Soluble IL-4 receptor inhibits airway inflammation following allergen challenge in a mouse model of asthma

In vitro and in vivo studies, in both animal models and human asthmatics, have implicated IL-4 as an important inflammatory mediator in asthma. In a murine asthma model, we examined the anti-inflammatory activities of soluble IL-4R (sIL-4R). In this model, mice sensitized to OVA by i.p. and intranasal (i.n.) routes are challenged with the allergen by i.n. administration. The OVA challenge elicits an eosinophil infiltration into the lungs, with widespread mucus occlusion of the airways, and results in bronchial hyperreactivity. sIL-4R (0.1-100 microgram) was administered by either i.n. or i.p. routes before OVA challenge in OVA-sensitized mice. Both blood and bronchoalveolar lavage fluid levels of sIL-4R were significantly elevated compared with controls by i.n. delivery of 100 microgram sIL-4R; i.p. delivery of 100 microgram sIL-4R only raised blood levels of sIL-4R. The i.n. administration of 100 microgram sIL-4R before allergen challenge significantly reduced late phase pulmonary inflammation, blocking airway eosinophil infiltration, VCAM-1 expression, and mucus hypersecretion. In contrast, i.p. delivery of 100 microgram sIL-4R inhibited only the influx of eosinophils into the lungs, but not airway mucus release. Furthermore, sIL-4R treatment by either i.n. or i.p. routes did not reduce airway hyperreactivity in response to methacholine challenge. Thus, elevating airway levels of sIL-4R through the administration of exogenous sIL-4R is effective in blocking the late phase pulmonary inflammation that occurs in this murine allergen-challenge asthma model. These results suggest that sIL-4R may have beneficial anti-inflammatory effects in asthmatic patients.     

Decreased expression of membrane IL-5 receptor alpha on human eosinophils: I. Loss of membrane IL-5 receptor alpha on airway eosinophils and increased soluble IL-5 receptor alpha in the airway after allergen challenge

IL-5 is a key cytokine for eosinophil maturation, recruitment, activation, and possibly the development of inflammation in asthma. High concentrations of IL-5 are present in the airway after Ag challenge, but the responsiveness of airway eosinophils to IL-5 is not well characterized. The objectives of this study were to establish, following airway Ag challenge: 1) the expression of membrane (m)IL-5Ralpha on bronchoalveolar lavage (BAL) eosinophils; 2) the responsiveness of these cells to exogenous IL-5; and 3) the presence of soluble (s)IL-5Ralpha in BAL fluid. To accomplish these goals, blood and BAL eosinophils were obtained from atopic subjects 48 h after segmental bronchoprovocation with Ag. There was a striking reduction in mIL-5Ralpha on airway eosinophils compared with circulating cells. Furthermore, sIL-5Ralpha concentrations were elevated in BAL fluid, but steady state levels of sIL-5Ralpha mRNA were not increased in BAL compared with blood eosinophils. Finally, BAL eosinophils were refractory to IL-5 for ex vivo degranulation, suggesting that the reduction in mIL-5Ralpha on BAL eosinophils may regulate IL-5-mediated eosinophil functions. Together, the loss of mIL-5Ralpha, the presence of sIL-5Ralpha, and the blunted functional response (degranulation) of eosinophils to IL-5 suggest that when eosinophils are recruited to the airway, regulation of their functions becomes IL-5 independent. These observations provide a potential explanation for the inability of anti-IL-5 therapy to suppress airway hyperresponsiveness to inhaled Ag, despite a reduction in eosinophil recruitment.     

Three days after a single exposure to ozone, the mechanism of airway hyperreactivity is dependent on substance P and nerve growth factor

Ozone causes persistent airway hyperreactivity in humans and animals. One day after ozone exposure, airway hyperreactivity is mediated by release of eosinophil major basic protein that inhibits neuronal M(2) muscarinic receptors, resulting in increased acetylcholine release and increased smooth muscle contraction in guinea pigs. Three days after ozone, IL-1β, not eosinophils, mediates ozone-induced airway hyperreactivity, but the mechanism at this time point is largely unknown. IL-1β increases NGF and the tachykinin substance P, both of which are involved in neural plasticity. These experiments were designed to test whether there is a role for NGF and tachykinins in sustained airway hyperreactivity following a single ozone exposure. Guinea pigs were exposed to filtered air or ozone (2 parts per million, 4 h). In anesthetized and vagotomized animals, ozone potentiated vagally mediated airway hyperreactivity 24 h later, an effect that was sustained over 3 days. Pretreatment with antibody to NGF completely prevented ozone-induced airway hyperreactivity 3 days, but not 1 day, after ozone and significantly reduced the number of substance P-positive airway nerve bundles. Three days after ozone, NK(1) and NK(2) receptor antagonists also blocked this sustained hyperreactivity. Although the effect of inhibiting NK(2) receptors was independent of ozone, the NK(1) receptor antagonist selectively blocked vagal hyperreactivity 3 days after ozone. These data confirm mechanisms of ozone-induced airway hyperreactivity change over time and demonstrate 3 days after ozone that there is an NGF-mediated role for substance P, or another NK(1) receptor agonist, that enhances acetylcholine release and was not present 1 day after ozone.     

Effect of IL-6 trans-signaling on the pro-remodeling phenotype of airway smooth muscle

Increased levels of IL-6 are documented in asthma, but its contribution to the pathology is unknown. Asthma is characterized by airway wall thickening due to increased extracellular matrix deposition, inflammation, angiogenesis, and airway smooth muscle (ASM) mass. IL-6 binds to a specific membrane-bound receptor, IL-6 receptor-alpha (mIL-6Ralpha), and subsequently to the signaling protein gp130. Alternatively, IL-6 can bind to soluble IL-6 recpetor-alpha (sIL-6Ralpha) to stimulate membrane receptor-deficient cells, a process called trans-signaling. We discovered that primary human ASM cells do not express mIL-6Ralpha and, therefore, investigated the effect of IL-6 trans-signaling on the pro-remodeling phenotype of ASM. ASM required sIL-6Ralpha to activate signal transducer and activator 3, with no differences observed between cells from asthmatic subjects compared with controls. Further analysis revealed that IL-6 alone or with sIL-6Ralpha did not induce release of matrix-stimulating factors (including connective tissue growth factor, fibronectin, or integrins) and had no effect on mast cell adhesion to ASM or ASM proliferation. However, in the presence of sIL-6Ralpha, IL-6 increased eotaxin and VEGF release and may thereby contribute to local inflammation and vessel expansion in airway walls of asthmatic subjects. As levels of sIL-6Ralpha are increased in asthma, this demonstration of IL-6 trans-signaling in ASM has relevance to the development of airway remodeling.     

Gp130 activation by soluble interleukin-6 receptor/interleukin-6 enhances osteoblastic differentiation of human bone marrow-derived mesenchymal stem cells

Interleukin-6 (IL-6) promotes osteodifferentiation in bone-located progenitors; however, it is not known whether this cytokine affects the differentiation of bone marrow-located osteoprogenitors. To address this issue, we prepared human bone marrow-derived mesenchymal stem cells (MSCs), which were characterized by a cell surface phenotype and multipotential nature. It was observed that in the presence of IL-6, MSCs were not differentiated into the osteogenic lineage, as evidenced by a failure to induce alkaline phosphatase activity, an earlier marker of osteodifferentiation. The lack of effect of IL-6 correlates with the observation that MSCs do not express a membrane-bound or soluble IL-6 receptor (sIL-6R). The incompetence of IL-6 was not reversed by the addition of sIL-6R alone or the sIL-6R/IL-6 complex, as it occurs in other IL-6R-negative cells. However, after MSC osteocommittment by dexamethasone, sIL-6R or the sIL-6R/IL-6 complex enhanced alkaline phosphatase activity. The effect of sIL-6R or sIL-6R/IL-6 proved to be dependent on gp130 availability, which is expressed by MSCs, and involves stat-3 phosphorylation. These data suggest that IL-6R deficiency may represent for bone marrow-located mesenchymal progenitors a sort of protective mechanism to escape the osteogenic effect of IL-6, which is produced by the MSC itself as well as by other marrow stromal cells.     

Factors influencing the effect of the soluble IL-6 receptor on IL-6 responses in HepG2 hepatocytes

The soluble IL-6 receptor (sIL-6R) can increase IL-6-induced signalling by forming a complex with IL-6 and membrane-bound gp130 (the receptor beta chain which transduces signals). The conditions affecting this response to sIL-6R were studied using fibrinogen release from HepG2 hepatocytes. Exogenous sIL-6R had no effect alone or in the presence of a submaximal concentration of IL-6, but increased responses to supramaximal IL-6 concentrations in a concentration-related manner. Dexamethasone increased the expression of the membrane IL-6R and endogenous sIL6R release, and increased responses to supramaximal but not submaximal IL-6 concentrations. The amount of endogenous sIL-6R released is relatively small and is unlikely to influence the effects of the exogenous sIL-6R. The observed concentration-related decrease in sIL-6R production in the presence of IL-6 may indicate internalization of ligand/receptor complexes. This would significantly decrease the amount of IL-6R (soluble or membrane) available for signalling and limit continued functional response later in the cultures. These data indicate that the major factor influencing responses to exogenous sIL-6R is an excess of IL-6 which is necessary to form complexes with the sIL-6R, which can then interact with gp130 to increase signalling.     

IL-6 trans-signaling system in intra-amniotic inflammation, preterm birth, and preterm premature rupture of the membranes

Classic IL-6 signaling is conditioned by the transmembrane receptor (IL-6R) and homodimerization of gp130. During trans-signaling, IL-6 binds to soluble IL-6R (sIL-6R), enabling activation of cells expressing solely gp130. Soluble gp130 (sgp130) selectively inhibits IL-6 trans-signaling. To characterize amniotic fluid (AF) IL-6 trans-signaling molecules (IL-6, sIL-6R, sgp130) in normal gestations and pregnancies complicated by intra-amniotic inflammation (IAI), we studied 301 women during second trimester (n = 39), third trimester (n = 40), and preterm labor with intact (n = 131, 85 negative IAI and 46 positive IAI) or preterm premature rupture of membranes (PPROM; n = 91, 61 negative IAI and 30 positive IAI). ELISA, Western blotting, and real-time RT-PCR were used to investigate AF, placenta, and amniochorion for protein and mRNA expression of sIL-6R, sgp130, IL-6R, and gp130. Tissues were immunostained for IL-6R, gp130, CD15(+) (polymorphonuclear), and CD3(+) (T cell) inflammatory cells. The ability of sIL-6R and sgp130 to modulate basal and LPS-stimulated release of amniochorion matrix metalloprotease-9 was tested ex vivo. We showed that in physiologic gestations, AF sgp130 decreases toward term. AF IL-6 and sIL-6R were increased in IAI, whereas sgp130 was decreased in PPROM. Our results suggested that fetal membranes are the probable source of AF sIL-6R and sgp130. Immunohistochemistry and RT-PCR revealed increased IL-6R and decreased gp130 expression in amniochorion of women with IAI. Ex vivo, sIL-6R and LPS augmented amniochorion matrix metalloprotease-9 release, whereas sgp130 opposed this effect. We conclude that IL-6 trans-signaling molecules are physiologic constituents of the AF regulated by gestational age and inflammation. PPROM likely involves functional loss of sgp130.     

Analysis of soluble interleukin 6 receptor in cerebrospinal fluid in inflammatory and non-inflammatory conditions

The objective of this study was to investigate the pathophysiological roles of soluble interleukin 6 receptor (sIL-6R) in cerebrospinal fluid (CSF). CSF was obtained from patients suspected with meningitis. Eight patients without any meningeal signs or symptoms were enrolled as controls. An additional 34 CSF samples were collected to measure both biologically active and immunoreactive sIL-6R. All CSF samples were proven to be aseptic. IL-6 and sIL-6R were measured using specific ELISAs. Patients were divided into three groups on the basis of cell number in CSF; inflammatory group (cell number >5 microl, mean 241+/-363.1, n=61); non-inflammatory group (cell number < or =5 microl, mean=2.1+/-1.7, n=12) and controls (cell number < or =5 microl, mean=0.3+1.7, n=8). Among these three groups, the differences in protein (F (2,78)=8.274, P<0.0001) and IL-6 concentration (F (2,78)=6.475, P<0.001) were statistically significant but those of sIL-6R concentration were not. There were only weak correlations between log (sIL-6R) versus log (cell number) (r=0.23, P=0.0375), log (protein) (r=0.239, P=0.0358) and log (IL-6) (r=0.27, P=0.0167). Amounts of immunoreactive and biologically active sIL-6R were closely correlated (r=0.62, n=34, P<0.005). It was concluded that sIL-6R is present constitutively in CSF and its level may not increase significantly in inflammatory conditions; infiltrating cells in CSF are not the main source of sIL-6R; and sIL-6R in CSF can bind IL-6.     

G-CSF therapy and catheter-related Gram-positive sepsis increase serum IL-2 receptor α level and may falsely suggest a relapse in children with soft tissue sarcomas unless serum beta2-microglobulin, lactate dehydrogenase and C-reactive protein levels are determined concomitantly

Many components of oncologic treatment increase serum sIL-2Rα level, which may falsely suggest a relapse. We tried to establish whether granulocyte colony stimulating factor (G-CSF) and central vein catheter (CVC)-related sepsis increase serum sIL-2Rα level to values on relapse of childhood soft tissue sarcomas (STS) and how to distinguish real relapse from a "false" one. Serum sIL-2Rα, B2-M, LDH, CRP and ESR levels and rates of markers' elevated values were determined prospectively in 18 STS children: pre-treatmently (ST1), in complete remission (CR; ST2), in CR during G-CSF therapy (ST3), in CR during CVC-related sepsis (ST4), on relapse (ST5) and after treatment (ST6) and once in 50 healthy pediatric controls. It appeared that pre-treatment serum sIL-2Rα, LDH, CRP and ESR but not B2-M declined significantly with remission (ST2) achievement. At ST5 sIL-2Rα, B2-M, LDH and CRP increased from ST2 to ST1 values. SIL-2Rα levels at ST3 and ST4 rose significantly in all patients from ST2 to ST1 and ST5 values. At ST3 also serum LDH and B2-M increased to values at ST1 and ST5 and exceeded significantly those at ST2 and ST4. At ST4 CRP but not B2-M and LDH, rose significantly in most patients to values at ST1 and ST5. Thus, serum sIL-2Rα monitoring in pediatric STS reflects well response to chemotherapy unless samples are collected during G-CSF therapy or CVC-related sepsis. Determination of serum B2-M, LDH and CRP together with sIL-2Rα may help to distinguish between "real" relapse and "false" sIL-2Rα increase due to G-CSF administration or CVC-related sepsis.     

Cytokine receptors and B cell functions. I. Recombinant soluble receptors specifically inhibit IL-1- and IL-4-induced B cell activities in vitro

IL-1 and IL-4 are important mediators of B cell growth and differentiation. The cell-surface receptors for these cytokines have recently been cloned and recombinant soluble receptors have been produced that bind their respective ligand. The ability of soluble forms of the murine IL-1R (sIL-1R) and IL-4R (sIL-4R) to inhibit B cell functions in vitro was examined. Proliferation of B cells treated with anti-Ig plus IL-1 or IL-4 was inhibited by the appropriate soluble receptor. sIL-4R also inhibited IL-4-dependent B cell differentiation as measured by: induction of IgG1 and IgE secretion by LPS blasts, down-regulation of IgG3 secretion by LPS blasts, increased Ia expression, and increased Fc epsilon R (CD23) expression. The inhibitory effects of the soluble receptors were found to be highly specific in that sIL-4R had no effect on IL-1-induced B cell activity and sIL-1R had no effect on IL-4 activity, further demonstrating the existence of two independent pathways of B cell activation directed by IL-1 and IL-4.     

人可溶性白介素4受体(sIL4R)在大肠杆菌中的表达和纯化

白细胞介素 4 (IL 4 )作为一种多功能的细胞因子在哮喘等变态性炎症反应中具有关键作用 .IL 4通过结合细胞表面的白介素 4受体 (IL 4R)发挥其生物学效应 .sIL 4R缺少跨膜和胞内结构域 ,结合IL 4后不能产生信号传递介导IL 4的生物学活性 ,但sIL 4R与IL 4结合的高度特异性和极高的亲和力使它非常适合作为理想的IL 4拮抗剂 ,应用于哮喘等疾病治疗 .采用RT PCR方法 ,以人单核细胞总RNA为模板扩增得到编码sIL 4R的基因片段 ,经测序确证后插入大肠杆菌高效表达质粒pBV2 2 0 ,得到重组质粒pBV2 2 0 sIL 4R ,重组质粒转化E .coliDH5α .重组菌经温度诱导后超声破碎得到包涵体 ,经SuperdexHR75分子筛柱和DEAE SepharoseFastFlow离子交换柱进行纯化 ,HPLC检测表明纯度达到 90 % .N端测序证明 ,重组sIL 4R与天然sIL 4RN端序列完全一致 .Western印迹、配基结合印迹对重组sIL 4R进行鉴定 .结果表明 ,重组sIL 4R具有结合IL 4的生物学活性     

Interleukin-6 and interleukin-6 receptor secretion by chronic lymphatic leukaemia and normal B lymphocytes: effect of PMA and PWM

Interleukin-6 (IL-6) and soluble interleukin-6 receptor (sIL-6R) were detected in supernatants of cultures of B chronic lymphatic leukaemia (CLL) lymphocytes. Phorbol-12-myristate 13 acetate (PMA) caused a decrease in the levels of IL-6 in 14 out of 16 cultures and an increase in levels of sIL6R in all 15 cases. The effect of pokeweed mitogen (PWM) was variable and not significant. The levels of IL-6 were below the detection limit (60 pg/ml) in sera of 13 CLL patients whereas sIL-6R was detected (13 ng/ml to 97 ng/ml) in the 13 sera. IL6 was not detected in cultures of unstimulated or stimulated with PMA or PWM normal human B cells. Levels of sIL-6R were minimal in cultures of normal B lymphocytes and were increased in PMA stimulated cultures. The results are consistent with the view that B-CLL cells produce spontaneously IL-6 which could act in an autocrine fashion to cause shedding of surface IL-6R and account for the correlation found between serum levels of sIL-6R and B-CLL lymphocyte numbers. The fall in levels of IL-6 in PMA stimulated CLL cultures might express masking or degradation of IL-6 after combination with the receptor.     

Neuroprotective effects of interleukin-6 on NMDA-induced rat retinal damage

This study shows that interleukin-6 (IL-6) combined with soluble interleukin-6 receptors (sIL-6R) modulates N-methyl-D-aspartate (NMDA)-induced retinal damage. Eyes pretreated with a combined injection of IL-6 and sIL-6R had NMDA administered into the vitreous cavity. Morphometric analysis and retrograde labeling analysis found that pretreatment with either IL-6 or sIL-6R alone did not bring about any neuroprotective effect. However, pretreatment with a combined administration of IL-6 and sIL-6R induced a significant neuroprotective effect against NMDA-induced retinal damage. Apoptotic changes in the retina were assessed by the TUNEL method. The results indicated that pretreatment with IL-6 combined with sIL-6R prevents NMDA-induced apoptosis. Western blotting studies demonstrated upregulation of gp130 expression in the NMDA-injected retina. Present studies suggest that IL-6 combined with sIL-6R provides a neuroprotective effect on NMDA-induced retinal damage.     

The interleukin-6 receptor Asp358Ala single nucleotide polymorphism rs2228145 confers increased proteolytic conversion rates by ADAM proteases

The pleiotropic activities of Interleukin (IL-)6 are controlled by membrane-bound and soluble forms of the IL-6 receptor (IL-6R) in processes called classic and trans-signaling, respectively. The coding single nucleotide polymorphism (SNP) rs2228145 of the Interleukin 6 receptor (IL-6R Asp358Ala variant) is associated with a 2-fold increase in soluble IL-6R (sIL-6R) serum levels resulting in reduced IL-6-induced C-reactive protein (CRP) production and a reduced risk for coronary heart disease. It was suggested that the increased sIL-6R level leads to decreased IL-6 classic or increased IL-6 trans-signaling. Irrespective of the functional outcome of increased sIL-6R serum level, it is still under debate, whether the increased sIL-6R serum levels emerged from differential splicing or ectodomain shedding. Here we show that increased proteolytic ectodomain shedding mediated by the A Disintegrin and metalloproteinase domain (ADAM) proteases ADAM10 and ADAM17 caused increased sIL-6R serum level in vitro as well as in healthy volunteers homozygous for the IL-6R Asp358Ala allele. Differential splicing of the IL-6R appears to have only a minor effect on sIL-6R level. Increased ectodomain shedding resulted in reduced cell-surface expression of the IL-6R Asp358Ala variant compared to the common IL-6R variant. In conclusion, increased IL-6R ectodomain shedding is a mechanistic explanation for the increased serum IL-6R levels found in persons homozygous for the rs2228145 IL-6R Asp358Ala variant.     

Priming with murine recombinant interleukin-5 resulted in the augmentation of PAF-induced airway hyperresponsiveness to histamine in guinea pigs

The effects of pretreatment with murine recombinant interleukin 5 (mrIL-5) on platelet activating factor (PAF)-induced bronchoconstriction and airway hyperreactivity were investigated in guinea pigs. The intratracheal administration of mr IL-5 (2.5–10 μg) augmented platelet activating factor (PAF; 50 ng/kg)-induced bronchoconstriction in guinea pigs. When IL-5 (2.5 μg) was injected intratracheally, PAF (25 ng/kg)-induced bronchoconstriction was not affected, but PAF-induced airway hyperresponsiveness to histamine was exacerbated. Airway inflammation, in terms of increased capillary permeability and the accumulation of leukocytes in bronchoalveolar lavage fluid, was not produced by pretreatment with PAF (25 ng/kg), mrIL-5 (2.5 μg), or by a combination of these agents. This mrIL-5-induced augmentation of airway hyperreactivity by PAF was clearly inhibited by the phosphodiesterase-type III inhibitors, SDZ-MKS-492 and AH 21–132, but not by aminophylline.     

Factors associated with inflammation markers, a cross-sectional analysis

Epidemiological studies have reported associations between circulating inflammation markers and risk of chronic diseases. It is of interest to examine whether risk factors for these diseases are associated with inflammation. We conducted a cross-sectional analysis to evaluate whether reproductive and lifestyle factors and circulating vitamin D were associated with inflammation markers, including C-reactive protein, cytokines (IL-1β, IL-2, IL-4, IL-5, IL-6, IL-10, IL-12p40, IL-12p70, IL-13, TNFα), and cytokine modulators (IL-1RA, sIL-1RII, sIL-2Ra, sIL-4R, sIL-6R, sTNF-R1/R2), among 616 healthy women. We confirmed associations of several inflammation markers with age and BMI. We also observed significantly higher levels of certain inflammation markers in postmenopausal vs. premenopausal women (TNFα, sIL-1RII, sIL-2Ra), with increasing parity (IL-12p40), and with higher circulating 25(OH) vitamin D (IL-13) and lower levels among current users of non-steroidal anti-inflammatory drugs (NSAIDs) (IL-1β, IL-2, IL-10, IL-12p70, and IL-12p40), current smokers (IL-4, IL-13, IL-12p40), and women with a family history of breast or ovarian cancer (IL-4, IL-10, IL-13). Our findings suggest that risk factors for chronic diseases (age, BMI, menopausal status, parity, NSAID use, family history of breast and ovarian cancer, and smoking) are associated with inflammation markers in healthy women.     

Soluble interleukin-6 receptor alpha inhibits the cytokine-Induced fractalkine/CX3CL1 expression in human vascular endothelial cells in culture

Soluble form of IL-6 receptor alpha (sIL-6R) is known to serve as an agonist, without exogenous IL-6, on endothelial cells which do not express IL-6R but have only IL-6 receptor beta chain, gp130. We investigated the effect of sIL-6R on fractalkine expression in human umbilical vein endothelial cells (HUVECs) in culture. sIL-6R markedly inhibited HUVEC fractalkine/CX3CL1 expression induced by interleukin (IL)-1alpha, tumor necrosis factor (TNF)-alpha, or interferon (IFN)-gamma. IL-1alpha-induced fractalkine expression was inhibited by sIL-6R in time- and concentration-dependent manners. The experiment using actinomycin D indicated that sIL-6R lowered the stability of fractalkine mRNA. The inhibitory effect of sIL-6R was reversed by anti-gp130 neutralizing antibody. sIL-6R inhibited adhesion of mononuclear cells (MNCs) to HUVEC monolayers stimulated with IFN-gamma, but it did not inhibit the adhesion to monolayers stimulated with IL-1alpha. MNC chemotactic activity of conditioned medium of HUVEC stimulated with IL-1alpha or IFN-gamma was inhibited by co-treatment with sIL-6R. sIL-6R may play a regulatory role in immune responses by modulating the interaction between leukocytes and the vascular endothelium.     

Interleukin-6 receptor signaling. II. Bio-availability of interleukin-6 in serum.

Interleukin-6 (IL-6) is used as a growth factor by various tumor cells. It binds to a gp80 specific receptor (IL-6R) and then to a gp130 transducing chain. Both receptor chains are released as soluble functional proteins which circulate in biological fluids. With a view to studying the physiological role of these soluble receptors, both proteins were purified from human plasma. Surface plasmon resonance was used to measure the kinetic constants of equilibria between IL-6 and natural sIL-6R, and between the IL-6/sIL-6R complex and soluble gp130. Kd values were found to be 0. 9 and 2.3 nM respectively. Soluble natural IL-6R and gp130 were also found to interact with a Kd of 2.8 nM in the absence of IL-6. By using these Kd values, a mathematical simulation predicted that 1) within a large range of IL-6, sIL-6R and sgp130 concentrations, free IL-6 represents 30% of the total circulating cytokine, 2) sIL-6R overconcentrations lead to dramatic changes of the concentration of free IL-6, 3) increased concentrations of sgp130 should produce an efficient buffering effect on the IL-6/sIL-6R complex without incidence on the level of free IL-6. According to this model, the IL-6/sIL-6R complex appears to be an important support of IL-6 signaling in the most commonly encountered in vivo situations. The concentration of this complex is directly under the control of the concentration of sIL-6R; its bio-availability should be efficiently buffered by increased sgp130 concentrations.     

IL-13 receptor α1 differentially regulates aeroallergen-induced lung responses

IL-13 and IL-4 are hallmark cytokines of Th2-associated diseases including asthma. Recent studies revealed that IL-13Rα1 regulates asthma pathogenesis by mediating both IL-4- and IL-13-mediated responses. Nonetheless, the relative contribution of each cytokine in response to aeroallergen challenge and the degree of functional dichotomy between IL-4 and IL-13 in asthma remains unclear. Consistent with prior publications, we demonstrate that IL-13Rα1 regulates aeroallergen-induced airway resistance and mucus production but not IgE and Th2 cytokine production. We demonstrate that aeroallergen-induced eosinophil recruitment and chemokine production were largely dependent on IL-13Rα1 after Aspergillus but not house dust mite (HDM) challenges. Notably, Aspergillus-challenged mice displayed increased IL-13Rα1-dependent accumulation of dendritic cell subsets into lung-draining lymph nodes in comparison with HDM-challenged mice. Comparison of IL-4 and IL-13 levels in the different experimental models revealed increased IL-4/IL-13 ratios after HDM challenge, likely explaining the IL-13Rα1-independent eosinophilia and chemokine production. Consistently, eosinophil adoptive transfer experiments revealed near ablation of lung eosinophilia in response to Aspergillus in Il13ra1(-/-) mice, suggesting that Aspergillus-induced lung eosinophil recruitment is regulated by IL-13-induced chemokine production rather than altered IL-13 signaling in eosinophils. Furthermore, the near complete protection observed in Il13ra1(-/-) mice in response to Aspergillus challenge was dependent on mucosal sensitization, as alum/Aspergillus-sensitized mice that were rechallenged with Aspergillus developed IL-13Rα1-independent eosinophilia although other asthma parameters remained IL-13Rα1 dependent. These results establish that IL-13Rα1 is required for aeroallergen-induced airway resistance and that allergen-induced chemokine production and consequent eosinophilia is dictated by the balance between IL-4 and IL-13 production in situ.