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ABSTRACT: Enormous confusion still exists in the scientific community regarding the in vivo identity of putative bone marrow (BM) multipotent mesenchymal progenitor cells (MPCs). There is still lack of consensus between laboratories on this issue but recent advancements in this field have shed light on the identity of these cells in humans. However, in mice there are limited and reproducible data available that convincingly define prospectively these cells in vivo. In this review we will critically address: 1) important considerations on how to interpret MPC nomenclature, heterogeneity and differentiation abilities; 2) potential surface antigens that could aid in the isolation of MPC from mouse BM; 3) and their topography and prospective cellular relationship with pericytes, adventitial reticulocytes (ARCs) and vascular smooth muscle cells (VSMCs).
Best practice & research. Clinical haematology 03/2011; 24(1):13-24. · 3.13 Impact Factor
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Lionel Franz Poulin,
Mariolina Salio,
Emmanuel Griessinger, Fernando Anjos-Afonso,
Ligia Craciun,
Ji-Li Chen,
Anna M Keller,
Olivier Joffre,
Santiago Zelenay,
Emma Nye,
Alain Le Moine,
Florence Faure,
Vincent Donckier,
David Sancho,
Vincenzo Cerundolo,
Dominique Bonnet,
Caetano Reis e Sousa
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ABSTRACT: In mouse, a subset of dendritic cells (DCs) known as CD8alpha+ DCs has emerged as an important player in the regulation of T cell responses and a promising target in vaccination strategies. However, translation into clinical protocols has been hampered by the failure to identify CD8alpha+ DCs in humans. Here, we characterize a population of human DCs that expresses DNGR-1 (CLEC9A) and high levels of BDCA3 and resembles mouse CD8alpha+ DCs in phenotype and function. We describe the presence of such cells in the spleens of humans and humanized mice and report on a protocol to generate them in vitro. Like mouse CD8alpha+ DCs, human DNGR-1+ BDCA3hi DCs express Necl2, CD207, BATF3, IRF8, and TLR3, but not CD11b, IRF4, TLR7, or (unlike CD8alpha+ DCs) TLR9. DNGR-1+ BDCA3hi DCs respond to poly I:C and agonists of TLR8, but not of TLR7, and produce interleukin (IL)-12 when given innate and T cell-derived signals. Notably, DNGR-1+ BDCA3+ DCs from in vitro cultures efficiently internalize material from dead cells and can cross-present exogenous antigens to CD8+ T cells upon treatment with poly I:C. The characterization of human DNGR-1+ BDCA3hi DCs and the ability to grow them in vitro opens the door for exploiting this subset in immunotherapy.
Journal of Experimental Medicine 06/2010; 207(6):1261-71. · 13.85 Impact Factor
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ABSTRACT: This unit describes how to isolate and expand mesenchymal stromal cells (MSCs) from mouse bone marrow. For reasons that are not clear, it has been difficult to isolate these cells (also known as mesenchymal stem cells). Furthermore, different mouse strains seem to have specific requirements for successful extraction and culture of these cells. A general and easy protocol is presented here for isolating stromal cells from different inbred and transgenic mice commonly used in the stem cell biology field.
Current protocols in stem cell biology 11/2008; Chapter 2:Unit 2B.3.
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David C Taussig,
Farideh Miraki-Moud, Fernando Anjos-Afonso,
Daniel J Pearce,
Kirsty Allen,
Christopher Ridler,
Debra Lillington,
Heather Oakervee,
Jamie Cavenagh,
Samir G Agrawal,
T Andrew Lister,
John G Gribben,
Dominique Bonnet
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ABSTRACT: Immunodeficient mice are increasingly used to assay human hematopoietic repopulating cells as well as leukemia-initiating cells. One method commonly used to isolate these rare cells is to sort cells stained with fluorochrome-conjugated antibodies into fractions, then transplant the different fractions into immunodeficient mice to test their repopulating ability. The antibodies are generally treated as being neutral in terms of their effects on the experiment. Human repopulating cells are thought to express CD34 and lack CD38. Here we present evidence that anti-CD38 antibodies have a profound inhibitory effect on engraftment of cord blood and leukemia cells. We show that this effect is Fc-mediated and can be overcome by treating mice with immunosuppressive antibodies. When this inhibitory effect is prevented, we demonstrate that the CD34(+)CD38(+) fraction of certain acute myeloid leukemia samples contains all, or at least most, leukemia-initiating cell capacity. This study highlights the potential pitfall of antibody-mediated clearance of repopulating cells and is important for any groups working with this model. More importantly, the work suggests that there is greater variation in the phenotypes of leukemia-initiating cells than previously suggested.
Blood 08/2008; 112(3):568-75. · 9.90 Impact Factor
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ABSTRACT: We have investigated how Wnt and vitamin D receptor signals regulate epidermal differentiation. Many epidermal genes induced by beta-catenin, including the stem cell marker keratin 15, contain vitamin D response elements (VDREs) and several are induced independently of TCF/Lef. The VDR is required for beta-catenin induced hair follicle formation in adult epidermis, and the vitamin D analog EB1089 synergizes with beta-catenin to stimulate hair differentiation. Human trichofolliculomas (hair follicle tumours) are characterized by high nuclear beta-catenin and VDR, whereas infiltrative basal cell carcinomas (BCCs) have high beta-catenin and low VDR levels. In mice, EB1089 prevents beta-catenin induced trichofolliculomas, while in the absence of VDR beta-catenin induces tumours resembling BCCs. We conclude that VDR is a TCF/Lef-independent transcriptional effector of the Wnt pathway and that vitamin D analogues have therapeutic potential in tumors with inappropriate activation of Wnt signalling.
PLoS ONE 02/2008; 3(1):e1483. · 4.09 Impact Factor
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ABSTRACT: The bone marrow mesenchymal compartment contains putative stem/progenitors of skeletal tissue components such as bone, cartilage, haematopoiesis-supporting stroma and adipocytes. Previously appreciated as vital to the support of haematopoiesis, these cells have also been recently recognized as having significant immunomodulatory properties with implications for allogeneic haematopoietic cell transplantation. Despite having been studied for more than three decades and currently being used in different clinical settings, their biology remains elusive. The aim of this review is to critically analyse the field of mesenchymal stem/progenitor cell biology, in respect of their relationship with other mesenchymal cell-types. Several issues concerning lineage commitment and inter-conversion potential between different mesenchymal cell-types are reviewed.
British Journal of Haematology 12/2007; 139(3):373-84. · 4.94 Impact Factor
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ABSTRACT: It is thought that, as we age, damage to our stem cells may lead to diminished stem cell pool function and, consequently, a reduced organ regeneration potential that contributes to somatic senescence. Stem cells have evolved many antitoxicity mechanisms, and certain mechanisms may be utilized to isolate hematopoietic stem cells. One method exploits the activity of the ATP-binding cassette/G2 transporter to efflux Hoechst 33,342 and results in a stem cell population known as the side population (SP). The SP subset represents a remarkable enrichment for hematopoietic stem cells and provides an opportunity to re-evaluate age-based changes in hematopoietic stem cells. We report here that the frequency of SP cells steadily increases with age, as does the proportion of Lin(-)/Sca-1(+)/c-kit(+) cells that is capable of Hoechst efflux. Phenotyping, progenitor, and long-term repopulation assays have indicated that SP cells in older mice are still stem cells, albeit with a lower homing efficiency than SP cells from younger mice. Analysis of apoptosis within SP cells has revealed an apoptosis-resistant population in SP cells from old mice. Gene expression analysis has determined that SP cells from old mice have a reduced expression of apoptosis-promoting genes than SP cells from young mice. This increase in SP cells with age seems to be an intrinsic property that may be independent of the age of the microenvironment (niche), and our data might provide some clues as to how this alteration in the proportion of stem/progenitor cells occurs. A possible selection-based mechanism of stem cell pool aging is discussed.
Stem Cells 05/2007; 25(4):828-35. · 7.78 Impact Factor
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ABSTRACT: It is believed that a primitive cell type that maintains the mesenchymal compartment exists in the bone marrow. However, this putative mesenchymal stem/progenitor cell is yet to be identified and isolated. We are reporting the identification, isolation, and detailed characterization of the most primitive mesenchymal progenitor cells in the adult murine bone marrow, based on the expression of stage-specific embryonic antigen-1 (SSEA-1). This primitive subset can be identified in mesenchymal cell cultures and also directly in the bone marrow, thus ascertaining for the first time their existence in an adult organism. Characterization of SSEA-1+ mesenchymal cells revealed that upon purification these cells gave rise to SSEA-1- mesenchymal cells, whereas the reverse could not be observed. Also, these SSEA-1+ cells have a much higher capacity to differentiate than their negative counterparts, not only to several mesenchymal cell types but also to unconventional cell types such as astrocyte-, endothelial-, and hepatocyte-like cells in vitro. Most importantly, a single-cell-derived population was capable of differentiating abundantly into different mesenchymal cell types in vivo. Altogether we are proposing a hierarchical organization of the mesenchymal compartment, placing SSEA-1+ cells at the apex of this hierarchy.
Blood 03/2007; 109(3):1298-306. · 9.90 Impact Factor
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ABSTRACT: Murine mesenchymal stem cells are capable of differentiating in vitro into different lineages under stimulation with certain cytokines, growth factors and chemicals. However, the true capacity of these cells to contribute to different cell-types in vivo is still unclear, especially under minimal injury conditions. In this study, we describe a method of purifying murine mesenchymal stem cells from bone marrow and efficiently transducing them using a lentivirus vector expressing the eGFP reporter gene. Lentivirus-transduced mesenchymal stem cells retained their in vitro ability to differentiate into adipocytes, osteocytes and chondrocytes as well as into myocyte- and astrocyte-like cells. eGFP-mesenchymal stem cells were delivered systemically into minimally injured syngeneic mice. Tracking and tissue-specific differentiation were determined by PCR and immunohistochemistry, respectively. We found donor-derived hepatocytes, lung epithelial cells, myofibroblasts, myofibers and renal tubular cells in some of the recipient mice. Our data indicate that even in the absence of substantial injury, phenotypically defined murine mesenchymal stem cells could acquire tissue specific morphology and antigen expression and thus contribute to different tissue cell-types in vivo.
Journal of Cell Science 12/2004; 117(Pt 23):5655-64. · 6.11 Impact Factor
