Clorfl86/RHEX Is a Negative Regulator of SCF/KIT Signaling in Human Skin Mast Cells.

Mast cells (MCs) are key effector cells in allergic and inflammatory diseases, and the SCF/KIT axis regulates most aspects of the cells' biology. Using terminally differentiated skin MCs, we recently reported on proteome-wide phosphorylation changes initiated by KIT dimerization. C1orf186/RHEX was revealed as one of the proteins to become heavily phosphorylated. Its function in MCs is undefined and only some information is available for erythroblasts. Using public databases and our own data, we now report that RHEX exhibits highly restricted expression with a clear dominance in MCs. While expression is most pronounced in mature MCs, RHEX is also abundant in immature/transformed MC cell lines (HMC-1, LAD2), suggesting early expression with further increase during differentiation. Using RHEX-selective RNA interference, we reveal that RHEX unexpectedly acts as a negative regulator of SCF-supported skin MC survival. This finding is substantiated by RHEX's interference with KIT signal transduction, whereby ERK1/2 and p38 both were more strongly activated when RHEX was attenuated. Comparing RHEX and capicua (a recently identified repressor) revealed that each protein preferentially suppresses other signaling modules elicited by KIT. Induction of immediate-early genes strictly requires ERK1/2 in SCF-triggered MCs; we now demonstrate that RHEX diminution translates to this downstream event, and thereby enhances NR4A2, JUNB, and EGR1 induction. Collectively, our study reveals RHEX as a repressor of KIT signaling and function in MCs. As an abundant and selective lineage marker, RHEX may have various roles in the lineage, and the provided framework will enable future work on its involvement in other crucial processes.

How "Neuronal" Are Human Skin Mast Cells?

Mast cells are evolutionarily old cells and the principal effectors in allergic responses and inflammation. They are seeded from the yolk sac during embryogenesis or are derived from hematopoietic progenitors and are therefore related to other leukocyte subsets, even though they form a separate clade in the hematopoietic system. Herein, we systematically bundle information from several recent high-throughput endeavors, especially those comparing MCs with other cell types, and combine such information with knowledge on the genes' functions to reveal groups of neuronal markers specifically expressed by MCs. We focus on recent advances made regarding human tissue MCs, but also refer to studies in mice. In broad terms, genes hyper-expressed in MCs, but largely inactive in other myelocytes, can be classified into subcategories such as traffic/lysosomes (MLPH and RAB27B), the dopamine system (MAOB, DRD2, SLC6A3, and SLC18A2), Ca2+-related entities (CALB2), adhesion molecules (L1CAM and NTM) and, as an overall principle, the transcription factors and modulators of transcriptional activity (LMO4, PBX1, MEIS2, and EHMT2). Their function in MCs is generally unknown but may tentatively be deduced by comparison with other systems. MCs share functions with the nervous system, as they express typical neurotransmitters (histamine and serotonin) and a degranulation machinery that shares features with the neuronal apparatus at the synapse. Therefore, selective overlaps are plausible, and they further highlight the uniqueness of MCs within the myeloid system, as well as when compared with basophils. Apart from investigating their functional implications in MCs, a key question is whether their expression in the lineage is due to the specific reactivation of genes normally silenced in leukocytes or whether the genes are not switched off during mastocytic development from early progenitors.

The SCF/KIT axis in human mast cells: Capicua acts as potent KIT repressor and ERK predominates PI3K.

BACKGROUND: The SCF/KIT axis regulates nearly all aspects of mast cell (MC) biology. A comprehensive view of SCF-triggered phosphorylation dynamics is lacking. The relationship between signaling modules and SCF-supported functions likewise remains ill-defined. METHODS: Mast cells were isolated from human skin; upon stimulation by SCF, global phosphoproteomic changes were analyzed by LC-MS/MS and selectively validated by immunoblotting. MC survival was inspected by YoPro; BrdU incorporation served to monitor proliferation. Gene expression was quantified by RT-qPCR and cytokines by ELISA. Pharmacological inhibitors were supplemented by ERK1 and/or ERK2 knockdown. CIC translocation and degradation were studied in nuclear and cytoplasmic fractions. CIC's impact on KIT signaling and function was assessed following RNA interference. RESULTS: ≈5400 out of ≈10,500 phosphosites experienced regulation by SCF. The MEK/ERK cascade was strongly induced surpassing STAT5 > PI3K/Akt > p38 > JNK. Comparison between MEK/ERK's and PI3K's support of basic programs (apoptosis, proliferation) revealed equipotency between modules. In functional outputs (gene expression, cytokines), ERK was the most influential kinase. OSM and LIF production was identified in skin MCs. Strikingly, SCF triggered massive phosphorylation of a protein not associated with KIT previously: CIC. Phosphorylation was followed by CIC's cytoplasmic appearance and degradation, the latter sensitive to protease but not preoteasome inhibition. Both shuttling and degradation were ERK-dependent. Conversely, CIC-siRNA facilitated KIT signaling, functional outputs, and survival. CONCLUSION: The SCF/KIT axis shows notable strength in MCs, and MEK/ERK as most prominent module. An inhibitory circuit exists between KIT and CIC. CIC stabilization in MCs may turn out as a therapeutic option to interfere with allergic and MC-driven diseases.

Mechanisms governing the pioneering and redistribution capabilities of the non-classical pioneer PU.1.

Establishing gene regulatory networks during differentiation or reprogramming requires master or pioneer transcription factors (TFs) such as PU.1, a prototype master TF of hematopoietic lineage differentiation. To systematically determine molecular features that control its activity, here we analyze DNA-binding in vitro and genome-wide in vivo across different cell types with native or ectopic PU.1 expression. Although PU.1, in contrast to classical pioneer factors, is unable to access nucleosomal target sites in vitro, ectopic induction of PU.1 leads to the extensive remodeling of chromatin and redistribution of partner TFs. De novo chromatin access, stable binding, and redistribution of partner TFs both require PU.1's N-terminal acidic activation domain and its ability to recruit SWI/SNF remodeling complexes, suggesting that the latter may collect and distribute co-associated TFs in conjunction with the non-classical pioneer TF PU.1.

Olive-Oil-Derived Polyphenols Effectively Attenuate Inflammatory Responses of Human Keratinocytes by Interfering with the NF-κB Pathway.

SCOPE: Extra virgin olive oil (EVOO) is rich in phenolic compounds, including hydroxytyrosol (HTy) and hydroxytyrosyl acetate (HTy-Ac), which have presented multiple beneficial properties. Their impact on inflammatory responses in human keratinocytes and modes of action have not been addressed yet. METHODS AND RESULTS: Primary human keratinocytes are pretreated with HTy-Ac or HTy for 30 min and stimulated with IL-1ß or Toll-like receptor 3 ligand (TLR3-l). Thymic stromal lymphopoietin (TSLP), measured by ELISA, is attenuated by both polyphenols in a dose-dependent manner. The expression of several inflammation-related genes, including distinct TSLP isoforms and IL-8, are assessed by quantitative RT-PCR and likewise inhibited by HTy-Ac/HTy. Mechanistically, EVOO phenols counteracts IκB degradation and translocation of NF-κB to the nucleus, a transcription factor of essential significance to TSLP and IL-8 transcriptional activity; this is evidenced by immunoblotting. Accordingly, NF-κB recruitment to critical binding sites in the TSLP and IL-8 promoter is impeded in the presence of HTy-Ac/HTy, as demonstrated by chromatin immunoprecipitation. Promoter reporter assays finally reveal that the neutralizing effect on NF-κB induction has functional consequences, resulting in reduced NF-κB-directed transcription. CONCLUSION: EVOO phenols afford protection from inflammation in human keratinocytes by interference with the NF-κB pathway.

Thymic Stromal Lymphopoietin Interferes with the Apoptosis of Human Skin Mast Cells by a Dual Strategy Involving STAT5/Mcl-1 and JNK/Bcl-xL.

Mast cells (MCs) play critical roles in allergic and inflammatory reactions and contribute to multiple pathologies in the skin, in which they show increased numbers, which frequently correlates with severity. It remains ill-defined how MC accumulation is established by the cutaneous microenvironment, in part because research on human MCs rarely employs MCs matured in the tissue, and extrapolations from other MC subsets have limitations, considering the high level of MC heterogeneity. Thymic stromal lymphopoietin (TSLP)-released by epithelial cells, like keratinocytes, following disturbed homeostasis and inflammation-has attracted much attention, but its impact on skin MCs remains undefined, despite the vast expression of the TSLP receptor by these cells. Using several methods, each detecting a distinct component of the apoptotic process (membrane alterations, DNA degradation, and caspase-3 activity), our study pinpoints TSLP as a novel survival factor of dermal MCs. TSLP confers apoptosis resistance via concomitant activation of the TSLP/ signal transducer and activator of transcription (STAT)-5 / myeloid cell leukemia (Mcl)-1 route and a newly uncovered TSLP/ c-Jun-N-terminal kinase (JNK)/ B-cell lymphoma (Bcl)-xL axis, as evidenced by RNA interference and pharmacological inhibition. Our findings highlight the potential contribution of TSLP to the MC supportive niche of the skin and, vice versa, highlight MCs as crucial responders to TSLP in the context of TSLP-driven disorders.

The Impact on Allergy-Related Cells of a Birch Pollen Allergoid, with and without Monophosphoryl Lipid A, in Comparison with the Native Equivalent.

BACKGROUND: The clinical efficacy and safety of allergoid immunotherapy have been demonstrated in clinical trials. However, simultaneous monitoring of the immunological changes by allergoids versus allergens in the cells of the same individual has not been extensively performed, and the impact of concurrent Toll-like receptor 4 (TLR4) ligation has not been specified. METHODS: Three types of birch allergen were utilized: glutaraldehyde-treated allergoid (extract A), the same allergoid plus monophosphoryl lipid A (MPL), i.e., TLR4 ligand (extract A*), and native allergen (extract B). Antigen-specific responses after the in vitro stimulation of blood cells with the extracts were assessed by studying costimulatory receptors on the B cell surface by flow cytometry, cytokine responses by ELISA, and CD63 and CD203c upregulation (basophil activation test) in allergic versus nonallergic subjects. RESULTS: HLA-DR selectively increased upon allergen or allergoid treatment in the allergic group only. The extract types elicited similar cytokine responses, with IL-6 and IL-10 production detected only in certain atopic subjects. The allergoids revealed a strong reduction (100- to <10,000-fold) in basophil activation versus native allergen. Reactivity was undetectable in the basophils from nonallergic subjects. CONCLUSION: The allergenicity of the allergoid employed was sharply reduced when compared to the native allergen, while its immunogenicity was largely retained, especially in the presence of MPL. We also provide further evidence that allergic and nonallergic individuals show preexisting differences in their immune repertoires.

Phenotypic variability in human skin mast cells.

Mast cells (MCs) are unique constituents of the human body. While inter-individual differences may influence the ways by which MCs operate in their skin habitat, they have not been surveyed in a comprehensive manner so far. We therefore set out to quantify skin MC variability in a large cohort of subjects. Pathophysiologically relevant key features were quantified and correlated: transcripts of c-kit, FcεRIα, FcεRIß, FcεRIγ, histidine decarboxylase, tryptase, and chymase; surface expression of c-Kit, FcεRIα; activity of tryptase, and chymase; histamine content and release triggered by FcεRI and Ca(2+) ionophore. While there was substantial variability among subjects, it strongly depended on the feature under study (coefficient of variation 33-386%). Surface expression of FcεRI was positively associated with FcεRIα mRNA content, histamine content with HDC mRNA, and chymase activity with chymase mRNA. Also, MC signature genes were co-regulated in distinct patterns. Intriguingly, histamine levels were positively linked to tryptase and chymase activity, whereas tryptase and chymase activity appeared to be uncorrelated. FcεRI triggered histamine release was highly variable and was unrelated to FcεRI expression but unexpectedly tightly correlated with histamine release elicited by Ca(2+) ionophore. This most comprehensive and systematic work of its kind provides not only detailed insights into inter-individual variability in MCs, but also uncovers unexpected patterns of co-regulation among signature attributes of the lineage. Differences in MCs among humans may well underlie clinical responses in settings of allergic reactions and complex skin disorders alike.

Retinoic acid potentiates inflammatory cytokines in human mast cells: identification of mast cells as prominent constituents of the skin retinoid network.

Retinoic acid (RA), the active vitamin-A-metabolite, has well-established functions in skin homeostasis and in the immune system. Skin mast cells (MCs) combine traits of both structures, being of hematopoietic origin, but functional in the skin environment. It remains largely unknown whether mature MCs are targeted by the retinoid network. Here, we demonstrate that human skin MCs display substantial susceptibility to RA by which they are instructed to increase pro-inflammatory mediators (IL-1ß, IL-8, TNF-α) but not histamine release. The effects are observed at physiological RA levels, in different microenvironments, and are largely donor-independent. RA susceptibility is owed to the cells' abundant expression of RARA, the receptor mediating MC cytokine responses. Unexpectedly, bioinformatics calculations on the FANTOM5 expression atlas revealed general enrichment of retinoid network components in MCs against other skin cells, and MCs rapidly upregulated RA responsive genes. In conclusion, MCs are important yet hitherto overlooked retinoid targets in the skin.

Skin mast cells develop non-synchronized changes in typical lineage characteristics upon culture.

Despite their hematopoietic origin, mast cells (MCs) develop exclusively in tissues, hampering their ample use in research. To circumvent this problem, tissue-derived MCs are typically first expanded in culture, but the changes MCs may undergo in the novel micromilieu are poorly defined. Here, we monitor skin MCs from a number of donors over time, revealing profound yet non-synchronized modulations in culture. While tryptase and chymase, the most specific markers, strongly decline, FcεRI surface expression, and FcεRI-mediated histamine release steeply increase (from ≈15.5% to ≈60%), replicated by similar increments in TNF-α secretion. Interestingly, the modulations are independent of cell cycle progression, as they are comparable in the growth and postgrowth phase, implying they primarily result from microenvironmental conditioning. The data highlight a high degree of MC versatility, but also advise that results based on cultured MCs should be viewed with some caution, as they may not accurately reflect their counterparts in situ.

Redefinition of the human mast cell transcriptome by deep-CAGE sequencing.

Mast cells (MCs) mature exclusively in peripheral tissues, hampering research into their developmental and functional programs. Here, we employed deep cap analysis of gene expression on skin-derived MCs to generate the most comprehensive view of the human MC transcriptome ever reported. An advantage is that MCs were embedded in the FANTOM5 project, giving the opportunity to contrast their molecular signature against a multitude of human samples. We demonstrate that MCs possess a unique and surprising transcriptional landscape, combining hematopoietic genes with those exclusively active in MCs and genes not previously reported as expressed by MCs (several of them markers of unrelated tissues). We also found functional bone morphogenetic protein receptors transducing activatory signals in MCs. Conversely, several immune-related genes frequently studied in MCs were not expressed or were weakly expressed. Comparing MCs ex vivo with cultured counterparts revealed profound changes in the MC transcriptome in in vitro surroundings. We also determined the promoter usage of MC-expressed genes and identified associated motifs active in the lineage. Befitting their uniqueness, MCs had no close relative in the hematopoietic network (also only distantly related with basophils). This rich data set reveals that our knowledge of human MCs is still limited, but with this resource, novel functional programs of MCs may soon be discovered.

Testosterone exerts selective anti-inflammatory effects on human skin mast cells in a cell subset dependent manner.

Androgens are known to exert anti-inflammatory effects but their impact on mast cells (MCs) remains to be determined. Here, we show that MCs isolated from human foreskin samples (male) and those from breast skin (female) express the androgen receptor, albeit with a 10-fold difference between the subsets. While fundamental MC properties (FcεRI, c-Kit, tryptase; histamine release upon FcεRI cross-linking) were unaffected or slightly reduced (chymase) by testosterone, the hormone had a more profound impact on the production of cytokines, with IL-6 being a target (reduction by 53%). Interestingly, this effect was limited to breast skin MCs (15 of 16 donors displayed this phenomenon), but was not reproduced by foreskin MCs. Collectively, effector functions of human skin MCs are modulated by androgens in a gene-selective and MC subset-specific fashion. Possibly, MCs from women are more susceptible to testosterone. We also demonstrate that MC IL-6 production is highly variable among individuals.

Mast cell-derived TNF-α and histamine modify IL-6 and IL-8 expression and release from cutaneous tumor cells.

The coincidence of skin tumors and elevated mast cell (MC) numbers has been known for many years. However, it has remained controversial whether, in this context, MCs promote or inhibit tumor growth. Addressing this problem, different melanoma and squamous cell carcinoma cell lines were co-cultivated with primary, dermal MC for 24 h and gene or protein expression of cytokines tumor necrosis factor (TNF-α), interleukin-6 (IL-6) and interleukin-8 (IL-8) estimated. Co-culture with MCs led to an increase in IL-8 gene expression and IL-8 protein release from melanoma cells and IL-6 and IL-8 gene expression and protein release from squamous cell carcinoma cells, respectively. Moreover induction of IL-6 and IL-8 was primarily regulated by MC-derived TNF-α. Our data suggest an interplay between MCs and tumor cells, which results in altered cytokine release and may, thus, have an impact on tumor growth, invasion and neovascularisation.

Mast cell lines HMC-1 and LAD2 in comparison with mature human skin mast cells--drastically reduced levels of tryptase and chymase in mast cell lines.

To circumvent the costly isolation procedure associated with tissue mast cells (MC), two human MC lines, i.e. HMC-1 and LAD2, are frequently employed, but their relation to mature MC is unknown. Here, we quantitatively assessed their expression of MC markers in direct comparison to skin MC (sMC). sMC expressed all lineage markers at highest and HMC-1 cells at lowest levels. LAD2 cells expressed comparable high-affinity IgE receptor alpha (FcepsilonRIalpha) and FcepsilonRIgamma but less FcepsilonRIbeta than sMC and displayed slightly reduced, but robust FcepsilonRI-mediated histamine release. Only minor differences were found for total histamine content and c-Kit expression. Huge, and to this level unexpected, differences were found for MC tryptase and chymase, with sMC >>> LAD2 > HMC-1. Taken together, HMC-1 cells represent very immature malignantly transformed MC, whereas LAD2 cells can be considered intermediately differentiated. Because of the minute levels of MC proteases, MC lines can serve as surrogates of tissue MC to a limited degree only.

Baseline and stimulated turnover of cell surface c-Kit expression in different types of human mast cells.

The receptor tyrosine kinase c-Kit is fundamental to mast cell (MC) development and maintenance. Its regulation can occur at various levels, but nothing is known about how this is accomplished in normal human tissue MC. Likewise, the baseline turnover of c-Kit has not been addressed yet. We used mature MC from human skin, along with the MC lines LAD-2 and HMC-1 and treated them with stem cell factor (SCF), cycloheximide, actinomycin D (AD) and combinations thereof, and determined expression levels of c-Kit and other surface receptors by flow cytometry. Ligand-induced internalization of c-Kit was found to be a universal mechanism and detectable in all MC subtypes. By Western blot analysis of LAD-2 cells, c-Kit was found to nearly disappear 3 h after the addition of SCF to slowly recover thereafter. Investigations into the baseline turnover of c-Kit expression revealed that c-Kit is strongly affected by the inhibition of de novo translation in all MC subsets, while a suppression of transcription had a weaker effect and displayed greater cell-to-cell variation. Only a minor impact on other cell surface receptors (CD29, CD50 and CD54) was noted. On combined treatment, cycloheximide, AD and SCF displayed additive effects, resulting in a complete disappearance of c-Kit from the cell surface. In conclusion, c-Kit represents a rapidly cycling cell surface receptor. It is not only immediately internalized upon binding of its ligand, but it is also heavily affected by the inhibition of translation or transcription when viewed against an average background. Interestingly, c-Kit regulation seems largely independent of the MC subtype.

Evidence for a restricted rather than generalized stimulatory response of skin-derived human mast cells to substance P.

To resolve the controversy regarding substance P (SP) mediated stimulation of mast cells (MC), we demonstrate that SP triggers histamine release from purified human skin MC (sMC), but contrast to stimulation via FcepsilonRI, does not effect the production of TNF-alpha or IL-8. Conversely, both anti-IgE and SP are suppressive in terms of IL-6. By quantitative RT-PCR, the amount of templates at baseline (per 25 ng total RNA) is 2178 (IL-6), 2,665 (IL-8) and 94 (TNF-alpha), and remains unaltered by SP. Contrast to sMC, LAD2 MC respond to SP with stronger histamine release and robust TNF-alpha production in an only partially neurokinin-1R mediated manner, while histamine release of sMC is chiefly mediated by this receptor. We conclude that human sMC are responsive to SP in a selective manner by eliciting degranulation without the induction of cytokines and that SP-triggered cytokine production varies among MC subtypes, likely through differences in signaling mechanisms.

Bivalent effect of UV light on human skin mast cells-low-level mediator release at baseline but potent suppression upon mast cell triggering.

Ultraviolet (UV) irradiation is an established treatment for inflammatory skin diseases, although the precise mode of action is still unclear. Activating and suppressive effects on mast cell (MC) mediator release have been described. The aim of this study was to investigate systematically the effects of UVB, UVA-1, and psoralen plus UVA-1 at therapeutic doses on skin-derived human MC. Baseline and stimulated release of histamine, tryptase, and of interleukin (IL)-6, IL-8 and tumor necrosis factor-alpha (TNF-alpha) were examined. In resting MC, UV light induced a slight, yet significant histamine release corresponding to enhanced surface levels of lysosome-associated membrane proteins (LAMP). In contrast, UV pre-treatment caused a marked suppression of the anti-IgE-induced histamine release, accompanied by a diminished, anti-IgE-mediated increase in LAMP expression. The secretion of IL-6, IL-8, and TNF-alpha was inhibited in resting and activated MC, suggesting a different mode of action. Regarding the importance of MC in a variety of allergic and inflammatory processes, our data show a high susceptibility of this cell type towards UV light, which seems to partially depend on the state of cellular activation. Immunosuppressive effects predominate in activated MC, thus corresponding with the beneficial effects in inflammatory diseases, whereas in resting MC, both stimulatory and inhibitory effects are observed.

Regulation of mast cell characteristics by cytokines: divergent effects of interleukin-4 on immature mast cell lines versus mature human skin mast cells.

Mast cells (MC) are of hematopoietic origin but complete their differentiation exclusively within tissues. The mediators that positively or negatively affect the maturation process are incompletely defined. Here, the human MC line HMC-1 (subclone 5C6) was used along with several treatments (IL-4, IL-6, NGFbeta), either alone or in combination, and MC differentiation was monitored by flow-cytometric analysis of c-kit, tryptase, and FcepsilonRIalpha expression. Of the different treatments, IL-4 displayed the clearest effects by suppressing the expression of the three markers and inhibiting cellular growth, while the other cytokines had no (NGFbeta) or negligible (IL-6) effects only. The downregulating effects of IL-4 could not be overcome by any other treatment. There is some controversy in the literature as to the impact of IL-4 on the MC lineage. To determine whether the effects from IL-4 were differentiation stage dependent, two further human MC subsets (skin MC and LAD 2 cells) were investigated. No effects on c-kit and FcepsilonRIalpha expression were noted when terminally differentiated skin MC were used as target cells, while a modest downregulation of c-kit was observed with intermediately matured LAD 2 cells. In sharp contrast to HMC-1 5C6 cells, the survival of skin MC was significantly enhanced by IL-4 treatment. Our data therefore imply that at a lower maturation stage, IL-4 acts as a negative regulator of the MC lineage, but that this property disappears or is even reversed upon terminal differentiation of the cell. Our study provides direct proof that the effects of IL-4 vary substantially in the course of MC maturation.