Antigen‐dependent rescue of nose‐associated lymphoid tissue (NALT) development independent of LTβR and CXCR5 signaling

Nose‐associated lymphoid tissue (NALT) in the rodent upper respiratory tract develops postnatally and is considered to be independent of several factors known to be involved in the organogenesis of LN and Peyer's patches (PP). In this study we demonstrate that at least two different pathways result in NALT development. Following NALT anlage formation the intrinsic pathway relies on a signaling cascade including those mediated through the chemokine receptor CXCR5 and the lymphotoxin β receptor (LTβR). This allows for the formation of high endothelial venules and thereby the recruitment of lymphocytes into NALT. Alternatively, high endothelial venule formation and lymphocyte recruitment can be induced in the NALT anlage by environmental signals, which are independent of LT‐βR and chemokine receptor CXCR5 signaling but in part rely on CD40 ligand. Thus, our study identifies a novel mechanism that facilitates the rescue of NALT development at late stages in adult life independent of the canonical LTβR–CXCR5 signaling axis.     

Translational Mini‐Review Series on B Cell‐Directed Therapies: The pathogenic role of B cells in autoantibody‐associated autoimmune diseases – lessons from B cell‐depletion therapy

B cell depletion therapy with rituximab (BCDT) is a licensed treatment for rheumatoid arthritis and has shown promising results in the treatment of severe, refractory patients with other autoantibody‐associated autoimmune diseases (AAID). The exact role that B cells play in the pathogenesis of AAID and consequently the mechanisms by which BCDT is effective are not known. The two more widely discussed hypotheses are that BCDT is effective because it removes the precursors of plasma cells producing pathogenic autoantibody species, or because it depletes a critical mass of autoreactive B cell clones that present antigen to pathogenic autoreactive T cells. This review will focus on the effects of BCDT and whether the response of patients with AAID to BCDT could be due ultimately to its effects on autoantibodies. A better knowledge of the main role that B cells play in the pathogenesis of the different diseases and a better understanding of the most likely mechanism of relapse following an earlier response to BCDT would help to guide further developments of B cell targeting therapies and potentially increase the chance of designing a protocol that could induce a long‐term remission.     

NF‐κB‐inducing kinase is a key regulator of inflammation‐induced and tumour‐associated angiogenesis

Angiogenesis is essential during development and in pathological conditions such as chronic inflammation and cancer progression. Inhibition of angiogenesis by targeting vascular endothelial growth factor (VEGF) blocks disease progression, but most patients eventually develop resistance which may result from compensatory signalling pathways. In endothelial cells (ECs), expression of the pro‐angiogenic chemokine CXCL12 is regulated by non‐canonical nuclear factor (NF)‐κB signalling. Here, we report that NF‐κB‐inducing kinase (NIK) and subsequent non‐canonical NF‐κB signalling regulate both inflammation‐induced and tumour‐associated angiogenesis. NIK is highly expressed in endothelial cells (ECs) in tumour tissues and inflamed rheumatoid arthritis synovial tissue. Furthermore, non‐canonical NF‐κB signalling in human microvascular ECs significantly enhanced vascular tube formation, which was completely blocked by siRNA targeting NIK. Interestingly, Nik^?/? mice exhibited normal angiogenesis during development and unaltered TNFα‐ or VEGF‐induced angiogenic responses, whereas angiogenesis induced by non‐canonical NF‐κB stimuli was significantly reduced. In addition, angiogenesis in experimental arthritis and a murine tumour model was severely impaired in these mice. These studies provide evidence for a role of non‐canonical NF‐κB signalling in pathological angiogenesis, and identify NIK as a potential therapeutic target in chronic inflammatory diseases and tumour neoangiogenesis. © 2014 The Authors. The Journal of Pathology published by John Wiley & Sons Ltd on behalf of Pathological Society of Great Britain and Ireland.     

Chronic Trichuris muris infection alters hematopoiesis and causes IFN‐γ‐expressing T‐cell accumulation in the mouse bone marrow

Proinflammatory cytokines produced during immune responses to infectious stimuli are well‐characterized to have secondary effects on the function of hematopoietic progenitor cells in the BM. However, these effects on the BM are poorly characterized during chronic infection with intestinal helminth parasites. In this study, we use the Trichuris muris model of infection and show that Th1 cell‐associated, but not acute Th2 cell‐associated, responses to chronic T. muris infection cause a major, transient expansion of CD48^?CD150^? multipotent progenitor cells in the BM that is dependent on the presence of adaptive immune cells and IFN‐γ signaling. Chronic T. muris infection also broadly stimulated proliferation of BM progenitor cells including CD48^?CD150⁺ hematopoietic stem cells. This shift in progenitor activity during chronic T. muris infection correlated with a functional increase in myeloid colony formation in vitro as well as neutrophilia in the BM and peripheral blood. In parallel, we observed an accumulation of CD4⁺, CD8⁺, and CD4^?CD8^? (double negative) T cells that expressed IFN‐γ, displaying activated and central memory‐type phenotypes in the bone marrow during chronic infection. Thus, these results demonstrate that Th1 cell‐driven responses in the intestine during chronic helminth infection potently influence upstream hematopoietic processes in the BM via IFN‐γ.     

Gx‐50 reduces β‐amyloid‐induced TNF‐α, IL‐1β, NO,and PGE2 expression and inhibits NF‐κB signaling in a mouse model of Alzheimer's disease

Chronic inflammation, which is regulated by overactivated microglia in the brain, accelerates the occurrence and development of Alzheimer's disease (AD). Gx‐50 has been investigated as a novel drug for the treatment of AD in our previous studies. Here, we investigated whether gx‐50 possesses anti‐inflammatory effects in primary rat microglia and a mouse model of AD, amyloid precursor protein (APP) Tg mice. The expression of TNF‐α, IL‐1β, NO, prostaglandin E2, and the expression of iNOS and COX2 were inhibited by gx‐50 in amyloid β (Aβ) treated rat microglia; additionally, microglial activation and the expression of IL‐1β, iNOS, and COX2 were also significantly suppressed by gx‐50 in APP⁺ transgenic mice. Furthermore, gx‐50 inhibited the activation of NF‐κB and MAPK cascades in vitro and in vivo in APP‐Tg mice. Moreover, the expression of TLR4 and its downstream signaling proteins MyD88 and tumor necrosis factor receptor associated factor 6 (TRAF6) was reduced by gx‐50 in vitro and in vivo. Interestingly, silencing of TLR4 reduced Aβ‐induced upregulation of IL‐1β and TRAF6 to levels similar to gx‐50 inhibition; moreover, overexpression of TLR4 increased the expression of MyD88 and TRAF6, which was significantly reduced by gx‐50. These findings provide strong evidence that gx‐50 has anti‐inflammatory effects against Aβ‐triggered microglial overactivation via a mechanism that involves the TLR4‐mediated NF‐κBB/MAPK signaling cascade.     

Significant involvement of nuclear factor‐κB‐inducing kinase in proper differentiation of αβ and γδ T cells

Nuclear factor‐κB‐inducing kinase (NIK) is known to play a critical role in maintaining proper immune function. This is exemplified in the spontaneous mutant mouse lacking functional NIK, alymphoplasia (aly), which is simultaneously immune‐compromised and autoimmune‐prone. To investigate the role of NIK in αβ T‐cell repertoire formation, we analysed T‐cell development in aly/aly mice bearing a transgenic T‐cell receptor (TCR). Although there were no apparent abnormalities in the mature αβ T cells of non‐transgenic aly/aly mice, the maturation efficiency of idiotype^high+ T cells in the TCR‐transgenic mice was lower in aly/aly mice compared with those found in aly/+ mice, suggesting that the mature αβ T‐cell repertoire could be altered by the absence of functional NIK. In one strain of TCR‐transgenic aly/aly mice with a negatively selecting H‐2 background, the proportion of CD8^low+ idiotype^high+ cells, which are thought to potentially represent the γδ lineage of T cells, was markedly decreased. When the γδ T cells in non‐transgenic aly/aly mice were investigated, the proportion of γδ T cells in the peripheral organs of aly/aly mice was found to be one‐half to one‐fifth of those in aly/+ mice. Analyses of bone marrow chimera mice indicated that NIK in host cells, rather than in donor cells was important for generating a normal number of peripheral γδ T cells. Collectively, these results suggest that NIK could be involved in thymic positive selection of some αβ T cells and that NIK in non‐haematopoietic cells is important for the optimal development and/or maintenance of γδ T cells.     

IgA‐ and SIgA anti‐PR3 antibodies in serum versus organ involvement and disease activity in PR3‐ANCA‐associated vasculitis

Circulating immunoglobulin (Ig)A class anti‐neutrophil cytoplasm antibodies (ANCA) directed against proteinase 3 (PR3) have been reported in ANCA‐associated vasculitis (AAV) with mucosal involvement. However, secretory IgA (SIgA) PR3‐ANCA has not been reported previously. In this study we compared serum levels of SIgA PR3‐ANCA and IgA PR3‐ANCA with IgG PR3‐ANCA in relation to disease characteristics. Among 73 patients with AAV and PR3‐ANCA at diagnosis, 84% tested positive for IgG PR3‐ANCA, 47% for IgA‐ANCA and 36% for SIgA PR3‐ANCA at the time of sampling for the present study. IgA and IgG PR3‐ANCA were represented similarly among patients with different organ manifestations, i.e. upper airway, lung or kidney at time of sampling. However, SIgA PR3‐ANCA was significantly less represented among patients with upper airway involvement. During active disease, the proportions of IgA PR3‐ANCA and SIgA PR3‐ANCA‐positive patients were significantly higher compared to inactive disease. Eight patients were sampled prospectively during 24 months from onset of active disease. In these patients, IgA PR3‐ANCA and SIgA PR3‐ANCA turned negative more often after remission induction compared to IgG PR3‐ANCA. Our findings suggest that serum IgA PR3‐ANCA and SIgA PR3‐ANCA are related more closely to disease activity in AAV compared to IgG PR3‐ANCA. Further studies are required to reveal if this has implications for disease activity monitoring. The mean number of PR3‐ANCA isotypes increased along with disease activity, suggesting a global B cell activation during active disease.     

Comparative analysis of mediastinal fat‐associated lymphoid cluster development and lung cellular infiltration in murine autoimmune disease models and the corresponding normal control strains

We previously discovered mediastinal fat‐associated lymphoid clusters (MFALCs) as novel lymphoid clusters associated with mediastinal fat tissue in healthy mice. However, no data about their morphology in immune‐associated disease conditions, and their relationship with lung infiltration, is available to date. In the present study, we compared the morphological features of MFALCs in 4‐month‐old male murine autoimmune disease models (MRL/MpJ‐lpr mice and BXSB/MpJ‐Yaa mice) with those of the corresponding control strains (MRL/MpJ and BXSB/MpJ, respectively). In addition, we analysed their correlation with lung infiltration. Furthermore, immunohistochemistry for CD3, B220, Iba1, Gr1 and BrdU was performed to detect T cells and B cells, macrophages, granulocytes and proliferating cells, respectively. The spleen weight to body weight ratios and anti‐double‐stranded DNA autoantibody titres were found to be significantly higher in the autoimmune models than in the control strains. Furthermore, the autoimmune model presented prominent MFALCs, with a significantly greater ratio of lymphoid cluster area to total mediastinal fat tissue area, and more apparent diffused cellular infiltration into the lung lobes than the other studied strains. Higher numbers of T and B cells, macrophages and proliferating cells, but fewer granulocytes, were observed in the autoimmune models than in the control strains. Interestingly, a significant positive Pearson's correlation between the size of the MFALCs and the density of CD3‐, B220‐ and Iba1‐positive cells in the lung was observed. Therefore, our data suggest a potentially important role for MFALCs in the progression of lung disease. However, further investigation is required to clarify the pathological role of MFALCs in lung disease, especially in inflammatory disorders.     

Enrichment of IL‐17A+IFN‐γ+ and IL‐22+IFN‐γ+ T cell subsets is associated with reduction of NKp44+ILC3s in the terminal ileum of Crohn's disease patients

Crohn's disease (CD) is a chronic inflammatory condition of the human gastrointestinal tract whose aetiology remains largely unknown. Dysregulated adaptive immune responses and defective innate immunity both contribute to this process. In this study, we demonstrated that the interleukin (IL)‐17A⁺interferon (IFN)‐γ⁺ and IL‐22⁺IFN‐γ⁺ T cell subsets accumulated specifically in the inflamed terminal ileum of CD patients. These cells had higher expression of Ki‐67 and were active cytokine producers. In addition, their proportions within both the IL‐17A‐producer and IL‐22‐producer populations were increased significantly. These data suggest that IL‐17A⁺IFN‐γ⁺ and IL‐22⁺IFN‐γ⁺ T cell subsets might represent the pathogenic T helper type 17 (Th17) population in the context of intestinal inflammation for CD patients. In the innate immunity compartment we detected a dramatic alteration of both phenotype and function of the intestinal innate lymphoid cells (ILCs), that play an important role in the maintenance of mucosal homeostasis. In the inflamed gut the frequency of the NKp44^–CD117^–ILC1s subset was increased significantly, while the frequency of NKp44⁺ILC3s was reduced. Furthermore, the frequency of human leucocyte antigen D‐related (HLA‐DR)‐expressing‐NKp44⁺ILC3s was also reduced significantly. Interestingly, the decrease in the NKp44⁺ILC3s population was associated with an increase of pathogenic IL‐17A⁺IFN‐γ⁺ and IL‐22⁺IFN‐γ⁺ T cell subsets in the adaptive compartment. This might suggest a potential link between NKp44⁺ILC3s and the IL‐17A⁺IFN‐γ⁺ and IL‐22⁺IFN‐γ⁺ T cell subsets in the terminal ileum of CD patients.     

Age‐associated decrease in GDNF and its cognate receptor GFRα‐1 protein expression in human skin

Glial cell line‐derived neurotrophic factor (GDNF) and its cognate receptor (GFRα‐1) are expressed in normal human skin. They are involved in murine hair follicle morphogenesis and cycling control. We hypothesize that ‘GDNF and GFRα‐1 protein expression in human skin undergoes age‐associated alterations. To test our hypothesis, the expression of these proteins was examined in human skin specimens obtained from 30 healthy individuals representing three age groups: children (5–18 years), adults (19–60 years) and the elderly (61–81 years). Immunofluorescent and light microscopic immunohistologic analyses were performed using tyramide signal amplification and avidin–biotin complex staining methods respectively. GDNF mRNA expression was examined by RT‐PCR analysis. GDNF mRNA and protein as well as GFRα‐1 protein expressions were detected in normal human skin. We found significantly reduced epidermal expression of these proteins with ageing. In the epidermis, the expression was strong in the skin of children and declined gradually with ageing, being moderate in adults and weak in the elderly. In children and adults, the expression of both GDNF and GFRα‐1 proteins was strongest in the stratum basale and decreased gradually towards the surface layers where it was completely absent in the stratum corneum. In the elderly, GDNF and GFRα‐1 protein expression was confined to the stratum basale. In the dermis, both GDNF and GFRα‐1 proteins had strong expressions in the fibroblasts, sweat glands, sebaceous glands, hair follicles and blood vessels regardless of the age. Thus there is a decrease in epidermal GDNF and GFRα‐1 protein expression in normal human skin with ageing. Our findings suggest that the consequences of this is that GFRα‐1‐mediated signalling is altered during the ageing process. The clinical and therapeutic ramifications of these observations mandate further investigations.     

An in vivo ultrahigh field 14.1 T 1H‐MRS study on 6‐OHDA and α‐synuclein‐based rat models of Parkinson's disease: GABA as an early disease marker

The detection of Parkinson's disease (PD) in its preclinical stages prior to outright neurodegeneration is essential to the development of neuroprotective therapies and could reduce the number of misdiagnosed patients. However, early diagnosis is currently hampered by lack of reliable biomarkers. ¹H magnetic resonance spectroscopy (MRS) offers a noninvasive measure of brain metabolite levels that allows the identification of such potential biomarkers. This study aimed at using MRS on an ultrahigh field 14.1 T magnet to explore the striatal metabolic changes occurring in two different rat models of the disease. Rats lesioned by the injection of 6‐hydroxydopamine (6‐OHDA) in the medial‐forebrain bundle were used to model a complete nigrostriatal lesion while a genetic model based on the nigral injection of an adeno‐associated viral (AAV) vector coding for the human α‐synuclein was used to model a progressive neurodegeneration and dopaminergic neuron dysfunction, thereby replicating conditions closer to early pathological stages of PD. MRS measurements in the striatum of the 6‐OHDA rats revealed significant decreases in glutamate and N‐acetyl‐aspartate levels and a significant increase in GABA level in the ipsilateral hemisphere compared with the contralateral one, while the αSyn overexpressing rats showed a significant increase in the GABA striatal level only. Therefore, we conclude that MRS measurements of striatal GABA levels could allow for the detection of early nigrostriatal defects prior to outright neurodegeneration and, as such, offers great potential as a sensitive biomarker of presymptomatic PD. Copyright © 2012 John Wiley & Sons, Ltd.     

GATA3 germline variant is associated with CRLF2 expression and predicts outcome in pediatric B‐cell precursor acute lymphoblastic leukemia

The germline variant at rs3824662 in GATA3 is a risk locus for Philadelphia‐like acute lymphoblastic leukemia (Ph‐like ALL), the biological subtype of B‐cell precursor (BCP)‐ALL defined by a distinct gene expression profile and the presence of specific somatic aberrations including rearrangements of CRLF2. In this study, we investigated whether rs3824662 in GATA3 associates with CRLF2 expression in leukemic cells and predicts prognosis in pediatric BCP‐ALL patients treated according to the ALL Intercontinental Berlin‐Frankfurt‐Münster (IC BFM) 2009 (n = 645) and the ALL IC BFM 2002 (n = 216) protocols. High expression of CRLF2 was observed at both protein and mRNA levels (fourfold higher in AA than in CA + CC) among GATA3 AA variant carriers, independent of the presence of P2RY8‐CRLF2 fusion. Additionally, the AA variant at rs3824662 was a significant factor affecting minimal residual disease level at the end of induction phase and overall survival regardless of the risk group and the protocol. The germline variant at rs3824662 in GATA3 is a prognostic factor which associates with CRLF2 expression in leukemic cells supporting the hypothesis that GATA3 may have a regulatory effect on the CRLF2 pathway in pediatric BCP‐ALL.     

Distinct expression of interleukin (IL)‐36α, β and γ, their antagonist IL‐36Ra and IL‐38 in psoriasis,rheumatoid arthritis and Crohn's disease

Interleukin (IL)‐36α, IL‐36β and IL‐36γ are expressed highly in skin and are involved in the pathogenesis of psoriasis, while the antagonists IL‐36Ra or IL‐38, another potential IL‐36 inhibitor, limit uncontrolled inflammation. The expression and role of IL‐36 cytokines in rheumatoid arthritis (RA) and Crohn's disease (CD) is currently debated. Here, we observed that during imiquimod‐induced mouse skin inflammation and in human psoriasis, expression of IL‐36α, γ and IL‐36Ra, but not IL‐36β and IL‐38 mRNA, was induced and correlated with IL‐1β and T helper type 17 (Th17) cytokines (IL‐17A, IL‐22, IL‐23, CCL20). In mice with collagen‐induced arthritis and in the synovium of patients with RA, IL‐36α, β, γ, IL‐36Ra and IL‐38 were all elevated and correlated with IL‐1β, CCL3, CCL4 and macrophage colony‐stimulating factor (M‐CSF), but not with Th17 cytokines. In the colon of mice with dextran sulphate sodium‐induced colitis and in patients with CD, only IL‐36α, γ and IL‐38 were induced at relatively low levels and correlated with IL‐1β and IL‐17A. We suggest that only a minor subgroup of patients with RA (17–29%) or CD (25%) had an elevated IL‐36 agonists/antagonists ratio, versus 93% of patients with psoriasis. By immunohistochemistry, IL‐36 cytokines were produced by various cell types in skin, synovium and colonic mucosa such as keratinocytes, CD68⁺ macrophages, dendritic/Langerhans cells and CD79α⁺ plasma cells. In primary cultures of monocytes or inflammatory macrophages (M1), IL‐36β and IL‐36Ra were produced constitutively, but IL‐36α, γ and IL‐38 were produced after lipopolysaccharide stimulation. These distinct expression profiles may help to explain why only subgroups of RA and CD patients have a potentially elevated IL‐36 agonists/antagonists ratio.     

Expression of galectins‐1, ‐3 and ‐4 varies with strain and type of experimental colitis in mice

Galectins are increasingly the focus of biomedical research. Although they are involved at different stages in inflammation, data on galectins in colitis remain scarce. The aim of this study was to determine and compare the expression of galectins in acute and chronic experimental colitis in mice. Immunohistochemistry for galectins-1, -3 and -4 was performed on colon tissue from C57BL/6 and BALB/c mice with acute dextran sodium sulphate colitis and from 129 Sv/Ev IL-10 knock-out (IL-10^−/−) mice. From these three mouse strains, we first detected major differences in galectin expression related to the genetic background in the control animals. With regard to inflammation, chronic colitis in IL-10^−/− mice was associated with increased galectin-4 expression; in contrast with the two other models, no galectin-1 and -3 alterations were observed in IL-10^−/− mice. Acute colitis in C57BL/6 and BALB/c mice showed increased galectin-3 expression in the lamina propria and the crypt epithelium, together with a decreased nuclear expression. These results suggest an involvement of galectins in the development and perpetuation of colonic inflammation and illustrate that the choice of the mouse strain for studying galectins might influence the outcome of the experiments.     

Plasma levels of mannan‐binding lectin (MBL)‐associated serine proteases (MASPs) and MBL‐associated protein in cardio‐ and cerebrovascular diseases

Growing evidence suggests a prominent role of the complement system in the pathogenesis of cardio‐ and cerebrovascular diseases (CVD). Mannan‐binding lectin‐associated serine proteases (MASPs) MASP‐1 and MASP‐2 of the complement lectin pathway contribute to clot formation and may represent an important link between inflammation and thrombosis. MBL‐associated protein MAp44 has shown cardioprotective effects in murine models. However, MAp44 has never been measured in patients with CVD and data on MASP levels in CVD are scarce. Our aim was to investigate for the first time plasma levels of MAp44 and MASP‐1, ‐2, ‐3 concomitantly in patients with CVD. We performed a pilot study in 50 healthy volunteers, in stable coronary artery disease (CAD) patients with one‐vessel (n = 51) or three‐vessel disease (n = 53) and age‐matched controls with normal coronary arteries (n = 53), 49 patients after myocardial infarction (MI) and 66 patients with acute ischaemic stroke. We measured MAp44 and MASP‐1 levels by in‐house time‐resolved immunofluorometric assays. MASP‐2 and MASP‐3 levels were measured using commercial enzyme‐linked immunosorbent assay kits. MASP‐1 levels were highest in subacute MI patients and lowest in acute stroke patients. MASP‐2 levels were lower in MI and stroke patients compared with controls and CAD patients. MASP‐3 and MAp44 levels did not differ between groups. MASP or MAp44 levels were not associated with severity of disease. MASP and MAp44 levels were associated with cardiovascular risk factors including dyslipidaemia, obesity and hypertension. Our results suggest that MASP levels may be altered in vascular diseases. Larger studies are needed to confirm our results and elucidate the underlying mechanisms.     

Mechanisms of chorioamnionitis‐associated preterm birth: interleukin‐1β inhibits progesterone receptor expression in decidual cells

In chorioamnionitis (CAM), a major cause of preterm birth (PTB), maternal–fetal inflammation of the decidua and amniochorion cause the release of cytokines that elicit cervical ripening, fetal membrane rupture and myometrial activation. We posit that this inflammatory milieu triggers PTB by inhibiting progesterone receptor (PR) expression and increasing decidual prostaglandin (PG) production. Immunohistochemical staining of decidua detected significantly lower PR levels in decidual cells (DCs) from CAM‐complicated PTB. Incubation of DCs with IL‐1β decreased PR expression and significantly increased PGE₂ and PGF_2α production and COX‐2 expression. The addition of PGF_2α to DC cultures also suppressed PR expression. However, the COX inhibitor, indomethacin, did not reverse IL‐1β suppression of PR expression in DC cultures. Although IL‐1β treatment activated the NF‐K B, ERK1/2 and p38 MAPK signalling cascades in DCs, inhibition of ERK1/2 MAPK signalling alone was sufficient to completely reverse the suppression of PR levels by IL‐1β. These findings suggest that CAM‐associated PTB is induced at least in part by IL‐1β‐mediated functional progesterone withdrawal. Copyright © 2015 Pathological Society of Great Britain and Ireland. Published by John Wiley & Sons, Ltd.     

5,7‐dihydroxy‐3,4,6‐trimethoxyflavone inhibits the inflammatory effects induced by Bacteroides fragilis enterotoxin via dissociating the complex of heat shock protein 90 and IκBα and IκB kinase‐γ in intestinal epithelial cell culture

Enterotoxin produced by enterotoxigenic Bacteroides fragilis (BFT) has been associated with mucosal inflammation and diarrhoeal diseases. In this study, the anti‐inflammatory molecular mechanism of 5,7‐dihydroxy‐3,4,6‐trimethoxyflavone (eupatilin) was characterized in an HT‐29 intestinal epithelial cell line stimulated with BFT. Pre‐treatment of HT‐29 cells with eupatilin decreased the production significantly of both interleukin (IL)‐8 and prostaglandin E₂ induced by BFT in a dose‐dependent manner. BFT‐activated nuclear factor‐kappaB (NF‐κB) signals in HT‐29 cells and pretreatment with eupatilin suppressed NF‐κB activation that resulted in the significant inhibition of IL‐8 and cyclo‐oxygenase‐2 expression. BFT‐induced phosphorylation of both IκBα and IκB kinase (IKK) signals was prevented in eupatilin‐pretreated HT‐29 cells. Transfection of siRNA for IKK‐α and IKK‐β decreased the production of IL‐8 and prostaglandin E₂; however, the transfection of IKK‐β siRNA showed a more significant reduction of BFT‐induced IκBα phosphorylation compared with that of IKK‐α siRNA. In addition, herbimycin A, a specific inhibitor of heat shock protein 90 (Hsp90), decreased the BFT‐induced activation of IKK and NF‐κB, suggesting that Hsp90 is associated with a pathway of IKK‐NF‐κB‐IL‐8/cyclo‐oxygenase‐2 gene signalling. Furthermore, eupatilin dissociated the complex between Hsp90 and IKK‐γ in BFT‐stimulated HT‐29 cells. These results suggest that eupatilin can suppress the NF‐κB signalling pathway by targeting the Hsp90‐IKK‐γ complex in intestinal epithelial cells and may attenuate BFT‐induced inflammatory responses.