Souyet Chang-Rodriguez scite author profile

C-type lectin receptors help Langerhans cells (LC) to take up and process pathogens. Langerin/CD207 is a mannose-binding C-type lectin that is specifically expressed by LC. It is involved in antigen uptake in an as yet poorly defined way, and it is a major molecular constituent of Birbeck granules. We studied the emergence of Langerin expression in LC in epidermal sheets and cell suspensions during ontogeny. Langerin appears later than MHC II expression. Intracellular Langerin expression becomes apparent 2-3 d after birth. Only 10 days after birth all LC co-express Langerin. The intensity of Langerin expression reaches adult levels by 3 wk after birth. Early Langerin expression appears to correlate at least in part with the physical presence of Birbeck granules.

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Fetal and neonatal murine skin harbors Langerhans cell precursors

Chang-Rodriguez

Hoetzenecker

Schwärzler

et al. 2004

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Resident epidermal Langerhans cells (LC) in adult mice express ADPase, major histocompatibility complex (MHC) class II, and CD205 and CD207 molecules, while the first dendritic leukocytes that colonize the fetal and newborn epidermis are only ADPase(+). In this study, we tested whether dendritic epidermal leukocytes (DEL) are end-stage cells or represent LC precursors. In epidermal sheets of fetal and neonatal mice, we found no apoptotic leukocytes, suggesting that these cells do not die in situ. To address whether DEL can give rise to LC, sorted DEL from murine newborn skin were cultured with cytokines used to generate LC from human CD34(+) precursors. After 7-14 days, DEL proliferated and acquired the morphology and phenotype of cells reminiscent of LC. In concordance with this finding, we show that neonatal epidermis harbors 10-20 times the number of cycling MHC class II(+) leukocytes as adult tissue. To test whether LC can differentiate from skin precursors in vivo, we developed a transplantation model. As it was impossible to transplant fetal epidermis, whole fetal skin was grafted onto adult severe combined immunodeficient mice. As opposed to the uniform absence of donor LC at the time of transplantation, examination of the epidermis from the grafts after 2-4 weeks revealed MHC class II(+) donor cells, which had acquired CD205 and CD207, thus qualifying them as LC. Finally, we present evidence that endogenous LC persist in skin grafts for the observation period of 45 days. These studies show that hematopoietic precursors seed the skin during embryonic life and can give rise to LC.

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Autocrine IL-10 partially prevents differentiation of neonatal dendritic epidermal leukocytes into Langerhans cells

Chang-Rodriguez

Ecker²,

Stingl

et al. 2004

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To test whether reduced immune responsiveness in early life may be related to the immaturity of neonatal antigen-presenting cells, we comparatively assessed the phenotypic and functional characteristics of dendritic epidermal leukocytes (DEL) and epidermal Langerhans cells (LC) in newborn (NB) and adult mice, respectively. We report that purified, 3-day-cultured DEL do not acquire the morphology and phenotype typical of LC and are significantly weaker stimulators of naive, allogeneic CD4+ and CD8+ T cells than LC. Freshly isolated DEL are twice as efficient as LC in the uptake of fluorescein isothiocyanate-conjugated tracers but are not able to present these to antigen-specific T cell hybridomas. To clarify the underlying cause, cytokine expression of NB and adult epidermal cells (EC) was examined. We found that DEL express considerable amounts of interleukin (IL)-10, that IL-10 in NB EC supernatants partially inhibits LC maturation, and that DEL-enriched EC from IL-10-/- mice induce stronger primary T cell responses compared with those from IL-10+/+ mice. We conclude that IL-10 is one of the factors preventing maturation and differentiation of DEL into immunocompetent LC in intrauterine life and is at least partly responsible for the poor immune responsiveness of neonates.

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Identification of an Indispensable Role for Tyrosine Kinase 2 in CTL-Mediated Tumor Surveillance

Simma

Zebedin

Neugebauer

et al. 2008

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We showed previously that Tyk2 À/À natural killer cells lack the ability to lyse leukemic cells. As a consequence, the animals are leukemia prone. Here, we show that the impaired tumor surveillance extends to T cells. Challenging Tyk2 À/À mice with EL4 thymoma significantly decreased disease latency. The crucial role of Tyk2 for CTL function was further characterized using the ovalbumin-expressing EG7 cells. Tyk2 À/À OT-1 mice developed EG7-induced tumors significantly faster compared with wild-type (wt) controls. In vivo assays confirmed the defect in CD8

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Sheep Placenta Cotyledons: A Noninvasive Source of Ovine Mesenchymal Stem Cells

Ribitsch

Chang-Rodriguez

Egerbacher³

et al. 2017

Tissue Engineering Part C: Methods

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Sheep are one of the most frequently used large animal models in stem cell research. However, minimal invasive or noninvasive sources of mesenchymal stem cells (MSCs) in sheep are scarce. In the light of the principles of the 3Rs (reduce, refine, replace), it would therefore be desirable to identify a minimally invasive or noninvasive ovine MSC source. In humans, the chorionic villi of the placenta, which can be noninvasively harvested as part of the afterbirth, have been identified as a rich source of MSCs. Therefore, in the present study, ovine placenta cotyledons, which have similar function and structure to human chorionic villi, were tested for their potential use as a noninvasive source of ovine MSCs. Through mincing of the placental cotyledons, collagenase digestion, and Ficoll density gradient centrifugation, combined with plastic adherence selection, MSCs were successfully isolated. Their morphological, immunophenotypical, and cellular growth characteristics, as well as their proliferation, differentiation, and migration potential, were evaluated and compared to the currently best-researched MSC source, bone marrow-derived stem cells. Ovine cotyledons were shown to be a reliable, abundant source for the noninvasive, pain- and risk-free harvest of MSCs. The collection procedure does not interfere with partum or the initial bonding phase between ewes and lambs and is therefore exempt from ethical debate. Ovine placenta cotyledon-derived MSCs exhibit multipotential characteristics and can be cryopreserved for later use.

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