Ursula Menzel scite author profile

We describe a reporter mouse strain designed to fate-map cells that have activated IL-17A. Here we show that TH17 cells show distinct plasticity in different inflammatory settings. Chronic inflammatory conditions in EAE caused a switch to alternative cytokines in TH17 cells, whereas acute cutaneous infection with Candida albicans, did not result in deviation of TH17 to alternative cytokine production, although IL-17A production was shut off in the course of the infection. During development of EAE, IFN-γ and other pro-inflammatory cytokines in the spinal cord were produced almost exclusively by ‘ex-TH17’ cells whose conversion was driven by IL-23. Thus, this model allows relating the actual functional fate of effector T cells to TH17 developmental origin irrespective of IL-17 expression.

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Mll Has a Critical Role in Fetal and Adult Hematopoietic Stem Cell Self-Renewal

McMahon

et al. 2007

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The Mixed Lineage Leukemia (Mll) gene is a homolog of Drosophila Trithorax commonly rearranged in infant leukemia. Comprehensive analysis of the role of Mll in hematopoiesis in fetal and adult knockout mice has been prevented by the lethality of Mll(-/-) mice. We have established a conditional deletion model that allows us to study adult hematopoiesis in the absence of Mll. In this study, Mll(-/-) embryos survive to E16.5 and have reduced numbers of HSCs. The quiescent fraction of these HSCs is greatly reduced, and they are unable to compete with wild-type cells in transplantation assays. Mice with Mll expression conditionally deleted in the hematopoietic system have grossly normal hematopoiesis in bone marrow, thymus, and spleen. However, transplanted Mll-deficient bone marrow cells are highly compromised in their ability to competitively reconstitute irradiated recipients. These results suggest a critical role for Mll in regulating stem cell self-renewal.

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HP1-β is required for development of the cerebral neocortex and neuromuscular junctions

et al. 2008

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HP1 proteins are thought to be modulators of chromatin organization in all mammals, yet their exact physiological function remains unknown. In a first attempt to elucidate the function of these proteins in vivo, we disrupted the murine Cbx1 gene, which encodes the HP1-β isotype, and show that the Cbx1−/−-null mutation leads to perinatal lethality. The newborn mice succumbed to acute respiratory failure, whose likely cause is the defective development of neuromuscular junctions within the endplate of the diaphragm. We also observe aberrant cerebral cortex development in Cbx1−/− mutant brains, which have reduced proliferation of neuronal precursors, widespread cell death, and edema. In vitro cultures of neurospheres from Cbx1−/− mutant brains reveal a dramatic genomic instability. Our results demonstrate that HP1 proteins are not functionally redundant and that they are likely to regulate lineage-specific changes in heterochromatin organization.

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CD146/MCAM distinguishes stem cell subpopulations with distinct migration and regenerative potential in degenerative intervertebral discs

Wangler

Menzel

et al. 2019

Osteoarthritis and Cartilage

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Objective: This study aimed to characterize the mesenchymal stem cell (MSC) subpopulation migrating towards a degenerated intervertebral disc (IVD) and to assess its regenerative potential. Design: Based on initial screening for migration towards CC motif chemokine ligand 5 (CCL5), the migration potential of CD146þ and CD146-mesenchymal stem cells (MSCs) was evaluated in vitro and in a degenerated organ culture model (degeneration by high-frequency loading in a bioreactor). Discogenic differentiation potential of CD146þ and CD146-MSCs was investigated by in vitro pellet culture assay with supplementation of growth and differentiation factor-6 (GDF6). Furthermore, trypsin degenerated IVDs were treated by either homing or injection of CD146þ or CD146-MSCs and glycosaminoglycan synthesis was evaluated by Sulphur 35 incorporation after 35 days of culture. Results: Surface expression of CD146 led to a higher number of migrated MSCs both in vitro and in organ culture. CD146þ and CD146-pellets responded with a similar up-regulation of anabolic markers. A higher production of sulfated glycosaminoglycans (sGAG)/DNA was observed for CD146þ pellets, while in organ cultures, sGAG synthesis rate was higher for IVDs treated with CD146-MSCs by either homing or injection. Conclusions: The CD146þ MSC subpopulation held greater migration potential towards degenerative IVDs, while the CD146-cells induced a stronger regenerative response in the resident IVD cells. These findings were independent of the application route (injection vs migration). From a translational point of view, our data suggests that CD146þ MSCs may be suitable for re-population, while CD146-MSCs may represent the primary choice for stimulation of endogenous IVD cells.

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AnIn VitroInvestigation of Platelet-Rich Plasma-Gel as a Cell and Growth Factor Delivery Vehicle for Tissue Engineering

Jalowiec

D’Este

Bara

et al. 2016

Tissue Engineering Part C: Methods

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Platelet-rich plasma (PRP) has been used for different applications in human and veterinary medicine. Many studies have shown promising therapeutic effects of PRP; however, there are still many controversies regarding its composition, properties, and clinical efficacy. The aim of this study was to evaluate the influence of different platelet concentrations on the rheological properties and growth factor (GF) release profile of PRP-gels. In addition, the viability of incorporated bone marrow-derived human mesenchymal stem cells (MSCs) was investigated. PRP (containing 1000 × 10(3), 2000 × 10(3), and 10,000 × 10(3) platelets/μL) was prepared from human platelet concentrates. Platelet activation and gelification were achieved by addition of human thrombin. Viscoelastic properties of PRP-gels were evaluated by rheological studies. The release of GFs and inflammatory proteins was measured using a membrane-based protein array and enzyme-linked immunosorbent assay. MSC viability and proliferation in PRP-gels were assessed over 7 days by cell viability staining. Cell proliferation was examined using DNA quantification. Regardless of the platelet content, all tested PRP-gels showed effective cross-linking. A positive correlation between protein release and the platelet concentration was observed at all time points. Among the detected proteins, the chemokine CCL5 was the most abundant. The greatest release appeared within the first 4 h after gelification. MSCs could be successfully cultured in PRP-gels over 7 days, with the highest cell viability and DNA content found in PRP-gels with 1000 × 10(3) platelets/μL. The results of this study suggest that PRP-gels represent a suitable carrier for both cell and GF delivery for tissue engineering. Notably, a platelet concentration of 1000 × 10(3) platelets/μL appeared to provide the most favorable environment for MSCs. Thus, the platelet concentration is an important consideration for the clinical application of PRP-gels.

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Ursula Menzel

Fate mapping of IL-17-producing T cells in inflammatory responses

Mll Has a Critical Role in Fetal and Adult Hematopoietic Stem Cell Self-Renewal

HP1-β is required for development of the cerebral neocortex and neuromuscular junctions

CD146/MCAM distinguishes stem cell subpopulations with distinct migration and regenerative potential in degenerative intervertebral discs

AnIn VitroInvestigation of Platelet-Rich Plasma-Gel as a Cell and Growth Factor Delivery Vehicle for Tissue Engineering

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