Peroxisome proliferator‐activated receptor‐β/δ modulates mast cell phenotype

The peroxisome proliferator‐activated receptor‐β/δ (PPARβ/δ) is known to have multiple anti‐inflammatory effects, typically observed in endothelial cells, macrophages, T cells and B cells. Despite the fact that mast cells are important mediators of inflammation, to date, the role of PPARβ/δ in mast cells has not been examined. Hence, the present study examined the hypothesis that PPARβ/δ modulates mast cell phenotype. Bone‐marrow‐derived mast cells (BMMCs) and peritoneal mast cells from Pparβ/δ^+/+ mice expressed higher levels of high‐affinity IgE receptor (FcεRI) compared with Pparβ/δ^−/− mice. BMMCs from Pparβ/δ^+/+ mice also exhibited dense granules, associated with higher expression of enzymes and proteases compared with Pparβ/δ^−/− mice. Resting BMMCs from Pparβ/δ^+/+ mice secreted lower levels of inflammatory cytokines, associated with the altered activation of phospholipase Cγ1 and extracellular signal‐regulated kinases compared with Pparβ/δ^−/− mice. Moreover, the production of cytokines by mast cells induced by various stimuli was highly dependent on PPARβ/δ expression. This study demonstrates that PPARβ/δ is an important regulator of mast cell phenotype.     

The Warburg effect in mycobacterial granulomas is dependent on the recruitment and activation of macrophages by interferon‐γ

Granulomas are the hallmark of mycobacterial disease. Here, we demonstrate that both the cell recruitment and the increased glucose consumption in granulomatous infiltrates during Mycobacterium avium infection are highly dependent on interferon‐γ (IFN‐γ). Mycobacterium avium‐infected mice lacking IFN‐γ signalling failed to developed significant inflammatory infiltrations and lacked the characteristic uptake of the glucose analogue fluorine‐18‐fluorodeoxyglucose (FDG). To assess the role of macrophages in glucose uptake we infected mice with a selective impairment of IFN‐γ signalling in the macrophage lineage (MIIG mice). Although only a partial reduction of the granulomatous areas was observed in infected MIIG mice, the insensitivity of macrophages to IFN‐γ reduced the accumulation of FDG. In vivo, ex vivo and in vitro assays showed that macrophage activated by IFN‐γ displayed increased rates of glucose uptake and in vitro studies showed also that they had increased lactate production and increased expression of key glycolytic enzymes. Overall, our results show that the activation of macrophages by IFN‐γ is responsible for the Warburg effect observed in organs infected with M. avium.     

αEβ7 and α4β7 integrins associated with intraepithelial and mucosal homing,are expressed on macrophages

The two β₇ integrins α_Eβ₇ and α₄β₇ are the most recently described members of the integrins participating in intercellular binding. Their expression has been shown to be restricted to leukocytes and they have been suggested to be predominantly found in lymphocytes associating with the epithelium. Expression of β₇ has mainly been studied on lymphocytes whereas macrophages have been reported not to express the β₇ integrins. In this paper we have studied the expression of β₇ integrins in monocytoid cells. The myelomonocytic cell lines HL-60 and THP-1 did not express β₇ mRNA or protein, but differentiation of these cell lines to macrophages with phorbol 12-myristate 13-acetate (PMA) led to a strong induction of the β₇ mRNA expression. A clear but less pronounced up-regulation of β₇ mRNA-expression was also seen after treatment of HL-60 and THP-1 cells with interferon-γ (IFN-γ). However, its up-regulating effect on the surface expression of α₄β₇ and α_E7 complexes (detected by the monoclonal antibodies Act I and HML-1, respectively) exceeded that observed with PMA. To verify the in vitro cell line observations with normal cells, we also studied peripheral blood monocytes and tissue macrophages. Peripheral blood monocytes were Act I^? and HML-1^? in flow cytometry, but their expression was increased after a 72-h culture in the presence of PMA or IFN-γ. Also, several Act I⁺ and HML-1⁺ macrophages were found in immunohistochemical stainings of both liver and edemic lung biopsies as well as in lymph node sinuses. We therefore conclude that while monocytes do not express β₇ integrins the more differentiated cells of the monocyte-macrophage lineage do express both the α₄β₇ and α_Eβ₇ integrins, which might play a role in their intraepithelial homing.     

Pro‐migratory and TGF‐β‐activating functions of αvβ6 integrin in pancreatic cancer are differentially regulated via an Eps8‐dependent GTPase switch

The integrin αvβ6 is up‐regulated in numerous carcinomas, where expression commonly correlates with poor prognosis. αvβ6 promotes tumour invasion, partly through regulation of proteases and cell migration, and is also the principal mechanism by which epithelial cells activate TGF‐β1; this latter function complicates therapeutic targeting of αvβ6, since TGF‐β1 has both tumour‐promoting and ‐suppressive effects. It is unclear how these different αvβ6 functions are linked; both require actin cytoskeletal reorganization, and it is suggested that tractive forces generated during cell migration activate TGF‐β1 by exerting mechanical tension on the ECM‐bound latent complex. We examined the functional relationship between cell invasion and TGF‐β1 activation in pancreatic ductal adenocarcinoma (PDAC) cells, and confirmed that both processes are αvβ6‐dependent. Surprisingly, we found that cellular functions could be biased towards either motility or TGF‐β1 activation depending on the presence or absence of epidermal growth factor receptor pathway substrate 8 (Eps8), a regulator of actin remodelling, endocytosis, and GTPase activation. Similar to αvβ6, we found that Eps8 was up‐regulated in >70% of PDACs. In complex with Abi1/Sos1, Eps8 regulated αvβ6‐dependent cell migration through activation of Rac1. Down‐regulation of Eps8, Sos1 or Rac1 suppressed cell movement, while simultaneously increasing αvβ6‐dependent TGF‐β1 activation. This latter effect was modulated through increased cell tension, regulated by Rho activation. Thus, the Eps8/Abi1/Sos1 tricomplex acts as a key molecular switch altering the balance between Rac1 and Rho activation; its presence or absence in PDAC cells modulates αvβ6‐dependent functions, resulting in a pro‐migratory (Rac1‐dependent) or a pro‐TGF‐β1 activation (Rho‐dependent) functional phenotype, respectively. © 2017 The Authors. The Journal of Pathology published by John Wiley & Sons Ltd on behalf of Pathological Society of Great Britain and Ireland.     

Involvement of α‐ and β‐catenins and E‐cadherin in the development of mammary phyllodes tumours

Tsang J Y S, Mendoza P, Lam C C F, Yu A M C, Putti T C, Karim R Z, Scolyer R A, Lee C S, Tan P H & Tse G M
(2012) Histopathology  61, 667–674 Involvement of α‐ and β‐catenins and E‐cadherin in the development of mammary phyllodes tumours Aims: Phyllodes tumours (PT) are rare but clinically important fibroepithelial tumours of the breast. β‐Catenin, a key component in Wnt signalling, has been shown to be important in the development of PT. It also functions as a component of the cadherin complex, which may therefore be implicated in PT pathogenesis. By assessing stromal α‐catenin, β‐catenin and E‐cadherin expression in 158 PT cases using immunohistochemistry and examining associations with clinicopathological features, we aimed to determine the role of these proteins in PT pathogenesis. Methods and results: Cytoplasmic β‐catenin correlated with α‐catenin expression. A significantly higher expression of both markers was observed in borderline than in benign PT (P = 0.003 and <0.001, respectively), but a lower level was found in malignant PT. Cytoplasmic E‐cadherin expression was significantly higher in borderline and malignant than in benign PT (P = 0.001 and 0.012, respectively), but was not correlated with other markers. Both E‐cadherin and α‐catenin showed stronger correlations with histological parameters than β‐catenin. α‐Catenin showed a significant correlation with recurrence (P = 0.005 and 0.016, respectively). Conclusions: α‐ and β‐catenins may be important in the early stages of PT development, while E‐cadherin may be required for malignant development. The correlation of α‐catenin expression with tumour recurrence may be relevant in predicting PT behaviour.     

Synthesis and Characterization of Polyrotaxanes Comprising γ‐CDs and Distal Azide‐Terminated PHEMA Using Propargylamine Monosubstituted β‐CDs as End Stoppers

To highlight whether γ‐cyclodextrins (CDs) facilitate propargylamine monosubstituted β‐CDs (PA‐β‐CDs) as end stoppers to get threaded onto a distal azide terminated poly(2‐hydroxyethylmethacrylate) (PHEMA) homopolymer (PH‐46‐2N₃) to create linear and hyperbranched polyrotaxanes (PRs) via the in situ copper‐catalyzed azide/alkyne cycloaddition (CuAAC), PH‐46‐2N₃ is self‐assembled with a varying amount of γ‐CDs in water and then subjected the CuAAC with PA‐β‐CDs to end‐cap the resulting γ‐CD‐PHEMA polypseudorotaxanes (PPRs) into the γ‐CD‐PHEMA PRs. It demonstrates that γ‐CDs cannot promote PA‐β‐CDs to be entrapped on the PHEMA chain most likely due to their different cavity size and molecular framework and linear PRs are always formed with up to 29% γ‐CD coverage ratio along the PHEMA axis thereof.     

Inhibition of murine γδ lymphocyte expansion and effector function by regulatory αβ T cells is cell‐contact‐dependent and sensitive to GITR modulation

γδ T cells are highly cytolytic lymphocytes that produce large amounts of pro‐inflammatory cytokines during immune responses to multiple pathogens. Furthermore, their ability to kill tumor cells has fueled the development of γδ‐T‐cell‐based cancer therapies. Thus, the regulation of γδ‐T‐cell activity is of great biological and clinical relevance. Here, we show that murine CD4⁺CD25⁺ αβ T cells, the vast majority of which express the Treg marker, Foxp3, abolish key effector functions of γδ T cells, namely the production of the pro‐inflammatory cytokines, IFN‐γ and IL‐17, cytotoxicity, and lymphocyte proliferation in vitro and in vivo. We further show that suppression is dependent on cellular contact between Treg and γδ T cells, results in the induction of an anergic state in γδ lymphocytes, and can be partially reversed by manipulating glucocorticoid‐induced TNF receptor‐related protein (GITR) signals. Our data collectively dissect a novel mechanism by which the expansion and pro‐inflammatory functions of γδ T cells are regulated.     

Galectin‐3 is an amplifier of the interleukin‐1β‐mediated inflammatory response in corneal keratinocytes

Interleukin‐1β (IL‐1β) is a potent mediator of innate immunity commonly up‐regulated in a broad spectrum of inflammatory diseases. When bound to its cell surface receptor, IL‐1β initiates a signalling cascade that cooperatively induces the expression of canonical IL‐1 target genes such as IL‐8 and IL‐6. Here, we present galectin‐3 as a novel regulator of IL‐1β responses in corneal keratinocytes. Using the SNAP‐tag system and digitonin semi‐permeabilization, we show that recombinant exogenous galectin‐3 binds to the plasma membrane of keratinocytes and is internalized into cytoplasmic compartments. We find that exogenous galectin‐3, but not a dominant negative inhibitor of galectin‐3 polymerization lacking the N‐terminal domain, exacerbates the response to IL‐1β by stimulating the secretion of inflammatory cytokines. The activity of galectin‐3 could be reduced by a novel d ‐galactopyranoside derivative targeting the conserved galactoside‐binding site of galectins and did not involve interaction with IL‐1 receptor 1 or the induction of endogenous IL‐1β. Consistent with these observations, we demonstrate that small interfering RNA‐mediated suppression of endogenous galectin‐3 expression is sufficient to impair the IL‐1β‐induced secretion of IL‐8 and IL‐6 in a p38 mitogen‐activated protein kinase‐independent manner. Collectively, our findings provide a novel role for galectin‐3 as an amplifier of IL‐1β responses during epithelial inflammation through an as yet unidentified mechanism.     

Interleukin‐17‐producing γδ+ T cells protect NOD mice from type 1 diabetes through a mechanism involving transforming growth factor‐β

Whether interleukin (IL)‐17 promotes a diabetogenic response remains unclear. Here we examined the effects of neutralization of IL‐17 on the progress of adoptively transferred diabetes. IL‐17‐producing cells in non‐obese diabetic (NOD) mice were identified and their role in the pathogenesis of diabetes examined using transfer and co‐transfer assays. Unexpectedly, we found that in vivo neutralization of IL‐17 did not protect NOD–severe combined immunodeficiency (SCID) mice against diabetes transferred by diabetic splenocytes. In NOD mice, γδ⁺ T cells were dominated by IL‐17‐producing cells and were found to be the major source of IL‐17. Interestingly, these IL‐17‐producing γδ T cells did not exacerbate diabetes in an adoptive transfer model, but had a regulatory effect, protecting NOD mice from diabetes by up‐regulating transforming growth factor (TGF)‐β production. Our data suggest that the presence of IL‐17 did not increase the chance of the development of diabetes; γδ T cells protected NOD mice from diabetes in a TGF‐β‐dependent manner, irrespective of their role as major IL‐17 producers.     

Mutations in the dopamine β‐hydroxylase gene are associated with human norepinephrine deficiency

Norepinephrine (NE), a key neurotransmitter of the central and peripheral nervous systems, is synthesized by dopamine β‐hydroxylase (DBH) that catalyzes oxidation of dopamine (DA) to NE. NE deficiency is a congenital disorder of unknown etiology, in which affected patients suffer profound autonomic failure. Biochemical features of the syndrome include undetectable tissue and circulating levels of NE and epinephrine, elevated levels of DA, and undetectable levels of DBH. Here, we report identification of seven novel variants including four potentially pathogenic mutations in the human DBH gene (OMIM 223360) from analysis of two unrelated patients and their families. Both patients are compound heterozygotes for variants affecting expression of DBH protein. Each carries one copy of a T→C transversion in the splice donor site of DBH intron 1, creating a premature stop codon. In patient 1, there is a missense mutation in DBH exon 2. Patient 2 carries missense mutations in exons 1 and 6 residing in cis. We propose that NE deficiency is an autosomal recessive disorder resulting from heterogeneous molecular lesions at DBH. © 2002 Wiley‐Liss, Inc.