骨髓造血干细胞微环境

近来成体干细胞的研究进展为许多重大疾病的治疗带来了新的希望.造血干细胞 (hematopoietic stem cells, HSCs)是迄今认识到的最为典型的成体干细胞, 骨髓是干细胞研究的主要组织, 许多成体干细胞的概念及其基本特征源于对骨髓中造血干细胞的研究.近年来的重要进展之一是微环境对HSCs的调节功能, 干细胞微环境有准确的解剖学定位, 也是一个生理功能的基本单位, 整合介导机体对干细胞需求的反应信号, 从而调节干细胞的数量和命运.在病理条件下, 微环境仍然调节干细胞的功能, 因此对造血微环境的认识已成为干细胞研究的中心内容.现对骨髓造血干细胞微环境的组成、信号及修饰的研究进展进行综述, 为深入研究干细胞微环境的结构和功能提供背景资料.     

Rate of Non-Adherent Cell Loss From Long-Term Cultures of Murine Bone Marrow: Effect of Medium Conditioned By the Adherent Cell Population

Abstract. The rate of random spontaneous cell loss from the non-adherent cell population of long-term cultures of murine bone marrow was determined. the measured rate of non-adherent cell loss is affected by previous conditioning of the medium in which the non-adherent cells are suspended. Specifically, the measured rate of non-adherent cell loss is significantly slowed when the non-adherent cells are suspended in medium conditioned in long-term haematopoietic cultures instead of fresh medium. It appears that a subset of the adherent cell population is the source of the factor or factors within the medium which result in this slower measured rate of non-adherent cell loss. This effect may be due to the stimulation to division of haematopoietic progenitor cells, offsetting the lysis of other non-adherent cells.     

Placental Growth Factor Expression Is Required for Bone Marrow Endothelial Cell Support of Primitive Murine Hematopoietic Cells

Two distinct microenvironmental niches that regulate hematopoietic stem/progenitor cell physiology in the adult bone marrow have been proposed; the endosteal and the vascular niche. While extensive studies have been performed relating to molecular interactions in the endosteal niche, the mechanisms that regulate hematopoietic stem/progenitor cell interaction with bone marrow endothelial cells are less well defined. Here we demonstrate that endothelial cells derived from the bone marrow supported hematopoietic stem/progenitor cells to a higher degree than other endothelial or stromal cell populations. This support was dependant upon placental growth factor expression, as genetic knockdown of mRNA levels reduced the ability of endothelial cells to support hematopoietic stem/progenitor cells in vitro. Furthermore, using an in vivo model of recovery from radiation induced myelosuppression, we demonstrate that bone marrow endothelial cells were able to augment the recovery of the hematopoietic stem/progenitor cells. However, this effect was diminished when the same cells with reduced placental growth factor expression were administered, possibly owing to a reduced homing of the cells to the bone marrow vasculature. Our data suggest that placental growth factor elaborated from bone marrow endothelial cells mediates the regulatory effects of the vascular niche on hematopoietic stem/progenitor cell physiology.     

Self-Renewing Human Bone Marrow Mesenspheres Promote Hematopoietic Stem Cell Expansion

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骨髓移植与造血干细胞研究

骨髓移植是目前治疗白血病等血液疾病最有效的方法。在经历了多年的发展并已取得巨大成就的今天,骨髓移植仍然面,临很多问题。造血干细胞研究必将解决骨髓移植中的诸多问题。重点对造骨髓移植的发展历史,所面临的问题以及造血干细胞研究的进展进行简要的概述。     

Homing of Hematopoietic Cells to the Bone Marrow

Homing is the phenomenon whereby transplanted hematopoietic cells are able to travel to and engraft or establish residence in the bone marrow. Various chemomkines and receptors are involved in the homing of hematopoietic stem cells. [1, 2]This paper outlines the classic homing protocol used in hematopoietic stem cell studies. In general this involves isolating the cell population whose homing needs to be investigated, staining this population with a dye of interest and injecting these cells into the blood stream of a recipient animal. The recipient animal is then sacrificed at a pre-determined time after injection and the bone marrow evaluated for the percentage or absolute number of cells which are positive for the dye of interest. In one of the most common experimental schemes, the homing efficiency of hematopoietic cells from two genetically distinct animals (a wild type animal and the corresponding knock-out) is compared. This article describes the hematopoietic cell homing protocol in the framework of such as experiment.     

Niches of Hematopoietic Stem Cells in Bone Marrow

Molecular Biology - Hematopoietic stem cells (HSCs) exist in a close contact with their specific microenvironment, called a niche, which supports the HSC function and significantly influences the...     

Murine Hind Limb Long Bone Dissection and Bone Marrow Isolation

Investigation of the bone and the bone marrow is critical in many research fields including basic bone biology, immunology, hematology, cancer metastasis, biomechanics, and stem cell biology. Despite the importance of the bone in healthy and pathologic states, however, it is a largely under-researched organ due to lack of specialized knowledge of bone dissection and bone marrow isolation. Mice are a common model organism to study effects on bone and bone marrow, necessitating a standardized and efficient method for long bone dissection and bone marrow isolation for processing of large experimental cohorts. We describe a straightforward dissection procedure for the removal of the femur and tibia that is suitable for downstream applications, including but not limited to histomorphologic analysis and strength testing. In addition, we outline a rapid procedure for isolation of bone marrow from the long bones via centrifugation with limited handling time, ideal for cell sorting, primary cell culture, or DNA, RNA, and protein extraction. The protocol is streamlined for rapid processing of samples to limit experimental error, and is standardized to minimize user-to-user variability.     

Neural Markers Espression in Rat Bone Marrow Mesenchymal Stem Cell Cultures Treated with Neurosteroids

The aim of the present investigation is to study the effects of DEX or E(2) treatment during differentiation towards neural cell line of rat BM-MSCs in culture. In order to better characterize biochemically our in vitro model, we evaluate by western blotting and immunocytochemical analysis some neural lineage markers (nestin, neurofilament, β-tubulin) and MAP-Kinases. An enhanced expression of the neural markers and MAP-Kinase in DEX-treated BM-MSCs cultures is found. In addition, E(2)-treatment increases MAP-Kinase and β-tubulin expression, but it decreases nestin and neurofilament expression. In conclusion, our findings highlight a significant up and down modulation of nestin, neurofilament, β-tubulin and MAP-Kinases expression in neurosteroids-treated BM-MSCs. In particular, our results clarify the molecular mechanism involved during eventual differentiation of these stem cells treated with DEX and E(2), addressed towards a neural cell line, that may express neurotrophic receptors and release neurotrophines particularly implicated during neurogenesis processes.     

Preparation of Bone Marrow Sections

It is possible to prepare in the following manner sections of aspirated bone marrow suitable for staining by the majority of conventional methods. The aspirated marrow is ejected into a small test tube containing 0.5 mg heparin powder. At any convenient time during the next hour the material is poured into a watch glass, and the individual marrow particles, free from excess blood, transferred by means of a thin pointed plastic rod to a jar containing 10-15 ml of fixative. Any of the commonly employed fixatives may be used. After not less than 1 hr, the marrow particles are poured onto filter paper from which they are removed to a test tube containing 70% ethanol. During dehydration with absolute ethanol, clearing with two changes of chloroform and embedding in paraffin wax, the particles remain in the tube. After cooling, the tube is broken and the material, found at the apex of the round-ended block, is readily accessible for cutting. Concentration is sufficient to allow the whole sample to be studied in a small number of serial sections. Experience has shown that these sections are equally satisfactory for the study of morphology, cytology, or mineral content.     

Haemopoietic Inductive Capacity of Irradiated Stromal Cell Layers In Human Micro Long-Term Bone Marrow Cultures

Abstract. In a micro long-term bone marrow culture (LTBMC) system the effects of irradiation on confluent stromal cell layers were studied. In order to individually analyse the number of granulocyte-macrophage colony-forming cells (GM-CFC) per LTBMC a miniaturized human GM-CFC assay was established. the normalized GM-CFC numbers in the micro-assay compared well with data by the conventional GM-CFC assay. Pre-formed stromal cell layers were irradiated with doses up to 20 Gy and subsequently recharged with allogeneic bone marrow cells (BMC). Immediately before recharge the BMC were stromal cell-depleted by nylon wool filtration. When stromal cell-depleted BMC were inoculated on empty culture dishes, in vitro haemopoiesis rapidly declined. Sustained GM-CFC production, however, was seen when these cells were used as a second inoculum. It is concluded that irradiation doses of up to 20 Gy do not cause alteration of the haemopoietic inductive capacity of confluent stromal cell layers.     

Preparation of Primary Bovine Corneal Epithelial Cell Cultures for Use in Virological Investigations

Primary and secondary cell cultures in sufficient quantity for use in virological investigations were prepared and were found suitable for growth of animal viruses.     

Generation of Eosinophils from Cryopreserved Murine Bone Marrow Cells

Eosinophils are produced in the bone marrow from CD34⁺ eosinophil lineage–committed progenitors, whose levels in the bone marrow are elevated in a variety of human diseases. These findings suggest that increased eosinophil lineage–committed progenitor production is an important process in disease-associated eosinophilia. The pathways central to the biology of the eosinophil lineage–committed progenitor remain largely unknown. Thus, developing new methods to investigate the regulators of eosinophil lineage–committed progenitor differentiation is needed to identify potential therapeutic targets to specifically inhibit eosinophil production. We tested cytokine regimens to optimize liquid cultures for the study of eosinophil lineage–committed progenitor and eosinophil precursor differentiation into mature eosinophils. Stem cell factor (but not fms-related tyrosine kinase 3 ligand) was required for optimal yield of eosinophils. Furthermore, we evaluated the effects of cell preservation and scale on the culture, successfully culturing functional eosinophils from fresh and frozen murine bone marrow cells and in a standard-sized and 96-well culture format. In summary, we have developed an adaptable culture system that yields functionally competent eosinophils from murine low-density bone marrow cells and whose cytokine regime includes expansion of progenitors with stem cell factor alone with subsequent differentiation with interleukin 5.     

Stimulating Factors and Cell Recruitment In Murine Bone Marrow Stem Cells and Emt6 Tumours

The role of a stimulating factor in cell recruitment and the kinetics of its secretion were investigated by in vivo and in vitro techniques. the association of these two methods made it possible to demonstrate that a non-cycling population liberates a factor which in turn stimulates quiescent bone marrow stem cells into DNA synthesis. Moreover, it seems that undamaged cells are capable of secreting this factor. A stimulating factor responsible for cell recruitment was also demonstrated in an experimental EMT6 tumour and the kinetics of its secretion reported.     

Optimization of Single-Cell Electroporation Protocol for Forced Gene Expression in Primary Neuronal Cultures

The development and function of the central nervous system (CNS) are realized through interactions between many neurons. To investigate cellular and molecular mechanisms of the development and function of the CNS, it is thus crucial to be able to manipulate the gene expression of single neurons in a complex cell population. We recently developed a technique for gene silencing by introducing small interfering RNA into single neurons in primary CNS cultures using single-cell electroporation. However, we had not succeeded in forced gene expression by introducing expression plasmids using single-cell electroporation. In the present study, we optimized the experimental conditions to enable the forced expression of green fluorescent protein (GFP) in cultured cerebellar Purkinje neurons using single-cell electroporation. We succeeded in strong GFP expression in Purkinje neurons by increasing the inside diameter of micropipettes or by making the size of the original plasmid smaller by digestion and cyclizing it by ligation. Strong GFP expression in Purkinje neurons electroporated under the optimal conditions continued to be observed for more than 25 days after electroporation. Thus, this technique could be used for forced gene expression in single neurons to investigate cellular and molecular mechanisms of the development, function, and disease of the CNS.     

Effects of Bone Marrow Stromal Cell-conditioned Medium on Primary Cultures of Peripheral Nerve Tissues and Cells

Implantation of bone marrow stromal cells (MSCs) produces an improved functional outcome of peripheral nerve repair. In this study, rat dorsal root ganglion (DRG) explants, rat DRG neurons, and rat Schwann cells (SCs) were treated with monkey MSC-conditioned medium, respectively, and then subjected to MTT assay, Bromodeoxyuridine/Hoechst 33342 double staining, flow cytometry, immunohistochemistry, real-time quantitative PCR, and Western blot analysis, respectively. The results showed that MSC-conditioned medium enhanced axon growth and neurogenesis in cultured DRG explants, augmented cell survival of and expression of NF and GAP-43 by cultured DRG neurons, promoted cell survival and proliferation of cultured SCs, and increased the expression of NGF, BDNF, and bFGF in cultured SCs. We also found that mitogen-activated protein kinase (MAPK)/extracellular signal-regulated kinase (Erk) 1/2 pathway was involved in the enhanced cell proliferation of SCs evoked by MSC-conditioned medium. The data of this study might help the understanding of MSCs-based treatment for peripheral nerve repair.     

CD150high Bone Marrow Tregs Maintain Hematopoietic Stem Cell Quiescence and Immune Privilege via Adenosine

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Effect of Medium Osmolality On the Growth of Murine Continuous Marrow Cultures

The effect of medium osmolality was examined in primary, continuous bone-marrow cultures established from to strain mice. the non-adherent cell population increased exponentially between weeks 2 and 5 and thereafter declined steadily. the number of CFU-GM followed a similar pattern but showed greater variability. the optimum osmolality in 4 week old cultures was found to be about 345 mosmol/kg which was higher than the plasma osmolality (n= 20; mean = 323.3 mosmol/kg; range = 313–331). Maximum non-adherent cell numbers were found at about 345 mosmol/kg (better than half-maximum between 320 and 370 mosmol/kg). CFU-GM numbers in the culture supernatant were maximal at about 355 mosmol/kg (better than half-maximum between 320 and 400 mosmol/kg). an adherent layer developed over a wider range of osmolality than supported granulopoiesis (better than half-maximum between 258 and 402 mosmol/kg). It was necessary to increase the osmolality of Fischer's medium in order to obtain maximum growth.     

Isolation and Intravenous Injection of Murine Bone Marrow Derived Monocytes

As a subtype of leukocytes and progenitors of macrophages, monocytes are involved in many important processes of organisms and are often the subject of various fields in biomedical science. The method described below is a simple and effective way to isolate murine monocytes from heterogeneous bone marrow.Bone marrow from the femur and tibia of Balb/c mice is harvested by flushing with phosphate buffered saline (PBS). Cell suspension is supplemented with macrophage-colony stimulating factor (M-CSF) and cultured on ultra-low attachment surfaces to avoid adhesion-triggered differentiation of monocytes. The properties and differentiation of monocytes are characterized at various intervals. Fluorescence activated cell sorting (FACS), with markers like CD11b, CD115, and F4/80, is used for phenotyping. At the end of cultivation, the suspension consists of 45%± 12% monocytes. By removing adhesive macrophages, the purity can be raised up to 86%± 6%. After the isolation, monocytes can be utilized in various ways, and one of the most effective and common methods for in vivo delivery is intravenous tail vein injection. This technique of isolation and application is important for mouse model studies, especially in the fields of inflammation or immunology. Monocytes can also be used therapeutically in mouse disease models.