL-4, IL-13, Il-9 and Il-5, with high amounts of allergen-specific and total IgE and eosinophilia. However, the Th2 immune response is protective in helminthiasis but aggravating in atopic disorders. Several studies reported interplay between helminthic infections and allergic reactions. The different results are discussed here.     

Commitment to the Regulatory T Cell Lineage Requires CARMA1 in the Thymus but Not in the Periphery

Regulatory T (T_reg) cells expressing forkhead box P3 (Foxp3) arise during thymic selection among thymocytes with modestly self-reactive T cell receptors. In vitro studies suggest Foxp3 can also be induced among peripheral CD4⁺ T cells in a cytokine dependent manner. T_reg cells of thymic or peripheral origin may serve different functions in vivo, but both populations are phenotypically indistinguishable in wild-type mice. Here we show that mice with a Carma1 point mutation lack thymic CD4⁺Foxp3⁺ T_reg cells and demonstrate a cell-intrinsic requirement for CARMA1 in thymic Foxp3 induction. However, peripheral Carma1-deficient T_reg cells could be generated and expanded in vitro in response to the cytokines transforming growth factor beta (TGFβ) and interleukin-2 (IL-2). In vivo, a small peripheral T_reg pool existed that was enriched at mucosal sites and could expand systemically after infection with mouse cytomegalovirus (MCMV). Our data provide genetic evidence for two distinct mechanisms controlling regulatory T cell lineage commitment. Furthermore, we show that peripheral T_reg cells are a dynamic population that may expand to limit immunopathology or promote chronic infection.     

Evidence of Infectious Asthma Phenotype: Chlamydia-Induced Allergy and Pathogen-Specific IgE in a Neonatal Mouse Model

Asthma is a chronic respiratory disease whose etiology is poorly understood. Recent studies suggest that early-life respiratory infections with atypical bacteria may play an important role in the induction or exacerbation of chronic respiratory disease. The current study utilized a neonatal mouse ovalbumin (OVA) sensitization model of asthma to determine the course of early-life respiratory tract infection by Chlamydia. Neonatal (day 1) and adult (6 wks) BALB/c mice were infected intranasally with Chlamydia (MoPn) and 7 weeks later were sensitized and challenged with ovalbumin. Allergic airway disease was characterized by examination of serum and bronchoalveolar lavage fluid (BAL) cellularity, cytokine production and antibody response. The presence of Chlamydia was determined by PCR and culture. Ova-specific IgE was quantified by ELISA and Chlamydia-specific IgE was determined via Western blot analysis. Chlamydial infection in neonatal mice induced increased production of Th₂ cytokines (IL-4, 5, 10, and 13) in both BAL and serum, while infected adult mice produced increased Th₁ cytokines (IL-2, IFN-γ). The BAL from infected neonates contained significantly elevated levels of eosinophils compared to infected adult mice. Although adult mice cleared the infection ∼30 days post infection (pi), neonates were still infected 66 days after initial infection. Chlamydia-specific IgE was detected in both the BAL and serum of neonatal mice beginning 28 days post infection, however, infected adult mice did not produce Chlamydia-specific IgE antibodies over the course of the study. When allergic airway was induced using Ova, infected neonatal mice increased their production of IL-4, IL-5 and IL-13 by >2 fold compared to uninfected controls and infected adult groups. Our findings demonstrate that early-life Chlamydia infection induces a Th₂-dominant cytokine response in the airways of neonatal mice, leading to chronic infection. More significantly, early life respiratory colonization with Chlamydia elicits pathogen-specific IgE production, which further supports an infectious asthma phenotype.     

Cytokines expression profile and kinetics of Peste des petits ruminants virus antigen and antibody in infected and vaccinated goats

The present study deals with the co-ordination of cytokine (IL-4 and IFN-γ) expression and kinetics of peste des petits ruminants (PPR) virus antigen and antibody in PPRV infected and vaccinated goats. The infected animals exhibited mixed cytokine (both T_H1 and T_H2) responses in the initial phase of the disease. The infected and dead goats had increased IFN-γ response before their death; while IL-4 remained at the base level. The cytokine expression in recovered animals was almost similar to that of vaccinated ones, where a unique biphasic response of IL-4 expression was observed with an up-regulation of IFN-γ on 7^th days post vaccination (dpv). Analysis of PPR virus antigen and antibody kinetics in different components of blood from infected and vaccinated animals revealed that the PPR virus antigen load was highest in plasma followed by serum and blood of the infected animals, whereas vaccinated animals showed only marginal positivity on 9^th dpv. The antibody titer was high in serum followed by plasma and blood in both vaccinated and infected animals. Therefore, it is inferred that the presence of antigen and antibody were significant with the expression of cytokine, and that a decreased response of IL-4 was noticed during intermediate phase of the disease i.e., 7 to 12^th days post infection (dpi). This indicates the ability to mount a functional T_H2 response after 14^th dpi could be a critical determinant in deciding the survival of the PPR infected animal.     

Differential interleukin-6 mRNA expression in Nippostrongylus brasiliensis infection of susceptible and resistant strains of mice

Intestinal parasitic infection is still a major problem in humans and animals, yet host immunity against gut parasitic infection remains partially understood. Eosinophilia and mastocytosis are features of such infection that have been shown to be genetically controlled. The expression of IL-6 is detected in eosinophils, mast cells and neutrophils and may be responsible for the regulation of leucocytes at infective sites. The relationships between IL-6 expression, eosinophilia, mastocytosis and host immunity remain unclear. In the present report, a close correlation between IL-6 mRNA+ cells, eosinophilia, mastocytosis and worm expulsion is demonstrated, which may indicate a role for IL-6 in regulation of host immunity against intestinal parasite infection.