Preparation of a lymphoblastoid B-cell line from a long-term suspension culture of human bone marrow

Lymphoblastoid cell line was obtained from long-term human bone marrow culture. The cell line was characterized using methods of immunological phenotyping, cytochemistry and cytogenetics. This cell line represents different stages of B-cell differentiation, karyotype 46 XX. The cells of this line were able to support their growth during more than 10 months without exogenous stimulation.     

Characterization of reticulofibroblastoid colonies (CFU-RF) derived from bone marrow and long-term marrow culture monolayers

The maintenance of hemopoietic precursors in long-term liquid bone marrow cultures (LTBMC) is associated with the presence of an adherent stromal layer composed of heterogeneous cell populations. We have used a culture assay to promote the growth of one of its cellular components and characterize its properties. Freshly obtained bone marrow cells and cells derived from the adherent layer of LTBMC were grown in methylcellulose-clotted plasma in the presence of phytohemagglutinin-stimulated leukocyte-conditioned medium (PHA-LCM), hydrocortisone (HC), and citrated normal human plasma. Both sources contained cells (CFU-RF) that gave rise to colonies of cells with a reticulofibroblastoid appearance. In the presence of HC, most colonies contained lipid-laden cells. Colonies could be further propagated as adherent layers when transferred into liquid cultures. These cells produced laminin, fibronectin, and collagen types I, III, IV, and V. They were negative for Von Willebrand factor VIII. The ability to synthesize laminin and collagen type IV distinguished these cells from a population of previously described bone marrow fibroblasts (CFU-F). The relationship of CFU-RF to hemopoietic precursors was investigated using patients with chronic myeloid leukemia and bone marrow transplant recipients. Cells within CFU-RF-derived colonies were uniformly negative for the Philadelphia chromosome, thus making it unlikely that they belonged to the malignant hemopoietic clone. CFU-RF-derived colonies in bone marrow transplant recipients were found to be exclusively of host origin. Both observations support the view that CFU-RF is not part of the repertoire of hemopoietic stem cells.     

Stroma-dependent maintenance of cytokine responsive hematopoietic progenitor cells derived from long-term bone marrow culture

Hematopoietic cells maintained for long periods on primary cultures of bone marrow stromal cells formed cobblestone colonies (Dexter's long-term bone marrow culture, LTBC). These stably maintained hematopoietic cells (for 4 months) were transferred to a coculture on an established spleen stromal cell line (MSS62), and maintained under stromal cell layer, where they retained their invasive ability in the restricted space between the stromal cell layer and culture substratum (DFC culture). DFC contained lineage-negative (Lin-), c-Kit+, Sca-1- cells and spontaneously produced Mac-1+, Gr-1+ cells. DFC could not grow in the absence of MSS62 stromal cells, although, GM-CSF, IL-3, or IL-7 stimulated its growth. Production of granulocyte and monocytic cells was maintained by GM-CSF or IL-3 while it was decreased by IL-7. RT-PCR analysis showed that the IL-7 responsive cell population expressed early lymphoid markers (Ikaros, Pax-5, Oct-2, Rag-1, TdT, IL-7R and Imu), while lacking expression of receptors for G-CSF (G-CSFR) and for M-CSF (M-CSFR), or myeloperoxidase (MPO). These results suggested that DFC simultaneously contained lymphoid-committed progenitors and myeloid-committed progenitors, and that cytokines may expand their responding progenitor cells under the influence of signals provided by the stromal cells. Such a stromal cell-dependent culture system may be useful to analyze the switching mechanism from constitutive to inducible hematopoiesis in vitro.     

Expression of bone morphogenetic proteins in stromal cells from human bone marrow long-term culture.

Highly purified primitive hemopoietic stem cells express BMP receptors but do not synthesize bone morphogenetic proteins (BMPs). However, exogenously added BMPs regulate their proliferation, differentiation, and survival. To further explore the mechanism by which BMPs might be involved in hemopoietic differentiation, we tested whether stromal cells from long-term culture (LTC) of normal human bone marrow produce BMPs, BMP receptors, and SMAD signaling molecules. Stromal cells were immunohistochemically characterized by the presence of lyzozyme, CD 31, factor VIII, CD 68, S100, alkaline phosphatase, and vimentin. Gene expression was analyzed by RT-PCR and the presence of BMP protein was confirmed by immunohistochemistry (IHC). The supportive role of the stromal cell layer in hemopoiesis in vitro was confirmed by a colony assay of clonogenic progenitors. Bone marrow stromal cells express mRNA and protein for BMP-3, -4, and -7 but not for BMP-2, -5, and -6 from the first to the eighth week of culture. Furthermore, stromal cells express the BMP type I receptors, activin-like kinase-3 (ALK-3), ALK-6, and the downstream transducers SMAD-1, -4, and -5. Thus, human bone marrow stromal cells synthesize BMPs, which might exert their effects on hemopoietic stem cells in a paracrine manner through specific BMP receptors.     

Stromal cells derived from spleen or bone marrow support the proliferation of rat natural killer cells in long-term culture.

Rat nylon wool nonadherent bone marrow cells were propagated for up to 75 days in co-culture with stromal cells derived from either spleen or bone marrow. Interleukin (IL) 1 enhanced the ability of spleen stroma to support the long-term culture of natural killer (NK) cells, ostensibly by inducing these support cells to synthesize other cytokines. Flow cytometry studies indicated that the nylon wool separation procedure enriched the concentrations of mature NK cells from 7.9% to 38.1% for splenocytes and from 3.8% to 19.5% for bone marrow cells. Analyses of the adherent zones of suspended nylon screen NK cell cultures revealed substantial numbers of large granular lymphocytes that expressed NK 323+/MOM/3F12/F2- phenotypes. The presence of both mature and immature cells of the NK lineage in this matrix was inferred by the presence of both IL-2 receptor (IL-2R) positive and IL-2R negative, and OX-8+ and OX-8- NK 323+ cells over the greater than 4-month experimental period. Suspended nylon screen cultures displayed a greater potential for producing cytolytic cells than either co-cultures of bone marrow nonadherent cells on stroma monolayers or suspension cultures. The large granular lymphocytes produced in suspended nylon screen cultures could be transformed into active killers of YAC-1 targets by IL-2. In contrast to bone marrow nonadherent cells, more splenic nylon-wool-passed cells displayed a mature NK phenotype, but their proliferative potential and ability to be transformed into cytolytic cells by IL-2 decreased rapidly in culture. In the suspended nylon screen culture system, NK cells migrate from the underlying stroma in stages as they mature, retain their cytolytic potential, and manifest a capacity for self-renewal. Cultured cells were routinely dissociated into single cell suspensions via enzyme treatment and were reinoculated onto "fresh" nylon screen/stromal cell templates after passage through nylon wool columns. These co-cultures continued to generate cytolytic cells in numbers greater than those of the initial inoculum.     

Analysis of human dysplastic haematopoiesis in long-term bone marrow culture

In this paper we have analysed the behaviour of myelodysplastic marrow in a long-term bone marrow liquid culture system (LTBMC) from eleven patients with myelodysplastic syndromes with regard to cellularity, day-7 and day-14 CFU-GM growth, cluster formation, adherent cells and CFU-F formation. An altered CFU-GM pattern was found in 64% of cases at diagnosis, while normal growth was seen in the remaining cases, all of which were affected by refractory anaemia. The levels of CFU-GM, as well as cellularity, were reduced in myelodysplastic marrows compared to normal controls over the whole duration of LTBMCs. Cases with a normal CFU-GM level at diagnosis also showed pathological behaviour when examined in LTBMC. The duration of dysplastic haematopoiesis was significantly shorter than that of controls. The proliferative ability of CFU-F was reduced in 50% of cases as shown by replating experiments. In conclusion, myelodysplastic marrow shows an abnormal behaviour in LTBMC, even in those cases which present normal CFU-GM growth at diagnosis.     

Hybrid resistance in a long-term bone marrow culture and in foci of ectopic hematopoiesis formed in the culture

The lack of hybrid resistance to the bone marrow graft has been demonstrated in a long-term bone marrow culture. After adherent cell layer transplantation into the body the hybrid resistance was demonstrated in de novo formed ectopic hemopoietic foci. The resistance was of the recipient type, because of which the existence of the migrating component of the hemopoietic microenvironment is suggested.     

Production of human osteoclasts in a three-dimensional bone marrow culture system

Osteoclasts, which are derived from hemopoietic stem cells, play important roles in bone remodeling and resorption. Osteoclast development is critically dependent on the bone microenvironment. We have developed a novel human ex vivo bone marrow model that mimics bone marrow both structurally and functionally by providing artificial scaffolding, thus obtaining a three-dimensional growth configuration with high cell density and intimate physical contact between hemopoietic and stromal cells. In this study, we utilized the 3-D culture system to produce multinucleated cells (MNCs) from human bone marrow cells cultured in the presence of Vitamin D₃ and the absence of hydrocortisone and any exogenous growth factors. These multinucleated cells had the phenotypic and functional characteristics of osteoclasts as determined by their morphology, expression of tartarate resistant acid phosphatase (TRAP), and the ability to resorb bone. Scoring of the resorption pits revealed a dose response to Vitamin D₃ stimulation with 10⁻⁷ M being the optimal concentration. Furthermore, addition of parathyroid hormone (10⁻⁸ M) resulted in an up-to three-fold enhancement of bone resorption. These findings suggest that the 3-D culture system represent a physiologically relevant model to study osteoclastogenesis and elucidate the molecular and cellular signals associated with this process.     

Biology of marrow stromal cell lines derived from long-term bone marrow cultures of Trp53-deficient mice.

To investigate the effect of Trp53 (formerly known as p53) on stromal cells of the hematopoietic microenvironment, long-term bone marrow cultures were established from mice in which the Trp53 gene had been inactivated by homologous recombination (Trp53(-/-)) or their wild-type littermates (Trp53(+/+)). Long-term bone marrow cultures from Trp53(-/-) mice continued to produce nonadherent cells for 22 weeks, while Trp53(+/+) cultures ceased production after 15 weeks. There was a significant increase in the number of nonadherent cells produced in Trp53(-/-) long-term bone marrow cultures beginning at week 9 and continuing to week 22 (P < 0.02). The Trp53(-/-) cultures also showed significantly increased cobblestone island formation indicative of early hematopoietic stem cell-containing colonies beginning at week 10 (P < 0.01). Cobblestone islands persisted until weeks 15 and 22 in Trp53(+/+) and Trp53(-/-) cultures, respectively. Co-cultivation experiments in which Trp53(+/+) Sca1(+)lin- enriched hematopoietic stem cells were plated on Trp53(-/-) stromal cells showed increased cobblestone island formation compared to Trp53(-/-) Scal+lin- cells plated on Trp53(+/+) or Trp53(-/-) stromal cells. Radiation survival curves for clonal bone marrow stromal cells revealed a similar D0 for the Trp53(+/+) and Trp53(-/-) cell lines (1.62 +/- 0.16 and 1.49 +/- 0. 08 Gy, respectively; P = 0.408), and similar n (8.60 +/- 3.23 and 10.71 +/- 0.78, respectively) (P = 0.491). Cell cycle analysis demonstrated a G2/M-phase arrest that occurred 6 h after irradiation for both Trp53(+/+) and Trp53(-/-) stromal cell lines. After 10 Gy irradiation, there was no significant increase in the frequency of apoptosis detected in Trp53(+/+) compared to Trp53(-/-) marrow stromal cell lines. In the stromal cell lines, ICAM-1 was constitutively expressed on Trp53(+/+) but not Trp53(-/-) cells; however, a 24-h exposure to TNF-alpha induced detectable ICAM-1 on Trp53(-/-) cells and increased expression on Trp53(+/+) cells. To test the effect of Trp53 on the radiation biology of hematopoietic progenitor cells, the 32D cl 3 cell line was compared with a subclone in which expression of an E6 inserted transgene accelerates ubiquitin-dependent degradation of Trp53, thus preventing accumulation of Trp53 after genotoxic stress. The radiation survival curves were similar with no significant difference in the D0 or n, or in the percentage of cells undergoing apoptosis after 10 Gy irradiation between the two cell lines. Cells of the 32D-E6 cell line displayed a G2/M-phase arrest 6 h after 10 Gy, while cells of the parent line exhibited both a G2/M-phase arrest and a G1-phase arrest at 24 and 48 h. The results suggest a complex mechanism of action of Trp53 on the interactions between stromal and hematopoietic cells in long-term bone marrow cultures.     

Characterization of Syrian hamster adapted prions derived from L-type and C-type bovine spongiform encephalopathies

Atypical forms of bovine spongiform encephalopathy (BSE) may be caused by different prions from classical BSE (C-BSE). In this study, we examined the susceptibility of mice overexpressing mouse and hamster chimeric prion protein (PrP) to L-type atypical BSE (L-BSE). None of the transgenic mice showed susceptibility to L-BSE, except mice overexpressing hamster PrP. We also examined the transmission properties of L-BSE in hamsters. The incubation period of hamsters intracerebrally inoculated with L-BSE was 576.8 days, and that of the subsequent passage was decreased to 208 days. Although the lesion and glycoform profiles and relative proteinase K resistant core fragment of the abnormal isoform of PrP (PrPcore) of L-BSE were similar to that of C-BSE, the deposition of the abnormal isoform of PrP (PrPSc) and the molecular weight of PrPcore of L-BSE was different from than that of C-BSE. In hamster models, some prion strain characteristics of L-BSE were indistinguishable from those of C-BSE.     

Induction and long-term maintenance of Thy-1 positive T lymphocytes: Derivation from continuous bone marrow cultures

In the present study we investigated the presence of T-lymphocyte progenitors in the long-term murine bone marrow culture system described by Dexter: mature Thy-1 antigen-bearing T lymphocytes are lost in these cultures after a few days. By culturing nonadherent cells from such cultures in the presence of a supernatant of concanavalin A-stimulated spleen cells, a source of T-cell growth factor, we found that Thy-1 positive blast cells proliferated together with a second population of Thy-1 negative cells. These two populations of cells have been maintained in long-term in vitro cultures by passaging the cells in fresh conditioned medium at regular intervals. Moreover, we have been able to establish pure cultures of the Thy-1-bearing blast cells after separating them from the non-T cells using their adherence property to plastic surfaces. Long-term cultures of T lymphocytes can thus be established from long-term marrow cultures as well as from the spleen, thymus or fresh bone marrow.     

Structure of a class I gene from Syrian hamster

Syrian hamsters possess a multigene class I family yet fail to perform several associative immunologic functions. In an attempt to determine whether representative hamster genes are structurally functional, we have cloned two closely linked class I-like genes and determined the complete sequence of the 5' member. Its exon organization is similar to that seen in mouse and man, although only two intracytoplasmic domains are encoded instead of the usual three. Comparison of the predicted amino acid sequence and the 3' untranslated region to mouse and human genes suggest along with the linkage data that the hamster gene may be related to either or both K and Qa region genes but probably not to D and L region genes.     

Self-renewal capacity and clonal succession of haemopoietic stem cells in long-term bone marrow culture

The CFU-s proliferative potential varied greatly during long-term cultivation. Most of the CFU-s in the cultures were represented by cells with low renewal capacity. Pre-CFU-s cells capable of producing multipotential colonies in methylcellulose, which contained CFU-s with a high proliferative potential, were identified in the culture. In cultivation of a mixture of cells of different karyotype their ratio changed rapidly from week to week. The findings were consistent with the hypothesis that haemopoietic stem cells are maintained in the culture by the products of a small number of clones which arise and decline in succession, and that pre-CFU-s, but not the CFU-s themselves, are clonogenic progenitors.     

The kinetics of granulopoiesis in long-term mouse bone marrow culture. Part I

The spontaneous stratification in long-term bone marrow cultures was illustrated and quantified. The cultures were separated into three hematopoietic layers: nonadherent cells in the supernatant medium, lightly adherent cells on top of the stromal layer, and remaining cells buried within the stromal layer. The cells of each layer were subcultured for 10 days in plastic tubes that inhibit the formation of a stromal layer. Daily samplings with absolute and differential cell counts were obtained. We identified three families of cell disappearance curves and cell types: CFU-s, hemocytoblasts, myeloblasts, and promyelocytes (G1, 2); myelocytes (G3); and postmitotic granulocytes (G4). Also, the numbers of mitotic and necrotic cells were determined. The longest half-time of CFU-s was 2.5 days. Lacking stromal support, CFU-s disappeared faster than other differentiated cells. Generally, these cells maintained their numbers for the first week of subcultures, which was attributable to a temporarily maintained balance of cell death and fresh cell production. After more than 7 days, there was a rapid decline of all differentiated cell types.     

The kinetics of granulopoiesis in long-term mouse bone marrow culture. Part II

A mathematical model of mouse granulopoiesis in long-term bone marrow culture was constructed, based on established in vivo cell kinetic parameters. We applied the model to the cell kinetic experiment presented in Part I. Comparing model-predicted cell kinetics with the experimental data led to iterative testing of several hypotheses. In the final model, the cell kinetics of intact tissue culture flasks were reconstructed, using the experimental data from 10 days of tube culture. Among other things, our analysis suggests that the parameters of normal in vivo granulopoiesis apply to bone marrow culture.     

Induction of hepatitis in adult Syrian hamster by H-1 virus.

The induction of hepatitis in adult hamster by H-1 virus was documented by demonstrating an increase in serum SGOT and SGPT at 3-9 wk postinoculation. The electrophoresis pattern of LDH isoenzymes showed a marked increase in the liver fraction (fraction 5) indicating liver damage in infected hamsters. The pathology displayed in diseased livers revealed a focal degeneration of hepatic cells although infiltration of white cells was not observed. H-1 virus is apparently capable of producing hepatitis (without symptoms) in adult hamsters as well as cause hepatitis and severe cerebral disease in newborn hamsters.     

The characteristics of endothelial progenitor cells derived from mononuclear cells of rat bone marrow in different culture conditions

Endothelial progenitor cells (EPCs) derived from bone marrow are known to be heterogeneous. In this study, we tried to find favorable conditions that induce the differentiation of mononuclear cells (MNCs) from bone marrow into EPCs. The differentiation capacity of MNCs from rat bone marrow was investigated in different conditions, such as different media, different induction times and different culture surfaces. The cell morphology and endothelial biomarkers associated with differentiated MNCs were studied. Our results indicated that MNCs cultured in EGM-2MV (Endothelial cell basal medium-2, plus SingleQuots of growth supplements) developed a bursiform shape, a late EPC-like morphology, while MNCs cultured in complete medium (CM, M199 with 10% FBS, 20 ng/mL VEGF and 10 ng/mL bFGF) showed a spindle shape, an early EPC-like morphology. Cells of both morphologies were able to incorporate DiI-ac-LDL and bind lectin in vitro. MNCs cultured in EGM-2MV exhibited a higher proliferation rate and higher eNOS expression than MNCs cultured in CM. MNCs cultured in EGM-2MV had the ability to form tubes on Matrigel. Flow cytometry results indicated that CD133 expression was highest at day 12 and that the greatest number of cells positive for both FLK-1 and CD133 appeared at day 20 from cells cultured in dishes without fibronectin coating. In addition, the expression levels of CD133, CD31 and FLK-1/CD133 were not significantly different between cells of different shapes. Our experiments suggest that MNCs from bone marrow can be differentiated into late EP-like cells in EGM-2MV, which have the ability to rapidly proliferate. These MNCs can also be differentiated into early EP-like cells in CM. Additionally, fibronectin may not be necessary for the differentiation of EPCs to mature ECs after three generations. Differentiated MNCs from bone marrow in EGM-2MV have the characteristics of EPCs, although the expression levels of EPC markers were lower than previously reported.     

Hybridization of somatic cells derived from mouse and Syrian hamster: Evolution of karyotype and enzyme studies

Somatic hybrids of drug-resistant mutant hamster and mouse cell lines have been isolated and propagated in long-term culture and have been studied in respect to karyotype and three enzymes. During the course of propagation the long-surviving hybrid clones show progressive loss of telocentric chromosomes associated in at least one case with loss of mouse enzyme. Hybrid clones showed hybrid molecules for malate dehydrogenase (MDH), lactate dehydrogenase (LDH), and 6-phosphogluconate dehydrogenase (6PGD) made up by recombination of parental subunits.This work was supported by National Institutes of Health Grant HD 00486.     

Characteristics and culture of osteoblasts derived from avian long bone

Summary A method is presented for isolating primary osteoblasts from the periosteal surface of chick tibia. The culture system identified supports both cell proliferation and phenotype retention. Cell numbers increased 8-fold in Week 1 and 20-fold over a total of 12 days. Well-established osteoblast markers, alkaline phosphatase staining,γ-carboxyglutamic acid, osteocalcin, type I collagen, and parathyroid hormone binding were detected. Osteocalcin,γ-carboxyglutamic acid, and type I collagen were present on culture Day 4, and were increased in amount by Day 8, but were similar to the earlier level on Day 12, suggesting that the phenotype may revert to a less differentiated state by 12 days in culture. Alkaline phosphatase staining was intense at all three assay times, however. During the last 4 days of the 12-day culture period, proliferation rates were higher than in the previous 8 days.