© F e r r a t a S t o r t i F o u n d a t i o nshown to be crucial in sustaining adult B-cell lymphopoiesis. 21 However, ablation of the FLT3/FLT3L axis alone did not result in a complete block in the generation of any hematopoietic lineage, suggesting that FLT3L might exert its crucial role in hematopoiesis through interactions with other cytokines, such as interleukin-7 (IL-7) or stem cell factor. 19,22,23 To elucidate the specific action of FLT3L on hematopoiesis in vivo, FLT3L has been administered, with the results confirming the important role of FLT3L in DC generation. 24 We have previously shown that apart from DC, FLT3L injection leads to transient expansion of a FLT3 + progenitor population with lymphoid and myeloid potential. 25 In order to evaluate the role of FLT3L in the development of different hematopoietic lineages, in this study we investigated the effects of sustained over-expression of FLT3L in a transgenic mouse model. Our study confirms the positive role of FLTL in DC development and highlights the importance of this cytokine in the survival and expansion of lymphoid and myeloid progenitors. Furthermore, our data provide evidence for an instructive role of FLT3L in hematopoietic development. Methods MiceAll mice used in this study were bred and maintained in our animal facility under pathogen-free conditions and all animal experiments were performed in accordance with institutional guidelines (permission numbers 1887 and 1888). Immunization to induce a Tdependent antibody response and FLT3L treatment of mice were carried out as previously described. 25 Cell culturesST2, OP9 and OP9 stromal cells expressing Notch ligand Deltalike 1 (OP9DL1) were maintained in IMDM supplemented with 5 x 10 -5 M β-mercaptoethanol, 1 mM glutamine, 0.03% w/v Primatone (Quest Naarden, the Netherlands), 100 U/mL penicillin, 100 μg/mL streptomycin and 5% fetal bovine serum. Co-cultures of stromal cells with sorted progenitor cells were performed as previously described 25 (and Online Supplementary Materials and Methods). Platelet countsBlood was drawn from the tail vein of mice and incubated with 1% ammonium oxalate for 10 min at room temperature. Following incubation, live cells were counted in a Neubauer hemocytometer. ImmunofluorescenceSpleens were snap-frozen and embedded in OCT-compound (Sakura, Zoetermeer, the Netherlands), and 5 μm sections were prepared. Sections were fixed in acetone for 10 min, air-dried for 60 min and subsequently stained with fluorescein isothiocyanatelabeled anti-CD90, phycoerythrin-labeled anti-IgM and allophycocyanin-labeled anti-CD11c antibodies for 30 min. Results Splenomegaly and lymphadenopathy in FLT3L transgenic miceTo investigate the effect of prolonged FLT3L overexpression, we generated mice expressing the human FLT3L gene under the control of the β-actin promoter (hereafter referred to as FLT3L-Tg mice). FLT3L levels in the blood were in the range of 500-1000 ng/mL, as assesed by enzyme-linked immunosorbent assay using an antihuman FLT3L antibody developed in our ...
Additional supporting information may be found in the online version of this article at the publisher's web-site
T cell development in the thymus is essential for cellular immunity and depends on the organotypic thymic epithelial microenvironment. In comparison with other organs, the size and cellular composition of the thymus are unusually dynamic, as exemplified by rapid growth and high T cell output during early stages of development, followed by a gradual loss of functional thymic epithelial cells and diminished naive T cell production with age1–10. Single-cell RNA sequencing (scRNA-seq) has uncovered an unexpected heterogeneity of cell types in the thymic epithelium of young and aged adult mice11–18; however, the identities and developmental dynamics of putative pre- and postnatal epithelial progenitors have remained unresolved1,12,16,17,19–27. Here we combine scRNA-seq and a new CRISPR–Cas9-based cellular barcoding system in mice to determine qualitative and quantitative changes in the thymic epithelium over time. This dual approach enabled us to identify two principal progenitor populations: an early bipotent progenitor type biased towards cortical epithelium and a postnatal bipotent progenitor population biased towards medullary epithelium. We further demonstrate that continuous autocrine provision of Fgf7 leads to sustained expansion of thymic microenvironments without exhausting the epithelial progenitor pools, suggesting a strategy to modulate the extent of thymopoietic activity.
The TNF-related apoptosis-inducing ligand (TRAIL) is a powerful inducer of apoptosis in tumor cells; however, clinical studies with recombinant soluble TRAIL were rather disappointing. Here, we developed TRAIL-functionalized liposomes (LipoTRAIL, LT) to mimic membrane-displayed TRAIL for efficient activation of death receptors DR4 and DR5 and enhanced induction of apoptosis, which were combined with an anti-EGFR single-chain Fv fragment (scFv) for targeted delivery to EGFR-positive tumor cells. These immuno-LipoTRAILs (ILTs) bound specifically to EGFR-expressing cells (Colo205) and exhibited increased cytotoxicity compared with that of nontargeted LTs. Compared to that of the soluble TRAIL, the plasma half-life of the functionalized liposomes was strongly extended, and increased antitumor activity of LT and ILT was demonstrated in a xenograft tumor model. Thus, we established a multifunctional liposomal TRAIL formulation (ILT) with improved pharmacokinetic and pharmacodynamic behavior, characterized by targeted delivery and increased induction of apoptosis due to multivalent TRAIL presentation.
The numbers of thymic epithelial cells (TECs) and thymocytes steadily increase during embryogenesis. To examine this dynamic, we generated several TEC-specific transgenic mouse lines, which express fluorescent proteins in the nucleus, the cytosol and in the membranes under the control of the Foxn1 promoter. These tools enabled us to determine TEC numbers in tissue sections by confocal fluorescent microscopy, and in the intact organ by light-sheet microscopy. Compared to histological procedures, flow cytometric analysis of thymic cellularity is shown to underestimate the numbers of TECs by one order of magnitude; using enzymatic digestion of thymic tissue, the loss of cortical TECs (cTECs) is several fold greater than that of medullary TECs (mTECs), although different cTEC subsets appear to be still present in the final preparation. Novel reporter lines driven by Psmb11 and Prss16 promoters revealed the trajectory of differentiation of cTEC-like cells, and, owing to the additional facility of conditional cell ablation, allowed us to follow the recovery of such cells after their depletion during embryogenesis. Multiparametric histological analyses indicate that the new transgenic reporter lines not only reveal the unique morphologies of different TEC subsets, but are also conducive to the analysis of the complex cellular interactions in the thymus.
Some signs of potential autoimmunity, such as the appearance of antinuclear antibodies (ANAs) become prevalent with age. In most cases, elderly people with ANAs remain healthy. Here, we investigated whether the same holds true for inbred strains of mice. Indeed, we show that most mice of the C57BL/6 (B6) strain spontaneously produced IgG ANA at 8-12 months of age, showed IgM deposition in kidneys and lymphocyte infiltrates in submandibular salivary glands. Despite all of this, the mice remained healthy. ANA production is likely CD4 + T-cell dependent, since old (40-50 weeks of age) B6 mice deficient for MHC class II do not produce IgG ANAs. BM chimeras showed that ANA production was not determined by age-related changes in radiosensitive, hematopoietic progenitor cells, and that the CD4 + T cells that promote ANA production were radioresistant.Thymectomy of B6 mice at 5 weeks of age led to premature alterations in T-cell homeostasis and ANA production, by 15 weeks of age, similar to that in old mice. Our findings suggest that a disturbed T-cell homeostasis may drive the onset of some autoimmune features.Keywords: Antinuclear antibody r Autoimmunity r Sjögren's syndrome r T-cell homeostasis See accompanying Commentary by Winkler and WaismanAdditional supporting information may be found in the online version of this article at the publisher's web-site IntroductionIt is well established that the functional activity of the immune system declines with age. The fact that mortality and morbidity during annual influenza epidemics increases in the elderly population is a clear example of this [1]. Moreover, influenza vaccinations are only marginally protective for the elderly [2][3][4]. Yet another example of immune activity decline with age is the reactivation of the Varicella zoster virus in the elderly. The frequency of this reactivation increases in individuals after the fiftieth year [5] and is thought to be due to a generalized decreased memory response to Correspondence: Prof. Antonius Rolink e-mail: antonius.rolink@unibas.ch chronic infections. In addition, some malignancies are more often found among the elderly [6]. For multiple myeloma, the median age of diagnosis is 66 years and only 2% of all patients are younger than 40 years of age. The increased incidence of this plasma cell tumor and of certain other malignancies with age might suggest that, in these cases, immune surveillance is effective in young individuals, but declines with age. The decline in immune competence is thought to be due to an age-related decrease in production of both B cells and T cells. We and others have shown that in both mouse and man, B-cell production decreases with age [7][8][9]. Thus, the frequency of mouse BM derived pro-B cells, which can be grown on stromal cells in the presence of IL-7, decreases with age: from a frequency of around 1 in 50 at 2 weeks of age, whereas this frequency drops to 1 in C 2014 WILEY-VCH Verlag GmbH & Co. KGaA, Weinheim www.eji-journal.eu 2894 Anja Nusser et al. Eur. J. Immunol. 2014. 44: 2893-2902...
The onset of lymphocyte development in the vertebrate primordial thymus, about 500 million years ago, represents one of the foundational events of the emerging adaptive immune system. Here, we retrace the evolutionary trajectory of thymopoiesis, from early vertebrates to mammals, guided by members of the Foxn1/4 transcription factor gene family, which direct the differentiation of the thymic microenvironment. Molecular engineering in transgenic mice recapitulated a gene duplication event, exon replacements, and altered expression patterns. These changes predictably modified the lymphopoietic characteristics of the thymus, identifying molecular features contributing to conversion of a primordial bipotent lymphoid organ to a tissue specializing in T cell development. The phylogenetic reconstruction associates increasing efficiency of T cell generation with diminishing B cell–generating capacity of the thymus during jawed vertebrate evolution.
Autoimmune diseases develop when self-specific T cells that escaped negative selection initiate a harmful immune response against self. However, factors, which influence the initiation and progression of an autoimmune response remain incompletely understood. By establishing a double-transgenic BALB/c mouse system in which different amounts of a cell-surface neo-self-antigen are expressed under the CD11c promoter, we demonstrate that antigen dose dramatically influences T-cell tolerance mechanisms. Moderate antigen expression in both hematopoietic and nonhematopoietic cells favors the development of antigen-specific Treg cells and the establishment of a tolerogenic environment. In marked contrast, a high dose of antigen expression results in very stringent negative selection, in poor development of antigen-specific Treg cells and in the early onset of anemia and splenomegaly and the late development of arthritis and high titers of IgG auto Abs. Disease is initiated by autoreactive T cells, which escape negative selection by expressing a second TCR with a different specificity or an altered affinity. Transfer of Ag-specific Treg cells ameliorates the early onset signs of disease but does not prevent the development of long-term chronic pathologies. Altogether, our results suggest that Ag dose directly affects Treg-cell generation and thus, the set-up of T-cell tolerance.
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