Allergen‐induced changes in interleukin 1β (iL‐1β) mRNA expression by human blood‐derived dendritic cells: inter‐individual differences and relevance for sensitization testing

Pichowski, Johanna S.; Cumberbatch, Marie; Dearman, Rebecca J.; Basketter, David A.; Kimber, Ian

doi:10.1002/jat.742

Cited by 61 publications

(31 citation statements)

References 28 publications

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“…In particular, they suggest that DCs differentiation markers could help in measuring the immunotoxicity of metal compounds with sensitisation potential. In addition, our findings support the notion that DCs represent a powerful tool to predict in vitro the sensitising potential of metals (40)(41)(42)(43)(44) and, in more general terms, to investigate factors that makes an allergen of an antigen. In this framework, our cellular model appears particularly promising for the study of the basic mechanisms of the immune trigger (the socalled "adjuvanticity") (45).…”

Section: Concentration (~M)supporting

confidence: 81%

Chromium (VI)-Induced Immunotoxicity and Intracellular Accumulation in Human Primary Dendritic Cells

Burastero

Paolucci

Breda

et al. 2006

Int J Immunopathol Pharmacol

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Chromium compounds, besides being occupational carcinogens, can also induce allergic contact dermatitis (ACD) and other immunomodulatory effects. In this study we investigate cell viability, uptake and intracellular distribution of chromium in human primary dendritic cells (DCs), either immature (iDCs) or driven to differentiate by a specific maturation stimulus (LPS) (mature DCs, mDCs), when exposed for 48 h to concentrations of soluble radiolabelled NatCr04 ranging from 5 to 0.5 /lM. The modulation of the expression of membrane markers (CD80, CD86, MOC class II) correlated with the immunological functions of DCs was also measured. After 48 h of exposure the mean IC so values in 4 donors were 36 and 31 /lM in iDCs and mDC respectively, as detected by propidium iodide incorporation. Cellular uptake of chromium was nearly linear with increasing doses. At 48 h post-exposure chromium was accumulated preferentially in the nuclear and cytosolic fractions (44.1 to 66% and 13.1 to 31% of total cellular chromium, respectively). Although a high inter-individual variability was observed, an increase in the expression of CD86 and, to a lower extent, CD80 and MOC class II membrane markers was found in mDCs of single donors. These results highlight the relevance of searching for the biodistribution of trace metals in primary cells of the immune system. Moreover, they suggest that DCs differentiation markers can help in measuring the immunotoxicity of metalIn the last decades a tremendous amount of research effort has been dedicated to understanding the human health effect of Cr(VI) compounds and the molecular mechanisms by which they occur (I). Nevertheless, several questions related to chromium toxicity and carcinogenicity are still unclear and only partly understood. In particular, concerning the effects of chromium on the immune system, similarly to other trace metals which can have immunostimulatory, immunosuppressive or autoimmunity effects, depending on the dose (2) Cr(VI) compounds at low doses, have in vitro a stimulatory effect on human lymphocytes whereas at higher concentrations they display an inhibitory effect (3-4). Moreover, dosage seems to be non-influent on NK cell functions (5). On the other hand, no effect of chromium was observed on the proliferation of the lymphocytes of workers chronically exposed to welding fumes (6). Furthermore, higher doses of Cr(VI) depress the phagocytic activity of alveolar macrophages, whereas lower doses stimulate this biological

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Section: Concentration (~M)supporting

confidence: 81%

Chromium (VI)-Induced Immunotoxicity and Intracellular Accumulation in Human Primary Dendritic Cells

Burastero

Paolucci

Breda

et al. 2006

Int J Immunopathol Pharmacol

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“…Moreover, CD86 and IL-1b are generally considered suitable markers for developing an in vitro test system for contact sensitizers and allow a widespread comparison with already published data as far as in vitro activation of DC by contact sensitizers is concerned (Aiba et al, 1997;Reutter and Jaeger, 1997;Pichowski et al, 2000Pichowski et al, , 2001Tuschl and Kovac, 2001;De Smedt et al, 2002). Other specific markers of DC activation, such as tyrosine phosphorylation or CD83/CD208 acetone/aqua/olive oil (AAOO) in doses of 2.8%, 1.5%, and 0.5% for 3 consecutive days.…”

Section: Discussionmentioning

confidence: 99%

Characterization of the Sensitizing Potential of Chemicals by In Vitro Analysis of Dendritic Cell Activation and Skin Penetration

Aeby¹,

Wyss²,

Beck³

et al. 2004

Journal of Investigative Dermatology

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Development of in vitro models to identify sensitizing chemicals receives public interest since animal testing should be avoided whenever possible. In this article we analyze two essential properties of sensitizing chemicals: skin penetration and dendritic cell (DC) activation. Activation of immature DC derived from peripheral blood monocytes was evaluated by flow cytometric analysis of CD86 positive cells and quantitative measurement of interleukin-1beta and aquaporin P3 gene expression. The sensitizer 2,4,6-trinitrobenzenesulfonic acid induced a concentration-dependent response for all parameters, whereas the irritant sodium lauryl sulfate did not. When two related aromatic amines, p-toluylenediamine (PTD) and hydroxyethyl-p-phenylenediamine (HE-PPD) were tested, both induced substantial DC activation indicating their potential sensitizing properties. These findings contrasted with in vivo results: in murine local lymph node assays (LLNA) PTD, but not HE-PPD, was sensitizing using acetone/aqua/olive oil as vehicle. Skin penetration measurement revealed that this was due to bioavailability differences. On retesting HE-PPD in the LLNA using the penetration enhancer dimethylsulfoxide as vehicle, it induced a specific response. We conclude that in vitro analysis of DC activation capability of the two selected chemicals demonstrates that prediction of skin sensitization potential is possible provided that skin penetration data indicate sufficient bioavailability of the test compound.

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“…As illustrated by the presented standard deviations, we observed a substantial degree of variation in gene expression patterns between single experiments in both investigated APC types which have been described previously to be inherent in this model of cell culture experiments [20,21] . However, differential regulation of the identified marker genes remained statistically significant (p !…”

Section: Rt-pcr Analysis Confirms Significant Regulation Of Oxidativementioning

confidence: 80%

High-Resolution Transcriptional Profiling of Chemical-Stimulated Dendritic Cells Identifies Immunogenic Contact Allergens, but Not Prohaptens

Ott

Wiederholt²,

Bergström³

et al. 2010

Skin Pharmacol Physiol

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Allergic contact dermatitis is a complex syndrome and knowledge about the in vitro detection of small-molecular-weight compounds, particularly prohaptens, is limited. Therefore, we investigated chemical-induced gene expression changes in human antigen-presenting cells upon stimulation with immunogenic contact allergens, prohaptens and irritants. Monocyte-derived dendritic cells (moDCs) and THP-1 cells were stimulated with the prohapten cinnamic alcohol (CAlc), the hapten cinnamic aldehyde (CAld), an irritant and an obligatory sensitizer in vitro. Whole-genome screening and consecutive PCR analysis of differential gene expression in moDCs stimulated with either CAld or the obligatory sensitizer revealed coregulation of 11 marker genes which were related to immunological reactions (IL-8, CD1e, CD200R1, PLA2G5, TNFRSF11A), oxidative or metabolic stress responses (AKR1C3, SLC7A11, GCLM) or other processes (DPYLS3, TFPI, TRIM16). In contrast, the prohapten CAlc and the irritant did not change marker gene expression. In THP-1 cells, CAld and the positive control elicited similar expression changes in only 4 of the previously identified genes (IL-8, TRIM16, CD200R1, GCLM). In conclusion, we provide important insights into the pathophysiological basis of allergic contact dermatitis, identify marker genes suitable for skin hazard assessment and demonstrate that contact-allergenic prohaptens escape in in vitro detection if their skin metabolism is not taken into account.

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Allergen‐induced changes in interleukin 1β (iL‐1β) mRNA expression by human blood‐derived dendritic cells: inter‐individual differences and relevance for sensitization testing

Cited by 61 publications

References 28 publications

Chromium (VI)-Induced Immunotoxicity and Intracellular Accumulation in Human Primary Dendritic Cells

Chromium (VI)-Induced Immunotoxicity and Intracellular Accumulation in Human Primary Dendritic Cells

Characterization of the Sensitizing Potential of Chemicals by In Vitro Analysis of Dendritic Cell Activation and Skin Penetration

High-Resolution Transcriptional Profiling of Chemical-Stimulated Dendritic Cells Identifies Immunogenic Contact Allergens, but Not Prohaptens

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