Coordinated action of microsomal prostaglandin E synthase-1 and prostacyclin synthase on contact hypersensitivity.

Microsomal prostaglandin (PG) E synthase-1 (mPGES-1) and prostacyclin (PGI2) synthase (PGIS) are PG terminal synthases that work downstream of cyclooxygenase and synthesize PGE2 and PGI2, respectively. Although the involvement of PG receptors in acquired cutaneous immune responses was recently shown, the roles of these PG terminal synthases remain unclear. To identify the pathophysiological roles of mPGES-1 and PGIS in cutaneous immune systems, we applied contact hypersensitivity (CHS) to mPGES-1 and PGIS knockout (KO) mice as a model of acquired immune responses. Mice were treated with 1-fluoro-2,4-dinitrobenzene (DNFB) and evaluated for ear thickness and histopathological features. The results showed that the severity of ear swelling in both gene-deficient mice was much lower than that in wild-type (WT) mice. Histological examination of DNFB-treated ears showed that inflammatory cell infiltration and edema in the dermis were also less apparent in both genotypic mice. LC-MS analysis further showed that the increment in PGE2 levels in DNFB-treated ear tissue was reduced in mPGES-1 KO mice, and that 6-keto PGF1α (a stable metabolite of PGI2) was not detected in PGIS KO mice. Furthermore, we made bone marrow (BM) chimera and found that transplantation of WT mouse-derived BM cells restored the impaired CHS response in mPGES-1 KO mice but did not restore the response in PGIS KO mice. These results indicated that mPGES-1 in BM-derived cells and PGIS in non-BM-derived cells might play critical roles in DNFB-induced CHS. mPGES-1-derived PGE2 and PGIS-derived PGI2 might coordinately promote acquired cutaneous immune responses.

Non-invasive In Vivo Fluorescence Optical Imaging of Inflammatory MMP Activity Using an Activatable Fluorescent Imaging Agent.

This paper describes a non-invasive method for imaging matrix metalloproteinases (MMP)-activity by an activatable fluorescent probe, via in vivo fluorescence optical imaging (OI), in two different mouse models of inflammation: a rheumatoid arthritis (RA) and a contact hypersensitivity reaction (CHR) model. Light with a wavelength in the near infrared (NIR) window (650 - 950 nm) allows a deeper tissue penetration and minimal signal absorption compared to wavelengths below 650 nm. The major advantages using fluorescence OI is that it is cheap, fast and easy to implement in different animal models. Activatable fluorescent probes are optically silent in their inactivated states, but become highly fluorescent when activated by a protease. Activated MMPs lead to tissue destruction and play an important role for disease progression in delayed-type hypersensitivity reactions (DTHRs) such as RA and CHR. Furthermore, MMPs are the key proteases for cartilage and bone degradation and are induced by macrophages, fibroblasts and chondrocytes in response to pro-inflammatory cytokines. Here we use a probe that is activated by the key MMPs like MMP-2, -3, -9 and -13 and describe an imaging protocol for near infrared fluorescence OI of MMP activity in RA and control mice 6 days after disease induction as well as in mice with acute (1x challenge) and chronic (5x challenge) CHR on the right ear compared to healthy ears.

Expression and Function of Group IIE Phospholipase A2 in Mouse Skin.

Recent studies using knock-out mice for various secreted phospholipase A2 (sPLA2) isoforms have revealed their non-redundant roles in diverse biological events. In the skin, group IIF sPLA2 (sPLA2-IIF), an "epidermal sPLA2" expressed in the suprabasal keratinocytes, plays a fundamental role in epidermal-hyperplasic diseases such as psoriasis and skin cancer. In this study, we found that group IIE sPLA2 (sPLA2-IIE) was expressed abundantly in hair follicles and to a lesser extent in basal epidermal keratinocytes in mouse skin. Mice lacking sPLA2-IIE exhibited skin abnormalities distinct from those in mice lacking sPLA2-IIF, with perturbation of hair follicle ultrastructure, modest changes in the steady-state expression of a subset of skin genes, and no changes in the features of psoriasis or contact dermatitis. Lipidomics analysis revealed that sPLA2-IIE and -IIF were coupled with distinct lipid pathways in the skin. Overall, two skin sPLA2s, hair follicular sPLA2-IIE and epidermal sPLA2-IIF, play non-redundant roles in distinct compartments of mouse skin, underscoring the functional diversity of multiple sPLA2s in the coordinated regulation of skin homeostasis and diseases.

Expression of activation-induced cytidine deaminase enhances the clearance of pneumococcal pneumonia: evidence of a subpopulation of protective anti-pneumococcal B1a cells.

We describe a protective early acquired immune response to pneumococcal pneumonia that is mediated by a subset of B1a cells. Mice deficient in B1 cells (xid), or activation-induced cytidine deaminase (AID(-/-) ), or invariant natural killer T (iNKT) cells (Jα18(-/-) ), or interleukin-13 (IL-13(-/-) ) had impaired early clearance of pneumococci in the lung, compared with wild-type mice. In contrast, AID(-/-) mice adoptively transferred with AID(+/+) B1a cells, significantly cleared bacteria from the lungs as early as 3 days post infection. We show that this early bacterial clearance corresponds to an allergic contact sensitivity-like cutaneous response, probably due to a subpopulation of initiating B1a cells. In the pneumonia model, these B1a cells were found to secrete higher affinity antigen-specific IgM. In addition, as in contact sensitivity, iNKT cells were required for the anti-pneumococcal B1a cell initiating response, probably through early production of IL-13, given that IL-13(-/-) mice also failed to clear infection. Our study is the first to demonstrate the importance of AID in generating an appropriate B1a cell response to pathogenic bacteria. Given the antibody affinity and pneumonia resistance data, natural IgM produced by conventional B1a cells are not responsible for pneumonia clearance compared with the AID-dependent subset.

Hyaluronan digestion controls DC migration from the skin.

The breakdown and release of hyaluronan (HA) from the extracellular matrix has been hypothesized to act as an endogenous signal of injury. To test this hypothesis, we generated mice that conditionally overexpressed human hyaluronidase 1 (HYAL1). Mice expressing HYAL1 in skin either during early development or by inducible transient expression exhibited extensive HA degradation, yet displayed no evidence of spontaneous inflammation. Further, HYAL1 expression activated migration and promoted loss of DCs from the skin. We subsequently determined that induction of HYAL1 expression prior to topical antigen application resulted in a lack of an antigenic response due to the depletion of DCs from the skin. In contrast, induction of HYAL1 expression concurrent with antigen exposure accelerated allergic sensitization. Administration of HA tetrasaccharides, before or simultaneously with antigen application, recapitulated phenotypes observed in HYAL1-expressing animals, suggesting that the generation of small HA fragments, rather than the loss of large HA molecules, promotes DC migration and subsequent modification of allergic responses. Furthermore, mice lacking TLR4 did not exhibit HA-associated phenotypes, indicating that TLR4 mediates these responses. This study provides direct evidence that HA breakdown controls the capacity of the skin to present antigen. These events may influence DC function in injury or disease and have potential to be exploited therapeutically for modification of allergic responses.

Topical cholesterol treatment ameliorates hapten-evoked cutaneous hypersensitivity by sustaining expression of 11ß-HSD1 in epidermis.

Changes in the stratum corneum extracellular matrix impair epidermal barrier function and may cause dermatoses. The aim of this study was to examine the effect of exogenous cholesterol application on skin barrier function and cutaneous inflammation. Skin barrier-disrupted or hapten-stimulated mice were treated with topical cholesterol. The effect of topical cholesterol application on an oxazolone (OXA)-induced hypersensitivity reaction was evaluated. Topical application of cholesterol efficiently decreased transepidermal water loss in areas of barrier-disrupted skin and ameliorated OXA-induced cutaneous hypersensitivity. These favourable effects may have resulted from sustained expression of 11ß-hydroxysteroid dehydrogenase type 1 (11ß-HSD1) in the cholesterol-treated skin. As 11ß-HSD1 is known to produce active cortisol, topical cholesterol may attenuate contact hypersensitivity by normalizing secretion of hormonally active cortisol from the skin.

Histopathological and immunohistochemical evaluation of nitrogen mustard-induced cutaneous effects in SKH-1 hairless and C57BL/6 mice.

Sulfur mustard (SM) is a vesicant warfare agent which causes severe skin injuries. Currently, we lack effective antidotes against SM-induced skin injuries, in part due to lack of appropriate animal model(s) that can be used for efficacy studies in laboratory settings to identify effective therapies. Therefore, to develop a relevant mouse skin injury model, we examined the effects of nitrogen mustard (NM), a primary vesicant and a bifunctional alkylating agent that induces toxic effects comparable to SM. Specifically, we conducted histopathological and immunohistochemical evaluation of several applicable cutaneous pathological lesions following skin NM (3.2mg) exposure for 12-120h in SKH-1 and C57BL/6 mice. NM caused a significant increase in epidermal thickness, incidence of microvesication, cell proliferation, apoptotic cell death, inflammatory cells (neutrophils, macrophages and mast cells) and myleoperoxidase activity in the skin of both mouse strains. However, there was a more prominent NM-induced increase in epidermal thickness, and macrophages and mast cell infiltration, in SKH-1 mice relative to what was seen in C57BL/6 mice. NM also caused collagen degradation and edema at early time points (12-24h); however, at later time points (72 and 120h), dense collagen staining was observed, indicating either water loss or start of integument repair in both the mouse strains. This study provides quantitative measurement of NM-induced histopathological and immunohistochemical cutaneous lesions in both hairless and haired mouse strains that could serve as useful tools for screening and identification of effective therapies for treatment of skin injuries due to NM and SM.

Suppression of phagosome proteolysis and Matrigel migration with the α2-adrenergic receptor agonist dexmedetomidine in murine dendritic cells.

Dexmedetomidine is a highly-selective α2-adrenergic receptor agonist used for sedation of critically ill patients in an intensive care setting. Dendritic cells (DCs) in peripheral tissues sense certain foreign antigens and ingest and process them, while migrating to the regional lymph node. Then, DCs present the processed antigen on their surface to stimulate the clonal proliferation of cognitive lymphocytes, leading to the establishment of adaptive immunity. In murine bone marrow-derived DCs, dexmedetomidine significantly delayed the intracellular proteolytic degradation of ovalbumin, while it did not affect phagocytosis, decreased the expression of the surface molecules I-A(b) and CD86, and suppressed cognitive helper T-cell proliferation. Furthermore, dexmedetomidine significantly suppressed DC migration both in vitro, using a Matrigel migration assay, and in vivo, using a foot pad-popliteal lymph node migration assay, which may be ascribed to the inhibition of type IV collagenase/gelatinase activity. Finally, vaccination with dexmedetomidine-treated DCs significantly suppressed the contact hypersensitivity reaction in vivo. These results indicate that dexmedetomidine may suppress immunity by inhibiting DC antigen processing/presentation and migration.

Lymphoid tissue phospholipase A2 group IID resolves contact hypersensitivity by driving antiinflammatory lipid mediators.

Resolution of inflammation is an active process that is mediated in part by antiinflammatory lipid mediators. Although phospholipase A2 (PLA2) enzymes have been implicated in the promotion of inflammation through mobilizing lipid mediators, the molecular entity of PLA2 subtypes acting upstream of antiinflammatory lipid mediators remains unknown. Herein, we show that secreted PLA2 group IID (PLA2G2D) is preferentially expressed in CD11c(+) dendritic cells (DCs) and macrophages and displays a pro-resolving function. In hapten-induced contact dermatitis, resolution, not propagation, of inflammation was compromised in skin and LNs of PLA2G2D-deficient mice (Pla2g2d(-/-)), in which the immune balance was shifted toward a proinflammatory state over an antiinflammatory state. Bone marrow-derived DCs from Pla2g2d(-/-) mice were hyperactivated and elicited skin inflammation after intravenous transfer into mice. Lipidomics analysis revealed that PLA2G2D in the LNs contributed to mobilization of a pool of polyunsaturated fatty acids that could serve as precursors for antiinflammatory/pro-resolving lipid mediators such as resolvin D1 and 15-deoxy-Δ(12,14)-prostaglandin J2, which reduced Th1 cytokine production and surface MHC class II expression in LN cells or DCs. Altogether, our results highlight PLA2G2D as a "resolving sPLA2" that ameliorates inflammation through mobilizing pro-resolving lipid mediators and points to a potential use of this enzyme for treatment of inflammatory disorders.

Monocyte/macrophage MMP-14 modulates cell infiltration and T-cell attraction in contact dermatitis but not in murine wound healing.

Monocyte infiltration and subsequent differentiation into macrophages has been shown to be crucial during inflammation. Metalloproteinases are key enzymes in these processes, but the role of MMP-14 remains largely unknown. To address this question, we generated animals with conditional ablation of MMP-14 in the monocyte/macrophage lineage. The knockout (KO) animals (LysM-Cre(+)MMP-14(fl/fl)) were healthy and fertile, and neither skin architecture nor differentiation was altered from the wild type (WT). Full-thickness wounds were induced, and careful analysis of wound closure, granulation tissue formation, and angiogenesis revealed no differences between genotypes. The inflammatory response, monocyte influx, differentiation, and lymphocyte infiltration was also similar in KO and WT animals. Ear swelling after croton oil application was similar in the KO and WT animals. Interestingly, the number of monocytes and macrophages, as well as of T cells, was significantly reduced in KO animals, compared with WT animals. Similarly, both P-selectin and proinflammatory cytokine levels were markedly reduced in KO animals. In vitro, the migratory capacity of isolated KO macrophages was significantly impaired on fibronectin, a substrate of MMP-14. These data point to a role of MMP-14 during transendothelial migration of monocytes and T-cell attraction.

Photoimmune protective effect of the phytoestrogenic isoflavonoid equol is partially due to its antioxidant activities.

Topical application of lotions containing the phytoestrogenic isoflavonoid equol have been reported to protect mice against UV radiation-induced inflammation, immune suppression and photocarcinogenesis. The photoimmune protective property was shown to depend on equol's activation of oestrogen receptor signalling in the skin. However, isoflavones are also recognised for their antioxidant properties in biological systems. As endogenous cutaneous antioxidant enzymes including the inducible stress protein haem oxygenase (HO)-1, have photoprotective efficacy, this study in the Skh:hr-1 hairless mouse seeks evidence for an antioxidant role for equol in contributing to its photoimmune protection. Oxidative stress has been measured as UVA-induced lipid peroxidation in the mouse skin, and was dose-dependently inhibited by topical equol. Inhibition of the UVA (320-400 nm)-inducible HO activity significantly reduced the level of equol protection against lipid peroxidation, thereby attributing a component of equol's lipid protection capacity to this stress enzyme. It was consistent that topical equol enhanced the level of HO induction by UVA irradiation in both skin and liver. Subsequently, the dose-dependent protection by topical equol lotions against solar simulated UV radiation induced immunosuppression, measured by the contact hypersensitivity reaction, was found also to be partially reduced by the inhibition of HO activity. Therefore, in addition to the activation by equol of oestrogenic signalling pathways for photoprotection, this isoflavonoid also provides UV-protective antioxidant effects that depend partially on HO-1 induction.

Attenuation of experimental TPA-induced dermatitis by acetylenic acetogenins is associated with inhibition of PLA2 activity.

Topical application of acetylenic acetogenins (AAG) from avocado (0.01-1.0mg/ear), was effective in inhibiting both 12-O-tetradecanoylphorbol-13-acetate (TPA)-induced mouse ear edema, and in decreasing tissue myeloperoxidase activity (indicative of polymorphonuclear leukocyte influx). Maximum edema inhibition of 72% was achieved by AAG at lower concentration (0.6 mg/ear) than that of the anti-inflammatory drug indomethacin (2mg/ear). The maximum myeloperoxidase inhibition of 60% was obtained at AAG concentration 0.1mg/ear. Chemical reduction of unsaturated bonds in aliphatic chain of AAG molecules almost abrogated inhibition effect of AAG at high concentration. In vitro AAG administration reduced secretion of PGE(2) in TPA-induced keratinocytes, and inhibited total PLA(2) and sPLA(2) activities in HaCaT cells. The results indicate a topical anti-inflammatory effect of acetylenic acetogenins which is associated with inhibition of PLA(2) activity in skin.

The involvement of TRPA1 channel activation in the inflammatory response evoked by topical application of cinnamaldehyde to mice.

AIMS: In the present work, we characterize the inflammatory process induced by the topical application of cinnamaldehyde on the skin of mice and verify the participation of transient receptor potential A1 TRPA1 receptors in this process. MAIN METHODS: We measured mouse ear edema and sensitization/desensitization after topical application of cinnamaldehyde or/and capsaicin. We also quantified cellular infiltration through myeloperoxidase (MPO) activity and histological and immunohistochemical analyses and evaluated the expression of TRPV1 and TRPA1 by western blot. KEY FINDINGS: Cinnamaldehyde induced ear edema in mice (1-6µg/ear) with a maximum effect of 4µg/ear. Cinnamaldehyde promoted leukocyte infiltration as detected by increasing MPO activity and confirmed by histological analyses. The edema and cellular infiltration evoked by the application of 4µg/ear of cinnamaldehyde were prevented by topical application of ruthenium red, a non-selective TRP antagonist as well as camphor and HC030031, two TRPA1 receptor antagonists. Cinnamaldehyde-induced edema, but not cellular infiltration, was prevented by topical application of the tachykinin NK1 antagonist, aprepitant, indicating a neuropeptide release phenomenon in this process. Additionally, we observed that repeated topical applications of cinnamaldehyde did not induce changes in sensitization or desensitization with respect to the edema response. Interestingly, repeated treatment with the TRPV1 agonist, capsaicin, abrogated it edematogenic response, confirming the desensitization process and partially decreasing the cinnamaldehyde-induced edema, suggesting the involvement of capsaicin-sensitive fibers. SIGNIFICANCE: Our data demonstrate that the topical application of cinnamaldehyde produces an inflammatory response that is dependent on TRPA1 receptor stimulation.

Bioluminescence imaging of myeloperoxidase activity in vivo.

The myeloperoxidase (MPO) system of activated phagocytes is central to normal host defense mechanisms, and dysregulated MPO contributes to the pathogenesis of inflammatory disease states ranging from atherosclerosis to cancer. Here we show that upon systemic administration, the small molecule luminol enables noninvasive bioluminescence imaging (BLI) of MPO activity in vivo. Luminol-BLI allowed quantitative longitudinal monitoring of MPO activity in animal models of acute dermatitis, mixed allergic contact hypersensitivity, focal arthritis and spontaneous large granular lymphocytic tumors. Bioluminescence colocalized with histological sites of inflammation and was totally abolished in gene-deleted Mpo(-/-) mice, despite massive tissue infiltration of neutrophils and activated eosinophils, indicating that eosinophil peroxidase did not contribute to luminol-BLI in vivo. Thus, luminol-BLI provides a noninvasive, specific and highly sensitive optical readout of phagocyte-mediated MPO activity in vivo and may enable new diagnostic applications in a wide range of acute and chronic inflammatory conditions.

Chronic inflammation that facilitates tumor progression creates local immune suppression by inducing indoleamine 2,3 dioxygenase.

Topical application of phorbol myristate acetate (PMA) elicits intense local inflammation that facilitates outgrowth of premalignant lesions in skin after carcinogen exposure. The inflammatory response to PMA treatment activates immune stimulatory mechanisms. However, we show here that PMA exposure also induces plasmacytoid dendritic cells (pDCs) in local draining lymph nodes (dLNs) to express indoleamine 2,3 dioxygenase (IDO), which confers T cell suppressor activity on pDCs. The induced IDO-mediated inhibitory activity in this subset of pDCs was potent, dominantly suppressing the T cell stimulatory activity of other DCs that comprise the major fraction of dLN DCs. IDO induction in pDCs depended on inflammatory signaling by means of IFN type I and II receptors, the TLR/IL-1 signaling adaptor MyD88, and on cellular stress responses to amino acid withdrawal by means of the integrated stress response kinase GCN2. Consistent with the hypothesis that T cell suppressive, IDO(+) pDCs elicited by PMA exposure create local immune privilege that favors tumor development, IDO-deficient mice exhibited a robust tumor-resistant phenotype in the standard DMBA/PMA 2-stage carcinogenesis model of skin papilloma formation. Thus, IDO is a key immunosuppressive factor that facilitates tumor progression in this setting of chronic inflammation driven by repeated topical PMA exposure.

[Immunosuppressive characteristics of N-stearoylethanolamine a stable compound with cannabimimetic activity].

Results of investigation of biochemical mechanisms of N-stearoylethanolamine (NSE) influence on the processes of allergic responses of immediate and delayed type (anaphylactic shock in guinea pigs and contact hypersensitivity to 2,4-dinitrochlorobenzene in mice) are presented in the paper. NSE was given per os during two weeks. It was found that in anaphylactic animals, NSE prevented the growth of histamine levels in the heart, kidneys and spleen, suppressed NO2(-) level increase in these organs and promoted its normalization. At the same time NSE prevented the decrease of the level of stable metabolite of nitrogen oxide - nitrite-anion (NO2(-)) in the liver and to a lesser degree in the lungs, and also decreased the activity both inducible and constitutive NO-synthases. NSE normalized the content of TBA-reactive products in the lungs and decreased it in the heart, diminished the decline of activity of glutathione peroxidase, catalase and superoxide dismutase. Effects of NSE depended on its daily dose. About 70% of animals which received NSE in a dose 65 mg/kg of body weight had no fatal outcome after the induction of anaphylactic shock. NSE suppressed the delayed type hypersensitivity response and normalized NO2(-) content in the blood plasma of mice but only at the dose of 50 mg/kg of weight. In the thymus of sensitized mice NSE diminished the content of NO2(-). Thus, though NSE has no affinity for specific CB receptors, in other words, it is not a typical endocannabinoid, its ability to influence the immediate and delayed type allergic reactions opens a perspective for creation of new medications which differ principally from existing pharmacological drugs with anti-allergic and immunosuppressive properties.

Heme oxygenase-1 attenuates contact hypersensitivity induced by 2,4-dinitrofluorobenzene in mice.

Heme oxygenase (HO)-1 may have an important role in the resolution of T cell-mediated inflammation. The authors elucidated the role of the anti-inflammatory HO-1 in the pathogenesis of skin inflammation, using a mouse contact hypersensitivity (CHS) induced by 2,4-dinitrofluorobenzene (DNFB). Ear swelling was induced by challenge with DNFB, accompanied by infiltration of inflammatory cells in the challenged ear skin. DNFB challenge induced low levels of HO-1 mRNA and protein expression. Ear swelling induced by DNFB challenge was significantly reduced by topical treatment with cobalt protoporphyrin IX (CoPP), a HO-1 inducer, but exaggerated by blockage of HO-1 activity with tin protoporphyrin IX (SnPP), a HO-1 inhibitor. Similarly, the number of infiltrated cells in DNFB-challenged ear skin were reduced by CoPP but increased by SnPP. Our findings suggest that HO-1 plays an important role in CHS and is an important pharmacological target for the treatment of CHS.