Basophils are required for the induction of Th2 immunity to haptens and peptide antigens

The relative contributions of basophils and dendritic cells in Th2 skewing to foreign antigen exposure remain unclear. Here we report the ability of basophils to induce Th2 polarization upon epicutaneous sensitization with different antigens using basophil conditionally depleted Bas TRECK transgenic mice. Basophils are responsible for Th2 skewing to haptens and peptide antigens, but not protein antigens in vivo. Consistent with this, basophils cannot take up or process ovalbumin protein in significant quantities, but present ovalbumin peptide to T cells for Th2 differentiation via major histocompatibility complex class II. Intriguingly, basophils promote Th2 skewing upon ovalbumin protein exposure in the presence of dendritic cells. Taken together, our results suggest that basophils alone are able to induce Th2 skewing with haptens and peptide antigens but require dendritic cells for the induction of Th2 for protein antigens upon epicutaneous immunization.

Both dendritic cells and basophils have been shown to influence T helper 2 cell induction, however the relative importance of their roles remains unclear. Otsuka et al. find that basophils present hapten and peptide antigens to T cells, but are unable to present protein antigens in the absence of dendritic cells.

Resolvin E1 inhibits dendritic cell migration in the skin and attenuates contact hypersensitivity responses

Resolvin E1 (RvE1) is a lipid mediator derived from ω3 polyunsaturated fatty acids that exerts potent antiinflammatory roles in several murine models. The antiinflammatory mechanism of RvE1 in acquired immune responses has been attributed to attenuation of cytokine production by dendritic cells (DCs). In this study, we newly investigated the effect of RvE1 on DC motility using two-photon microscopy in a contact hypersensitivity (CHS) model and found that RvE1 impaired DC motility in the skin. In addition, RvE1 attenuated T cell priming in the draining lymph nodes and effector T cell activation in the skin, which led to the reduced skin inflammation in CHS. In contrast, leukotriene B4 (LTB4) induced actin filament reorganization in DCs and increased DC motility by activating Cdc42 and Rac1 via BLT1, which was abrogated by RvE1. Collectively, our results suggest that RvE1 attenuates cutaneous acquired immune responses by inhibiting cutaneous DC motility, possibly through LTB4-BLT1 signaling blockade.

Single-Cell Profiling Reveals Divergent, Globally Patterned Immune Responses in Murine Skin Inflammation

Inflammatory response heterogeneity has impeded high-resolution dissection of diverse immune cell populations during activation. We characterize mouse cutaneous immune cells by single-cell RNA sequencing, after inducing inflammation using imiquimod and oxazolone dermatitis models. We identify 13 CD45⁺ subpopulations, which broadly represent most functionally characterized immune cell types. Oxazolone pervasively upregulates Jak2/Stat3 expression across T cells and antigen-presenting cells (APCs). Oxazolone also induces Il4/Il13 expression in newly infiltrating basophils, and Il4ra and Ccl24, most prominently in APCs. In contrast, imiquimod broadly upregulates Il17/Il22 and Ccl4/Ccl5. A comparative analysis of single-cell inflammatory transcriptional responses reveals that APC response to oxazolone is tightly restricted by cell identity, whereas imiquimod enforces shared programs on multiple APC populations in parallel. These global molecular patterns not only contrast immune responses on a systems level but also suggest that the mechanisms of new sources of inflammation can eventually be deduced by comparison to known signatures.

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Oxazolone pervasively upregulates Jak2/Stat3 expression across T cells and APCs

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Il4/Il13 induction in skin by oxazolone is dominated by infiltrating basophils

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Imiquimod broadly increases Il17/Il22 and Ccl4/Ccl5, extending to non-T cells

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Oxazolone induces more highly compartmentalized immune cell responses than imiquimod

Generation of Helios reporter mice and an evaluation of the suppressive capacity of Helios(+) regulatory T cells in vitro

Helios is a member of the Ikaros transcription factor family and has been reported to be a marker of thymus-derived regulatory T cells (Treg). Helios is an intracellular protein, however, and hence cannot be used as a marker to separate living Tregs. To solve this problem, we generated Helios reporter mice in which Helios+ cells selectively express Venus, a variant of green fluorescent protein. Most of the Tregs in the thymus expressed Helios, whereas its expression was varied in peripheral lymphoid organs. The Helios+ Treg-population was superior in ability to suppress both antigen-specific and TCR-stimulated T cell responses. We also showed that Helios+ Tregs inhibited the cytokine production by T cells more efficiently than Helios- Tregs. We conclude that Helios reporter mouse strain is a useful tool to study function of Helios and that Helios+ Tregs represent the highly suppressive population.

CCL2‒CCR2 Signaling in the Skin Drives Surfactant-Induced Irritant Contact Dermatitis through IL-1β‒Mediated Neutrophil Accumulation

Surfactant-induced cumulative irritant contact dermatitis (ICD) is a common and clinically important skin disorder. CCL2 is known to mediate inflammation after tissue damage in various organs. Thus, we investigated whether and how CCL2 contributes to the development of murine cumulative ICD induced by a common surfactant, SDS. Wild-type mice treated topically with SDS for 6 consecutive days developed skin inflammation that recapitulated the features of human cumulative ICD, including barrier disruption, epidermal thickening, and neutrophil accumulation. CCL2 was upregulated in SDS-treated skin, and local CCL2 blockade attenuated SDS-induced ICD. SDS-induced ICD and neutrophil accumulation were also attenuated in mice deficient in CCR2, the receptor for CCL2. Neutrophil depletion alleviated SDS-induced ICD, suggesting that impaired neutrophil accumulation was responsible for the amelioration of ICD in CCR2-deficient mice. In RNA-sequencing analyses of SDS-treated skin, the expression levels of Il1b in Ccr2-deficient mice were highly downregulated compared with those in wild-type mice. Furthermore, the intradermal administration of IL-1β in the SDS-treated skin of CCR2-deficient mice restored the local accumulation of neutrophils and the development of ICD. Collectively, our results suggest that CCL2‒CCR2 signaling in the skin critically promotes the development of SDS-induced ICD by inducing IL-1β expression for neutrophil accumulation.

Autoimmune Pemphigus: Latest Advances and Emerging Therapies

Pemphigus represents a group of rare and severe autoimmune intra-epidermal blistering diseases affecting the skin and mucous membranes. These painful and debilitating diseases are driven by the production of autoantibodies that are mainly directed against the desmosomal adhesion proteins, desmoglein 3 (Dsg3) and desmoglein 1 (Dsg1). The search to define underlying triggers for anti-Dsg-antibody production has revealed genetic, environmental, and possible vaccine-driven factors, but our knowledge of the processes underlying disease initiation and pathology remains incomplete. Recent studies point to an important role of T cells in supporting auto-antibody production; yet the involvement of the myeloid compartment remains unexplored. Clinical management of pemphigus is beginning to move away from broad-spectrum immunosuppression and towards B-cell-targeted therapies, which reduce many patients’ symptoms but can have significant side effects. Here, we review the latest developments in our understanding of the predisposing factors/conditions of pemphigus, the underlying pathogenic mechanisms, and new and emerging therapies to treat these devastating diseases.

Percutaneous sensitization is limited by in situ inhibition of cutaneous dendritic cell migration through skin-resident regulatory T cells

BACKGROUND

Percutaneous sensitization is associated with various allergic diseases, including asthma and food allergies. However, the immunologic mechanisms underlying how the skin regulates percutaneous sensitization are still unclear.

OBJECTIVE

We aimed to investigate whether and how CD4⁺Foxp3⁺ regulatory T (Treg) cells residing in the skin regulate percutaneous sensitization in the skin.

METHODS

Selective reduction of numbers of cutaneous Treg cells was achieved by means of intradermal injection of diphtheria toxin into the ear skin of Foxp3^DTR mice, in which Treg cells specifically express the diphtheria toxin receptor fused with green fluorescent protein.

RESULTS

Thirty percent to 40% of cutaneous Treg cells were capable of IL-10 production in both mice and human subjects. Selective reduction of cutaneous Treg cells at the sensitization site promoted migration of antigen-bearing dendritic cells (DCs) to the draining lymph nodes (dLNs). Accordingly, sensitization through the skin with reduced numbers of Treg cells led to enhanced antigen-specific immune responses in the dLNs, including both effector T-cell differentiation and T cell-dependent B-cell responses, such as the development of germinal center B cells expressing IgG₁ and IgE. Furthermore, antigen-bearing cutaneous DC migration was enhanced in mice with IL-10 deficiency restricted to the cutaneous Treg cell compartment, suggesting an important role of cutaneous IL-10⁺ Treg cells in limiting percutaneous sensitization. Treg cells with a skin-homing phenotype in skin dLNs expressed high levels of IL-10, suggesting that they contribute to renewal and maintenance of the cutaneous IL-10⁺ Treg cell population.

CONCLUSION

Skin-resident Treg cells limit percutaneous sensitization by suppressing antigen-bearing DC migration through in situ IL-10 production.

Infiltration and local differentiation of bone marrow-derived integrinβ7-positive mast cell progenitors in atopic dermatitis-like skin

BACKGROUND

Mast cells (MCs) are tissue-resident cells with various immunologic functions. MCs are increased in atopic dermatitis (AD) skin and can contribute to the inflammation. Although skin MCs are inducible from bone marrow (BM) cells in vitro, they are maintained locally by self-proliferation in the steady state in vivo. However, how skin MCs are increased in AD skin, including the infiltration of BM-derived MC progenitors (MCps) and their differentiation, remains unclear.

OBJECTIVE

We sought to identify and characterize BM-derived MCps in AD skin.

METHODS

BM-derived MCps in AD skin were analyzed by flow cytometry using BM-chimeric mice and parabiosis in an MC903-induced AD model. BM-derived MCps in AD-like skin were compared with resident MCs for gene expression by RNA- sequencing analysis.

RESULTS

We observed local proliferation of resident MCs and an increase in BM-derived MCs in AD-like skin. BM-derived MCs in the skin were derived from circulating MCps and were distinguishable from resident MCs by integrinβ7. RNA- sequence analysis showed that integrinβ7⁺ MCs (BM-derived MCps) in the skin shared the characteristics of both mucosal-type MCs and connective tissue-type MCs, and increased the expression of genes related to MCp migration. BM-derived MCps proliferated in situ, gradually lost the integrinβ7 expression, and acquired connective tissue-type MC phenotypes during the remission phase of inflammation.

CONCLUSIONS

BM-derived integrinβ7⁺ MCps migrate to AD-like skin and contribute to the maintenance of skin MCs.

Complete in vitro replication of SV40 DNA and chromatin in saponin-treated permeable cells

A permeable cell system has been developed by treatment with saponin for studying in vitro replication of DNA and chromatin. DNA replication of simian virus 40 nucleoprotein complexes (SV40 chromatin) in saponin-treated permeable cells was found to be more efficient than that in digitonin-treated permeable cells. Autoradiography of the agarose-gel revealed that [alpha-32P]dCTP was incorporated into SV40 DNA I, II and replicating intermediates. The time course of the incorporation indicated complete replication of SV40 DNA and chromatin with a full number of nucleosomes. The saponin-treated permeable cell system will serve as a useful system for studying in vitro replication of DNA and chromatin in eukaryotic cells.

Complete in vitro DNA replication of SV40 chromatin in digitonin-treated permeable cells

A permeable cell system has been developed by treatment with digitonin for studying in vitro DNA replication of chromatin. DNA replication of simian virus 40 nucleoprotein complexes (SV40 chromatin) in digitonin-treated permeable cells was analyzed by electrophoresis in agarose-gel. Autoradiography of the agarose-gel revealed that [32P]dCTP was incorporated in SV40 DNA I, II and replicating intermediates. The time course of the incorporation indicated the complete replication of SV40 DNA and chromatin with a full number of nucleosomes. The digitonin-treated permeable cell system will serve as a useful system for studying in vitro DNA replication of chromatin.

Evaluation of the thigh muscles after knee exercise on a Cybex II

We investigated the degree of local heat and swelling of the thigh muscles produced by exercise. Eleven university athletes aged from 19 to 23 years old performed isokinetic exercise of the right knee on a Cybex II. Then serial determination of thigh circumference and thigh temperature (up to 120 min after exercise) as well as serial magnetic resonance (MR) imaging (up to 60 min after exercise) was performed on both thighs. The circumference of the right thigh peaked at 5.6 +/- 2.1 min after exercise and returned to normal at 38.6 +/- 9.2 min. The temperature of the right thigh peaked at 14.2 +/- 5.7 min after exercise and was not normalized after 120 min except in two subjects. T2-weighted MR images showed a marked increase in the signal intensity of the right knee flexor and extensor muscles. The signal intensity peaked immediately after exercise and subsequently decreased gradually but did not return to normal after 60 min in some muscles. Changes in the thigh circumference were closely correlated with changes in the MR findings. The changes in the thigh muscles after knee exercise could be demonstrated using MR imaging, thigh circumference, and thigh temperature data. These parameters may provide indicators for managing muscle fatigue and recovery.

Indispensable role of IL-10 in the development of antigen cross-presentation capacity of the cDC1 subset

The conventional type 1 dendritic cell (cDC1) is a distinct DC subset with specialized functions including cross-presentation of antigens to CD8 T cells and CD103 expression. cDC1s require GM-CSF signal for gaining their signature functions; however, the involvement of other cytokines remains unknown.

Here we found that cDC1s were normal in number but lacked CD103 expression in IL-10-deficient (Il10−/−) mice, suggesting that IL-10 has some effects on cDC1 function in vivo. Thus, next we assessed the CD8 T-cell priming capacity of cDC1s from Il10+/+ and Il10−/− mice by coculture with OT-I CD8+ T cells in the presence of ovalbumin in vitro. In contrast to Il10+/+ cDC1s, Il10−/− cDC1s failed to induce the expansion and IFN-γ production of OT-I cells. In addition, Il10−/− mice had a significantly lower number of memory CD8 T cells in the lymph nodes in the steady state. These results indicate that cDC1s in Il10−/− mice were defective in antigen cross-presentation. We also found that, whereas Flt3-ligand-induced DCs derived from Il10+/+ bone marrow cells upregulated CD103 expression by and CD8 T-cell cross-priming capacity of the cDC1-equivalent population in response to GM-CSF stimulation, Il10−/− bone marrow-derived DCs did not, suggesting that dysfunction of cDC1s in Il10−/− mice is likely due to unresponsiveness to GM-CSF. Finally, we found that mRNA expression of Csf2ra, which encodes GM-CSF receptor α-chain, was completely deficient in both cDC1s in Il10−/− mice and Il10−/− cDC1-equivalent bone marrow-derived DCs. Collectively, our data suggest that IL-10 critically controls the development of antigen cross-presentation capacity of cDC1s under homeostatic conditions, likely through regulating GM-CSF receptor expression.

Essential role of CCL2-CCR2 axis in the pathogenesis of chronic irritant contact dermatitis

Chronic irritant contact dermatitis (ICD) including hand eczema is a common skin disorder caused by the repetitive exposure to irritants such as chemical detergents and organic solvents. Products including sodium dodecyl sulfate (SDS), such as soap or shampoo, are the leading cause of occupational ICD. Previous studies have shown that irritants cause epidermal damage which induce the production of proinflammatory mediators, followed by a dermal influx of inflammatory cells. However, the detailed immunological cascades occurring in the chronic ICD remains unclear.

Repeated application of SDS, onto murine ear skin induced ear swelling, accompanied by epidermal hyperplasia and barrier dysfunction. Dermal infiltration of neutrophils, eosinophils and monocytes were remarkable in the SDS-applied skin. Our observation described above was consistent with the features of human chronic ICD. Here, we found that CCR2 deficiency or blockade of CCL2, a major ligand for CCR2, significantly attenuated SDS-induced ear swelling as well as inflammatory cell accumulation. Among the differentially expressed genes, which were up-regulated by SDS application, genes related to cell interaction at the vascular wall were significantly affected by CCR2 deficiency. Further, we investigated whether CCR2 on radiosensitive cells or radioresistant cells is critical. Lethally irradiated CCR2−/− mice transplanted with CCR2+/+ bone marrow cells (BMC) exhibited impaired SDS-induced ICD, while CCR2+/+ mice transplanted with CCR2−/− did not.

Collectively, our data suggest that CCR2 expression by radioresistant cells plays an essential role in the pathogenesis of chronic ICD.

DNA replication of simian virus 40 chromatin in digitonin-treated and saponin-treated permeable cells

Permeable cell systems have been developed by treatment of simian virus 40 (SV40)-infected cells with digitonin or saponin for studying in vitro DNA replication of chromatin. SV40 DNA replicated efficiently in these systems in the presence of the four deoxyribonucleoside triphosphates, ATP, Mg2+, and the proper ionic environment. Analysis of the time course of the replicated SV40 DNA I, II and replicating intermediates by gel electrophoresis and autoradiography indicated that SV40 DNA replicated completely in the form of nucleoprotein complexes (SV40 chromatin).

Depletion of Treg by the Diphtheria Toxin System

Specific cell ablation by the diphtheria toxin (DT) system is widely used to analyze the in vivo function of target cells in mice. In this chapter, we describe the methods of depleting regulatory T cells (Tregs) systemically or selectively in the skin. Since it has been difficult to conclude the importance of tissue-residing Tregs with systemic Treg ablation, we sought to selectively deplete cutaneous Tregs to investigate their function in the skin without the depletion of Tregs in non-target organs. Here, we describe protocols for the depletion of Tregs by the DT system, and subsequent analysis of Tregs in the skin and skin-draining lymph node (dLN) by flow cytometry. This procedure of selective depletion of cutaneous Tregs can be applicable to other tissues and cells, to allow investigation of the role of tissue-resident cells in mice.