KINETIC-MICROARCHITECTURAL CORRELATIONS IN THE BONE MARROW OF THE MOUSE

Transverse histologic sections of bone marrow obtained from mice that were sacrificed by perfusion fixation at intervals following tritiated thymidine injection were studied by means of radioautography. A kinetic gradient was demonstrated across the marrow section, with the highest proliferative rate in the subendosteal region. Megakaryocytes were shown to originate from the rapidly proliferating subendosteal cells. The immediate proliferating precursors of mature granulocytes were slowly proliferating cells found predominantly in the central region of the marrow. It was concluded that in the steady state there must be a migration of cells from the subendosteal region to the central region with concomitant growth retardation of the migrating cells.     

Kinetic-microarchitectural correlations in the bone marrow of the mouse.

Transverse histologic sections of bone marrow obtained from mice that were sacrificed by perfusion fixation at intervals following tritiated thymidine injection were studied by means of radioautography. A kinetic gradient was demonstrated across the marrow section, with the highest proliferative rate in the subendosteal region. Megakaryocytes were shown to originate from the rapidly proliferating subendosteal cells. The immediate proliferating precursors of mature granulocytes were slowly proliferating cells found predominantly in the central region of the marrow. It was concluded that in the steady state there must be a migration of cells from the subendosteal region to the central region with concomitant growth retardation of the migrating cells.     

The age-dependent loss of bone marrow B cell precursors in autoimmune NZ mice results from decreased mitotic activity, but not from inherent stromal cell defects

The formation of B lymphocytes is abnormal in autoimmune NZB and (NZB x NZW)F1 mice. With age, the proportion of sIg- Ly-5(220)+ pre-B cells and less mature B cell progenitors in the bone marrow progressively declines, reaching only approximately one-third of normal levels in 20-wk-old NZ mice. To determine the mechanisms responsible for the deficiency of NZ B lineage precursors, the mitotic activity of sIg- Ly-5(220)+ bone marrow cells in vivo was determined in NZ and conventional inbred mice as a function of age. The proportion of sIg- Ly-5(220)+ B cell precursors in (S + G2/M) stages of the cell cycle steadily decreased with age in NZ autoimmune mice. Furthermore, upon metaphase arrest, the rate of entry of sIg- Ly-5(220)+ bone marrow cells into G2/M also decreased with age in NZ mice. Therefore, the mitotic activity of sIg- Ly-5(220)+ B cell precursors is substantially decreased in NZ mice greater than or equal to 20 wk of age. The capacity of the bone marrow stromal microenvironment of NZ mice to support B lineage precursor growth was tested in two ways: 1) the capacity of preformed NZ bone marrow stroma to support B lineage cell growth in long term bone marrow cell culture under lymphopoietic conditions was assessed and 2) the capacity of NZ bone marrow B lineage precursors to expand in vivo after sublethal (200 rad) whole body irradiation was determined. Stroma derived from adult NZ mice supported the growth and development of B lineage lymphocytes in long term bone marrow cell culture to a greater extent than did age-matched conventional murine stroma. Furthermore, sublethal irradiation of older adult NZ mice resulted in some expansion of bone marrow sIg- Ly-5(220)+ B cell precursors in vivo. Therefore, the deficiency of B cell progenitors in the bone marrow of older NZ autoimmune mice is associated with diminished mitotic activity. However, this does not result from defects in the capacity of NZ bone marrow stroma to permit B lineage cell expansion as determined by both in vitro and in vivo experiments. In the absence of a detectable stromal cell defect, it is possible that an active inhibitory process within the bone marrow influences the mitotic activity of B cell precursors in NZ mice.     

Leukocyte chemotactic activity of cyclophilin.

During the purification of eosinophil chemotactic factors synthesized by the uterus in response to estrogen we isolated a protein having an N-terminal (15 amino acids) sequence identical to that of rat cyclophilin. Our data demonstrate that cyclophilin, a cytosolic protein isolated from bovine thymocytes, which specifically binds the immunosuppressive drug cyclosporin A, as well as recombinant human cyclophilin, displays eosinophil chemotactic activity. In addition to its chemotactic activity, cyclophilin stimulated the release of peroxidase activity from eosinophils. Maximal chemotactic activity of cyclophilin was achieved at a concentration of approximately 10 nM. At similar concentrations cyclophilin was also able to stimulate the migration of neutrophils. This chemotactic activity could be prevented by the addition of cyclosporin A, but not by a nonimmunosuppressive analog (1-fur-furyl-cyclosporin A) at similar concentrations. This chemotactic activity may represent an additional mechanism by which immunosuppressive drugs function to prevent tissue rejection.     

The T-cell receptor: just another hypothesis.

Functional activities of T and B lymphocytes and the kinetics of hematopoietic stem cells were studied in mice with inoculated or spontaneous tumors. The development and growth of the tumor inhibited B cells and helper T cells, while the activity of killer T cells and spleen suppressor cells was markedly enhanced. The processes of stem cell migration from the bone marrow were considerably intensified and altered in tumor-bearing mice. Data were obtained suggesting that helper T cells and killer T cells represent nonidentical compartments within the population of thymus-dependent lymphocytes. Immunosuppression during tumor bearing is probably due to an impairment of T lymphocytes cooperating in immune responses, B-lymphocytes and their precursors.     

The effects of thymic epithelial monolayer-conditioned medium on suppressor cell function following chemotherapy in pediatric patients

Summary Human thymic epithelial monolayer-conditioned medium (TEM-CM) enhanced concanavalin A (ConA)-induced suppressor T-lymphocyte activity in 15 of 17 studies of fractionated light-density bone marrow mononuclear cells (LD-BMMC) obtained from pediatric cancer patients within 7 days of chemotherapy (P<0.001). However, TEM-CM depressed ConA-induced suppressor T-lymphocyte activity in 14 of 18 studies of LD-BMMC obtained from patients who had received their chemotherapy 14–21 days previously (P<0.05). In studies of LD-BMMC from normal subjects, TEM-CM did not show any significant effect on suppressor cell activity, nor did TEM-CM significantly affect spontaneous suppressor cell activity in patients or normals. The effect of direct culture on thymic epithelial monolayers was equivalent to the effect of TEM-CM in both ConA-induced and spontaneous suppressor cell assays. These data demonstrate thymic factor-mediated changes in suppressor T-cell activity of pediatric cancer patients and suggest a postchemotherapy alteration in the bone marrow population of inducible prethymic T cells.     

Antibody formation in mouse bone marrow. II. Evidence for a memory-dependent phenomenon

Mouse bone marrow is barely capable of plaque-forming cell (PFC) activity in a primary response to sheep red blood cells (SRBC), while PFC activity in the secondary response to SRBC can be clearly demonstrated. This phenomenon was studied by means of cell transfer experiments.T cells, which are involved in an anti-SRBC PFC response, were shown to be very scarce in normal mouse bone marrow. This is considered to be the cause of the low PFC activity in the marrow during the primary response to SRBC.In normal mouse bone marrow precursors of IgM-PFC but not of IgG- and IgA-PFC could be found. Priming with SRBC induced the appearance of IgM-, IgG-, IgA- and T-memory cells in the marrow. These B- and T-memory cells were shown to be specific for the antigen which induced their appearance. It is thought that after a second injection of SRBC the IgM-, IgG- and IgA-memory cells can differentiate with the help of the T-memory cells within the bone marrow into IgM-, IgG- and IgA-PFC respectively.The sequence of appearance of the B-memory cells in the bone marrow was shown to be IgM-IgG-IgA.Six months after the intravenous injection of SRBC, the presence of B-memory cells could be demonstrated not only in spleen and bone marrow, but also in peripheral lymph nodes, mesenteric lymph node, Peyer's patches, thymus and blood. The increase in amount of B-memory cells was most prominent in the spleen.     

Effect of stem cell inhibition factor and macrophage inhibition factor on mouse spleen cell exocolonization and migration]

The migration activity of the spleen cells from intact mice is inhibited by the stem cell inhibitory factor (SCIF) released by lymphocytes treated with antilymphocytic globulin. The degree of the migration inhibition is proportional to the activity of SCIF in the colony-formation inhibition. The macrophage-migration inhibitory factor (MIF), obtained in the H-2 system exhibited a stimulating effect on the colony formation in mice when used in vitro for the treatment of bone marrow transplants. This activity of MIF corresponds to its migration-inhibitory effect on the spleen cells. Incubation of the bone marrow cells with MIF for 30 minutes is more effective than the 2-hour treatment. The observed effects are interpreted as an indication of non-identity of SCIF and MIF.     

Culture and behavior of osteoblastic cells isolated from normal trabecular bone surfaces

Summary We report the characterization of human osteoblastic cells that were derived from the surface of trabecular bone fragments. After removal of bone marrow cells, the bone lining osteoblastic cells lining the bone surface were obtained by migration and proliferation from the trabecular surface onto a nylon mesh. The isolated population proliferated in culture and exhibited osteoblastic phenotype. Cultured cells show a regular arrangment in vitro and exhibited multiple interconnecting junctions on scanning electron microscopic examination. Immunocytochemical staining showed that the cells produced almost exclusively type I collagen. Bone-surface-derived cells responded to 1–34 human parathyroid hormone by increasing intracellular cyclic AMP. Cell cultures exhibited high alkaline phosphatase activity, which was unaffected by 1,25 (OH)₂ vitamin D. Untreated cells produced high levels of osteocalcin, a bone-specific protein, and they responded to 1,25(OH) vitamin D by increasing osteocalcin synthesis in a dose-dependent manner. Although cells cultured for up to 5 mo. still produced osteocalcin, the response to 1,25(OH)₂D decreased after multiple passages. This study shows that the bone cell populations isolated from trabecular bone surface are enriched in osteoblast precursors and mature osteoblstic cells.     

Mechanisms underlying catabolic and anabolic functions of parathyroid hormone on bone by combination of culture systems of mouse cells

Since bone resorption and formation by continuous and intermittent parathyroid hormone (PTH) treatments involve various types of cells in bone, this study examined the underlying mechanism by combining culture systems using mouse primary calvarial osteoblasts and bone marrow cells. The PTH/PTHrP receptor (PTH1R) expression and the cAMP accumulation in response to PTH were increased in accordance with the differentiation of osteoblasts. Osteoclast formation was strongly induced by continuous PTH treatment in the monolayer co‐culture of osteoblasts and bone marrow cells, which was associated with RANKL expression in differentiated osteoblasts. Bone formation determined by ALP activity and the type I collagen mRNA expression was stimulated by intermittent PTH treatment in the monolayer co‐culture and in the bone marrow cell layer of the separated co‐culture in a double chamber dish, but not in the culture of bone marrow cells alone. The stimulation in the separated co‐culture, accompanied by IGF‐I production by osteoblasts, was abolished when bone marrow cells were derived from knockout mice of insulin‐receptor substrate‐1 (IRS‐1?/?) or when osteoblasts were from PTH1R?/? mice. We conclude that differentiated osteoblasts are most likely the direct target of both continuous and intermittent PTH, while bone marrow cells are likely the effector cells. The osteoblasts stimulated by continuous PTH express RANKL which causes osteoclastogenesis from the precursors in bone marrow via cell‐to‐cell contact, leading to bone resorption; while the osteoblasts stimulated by intermittent PTH secrete IGF‐I which activates IRS‐1 in osteoblast precursors in bone marrow via a paracrine mechanism, leading to bone formation. J. Cell. Biochem. 109: 755–763, 2010. © 2010 Wiley‐Liss, Inc.     

A cellular protein is immunologically crossreactive with and functionally homologous to the Fujinami sarcoma virus transforming protein

We obtained a regressing-tumor antiserum specific for the unique sequence of the transforming protein P140 of Fujinami sarcoma virus by injecting Fischer rats with syngeneic embryo cells transformed with Fujinami sarcoma virus. This serum is capable of immunoprecipitating a protein of 98,000 daltons from cell extracts of normal, uninfected chicken bone marrow cells. This normal cellular protein (NCP98) was shown to be structurally related to P140, sharing the majority of ³⁵S-methionine-labeled tryptic peptides with the viral gene product P140. NCP98 is a phosphoprotein in vivo, with an associated in vitro protein kinase activity, capable of phosphorylating specifically at tyrosine residues of NCP98 itself and a-casein, an externally added substrate. This kinase activity is biochemically indistinguishable from the kinase activity associated with P140 by all criteria tested. Moreover, in vitro-phosphorylated NCP98 and P140 shared the same phosphopeptides. The expression of NCP98 is tissue-specific. It is readily detectable in bone marrow cells and detectable to a lesser extent in liver and lung cells from 6–18 day old chickens.     

Bone marrow osteogenic stem cells: in vitro cultivation and transplantation in diffusion chambers

Abstract. Fibroblast colonies (clones) were obtained by explantation of bone marrow single-cell suspensions and were used to establish multicolony and single-colony derived fibroblast cultures by successive passaging of either pooled or individual colonies. When transplanted in diffusion chambers after 20–30 cell doublings in vitro , the descendants of fibroblast colony-forming cells (FCFC), whether grown from single or pooled colonies, retained the ability for bone and cartilage formation. The content of osteogenic precursors in the cultured progeny significantly outnumbered the initiating FCFC. Thus the high proliferative potential of bone marrow FCFC and their ability to serve as common precursors of bone and cartilage-forming cells makes them probable candidates for the role of osteogenic stem cells.     

Corticosteroid-resistant bone marrow-derived B lymphocyte progenitor for long term in vitro cultures

A long-term in vitro culture system derived from murine bone marrow cells can successfully support the growth of B cell precursors, pre-B cells, and IgM-expressing B cells. Intermediates in the B cell developmental pathway are known to have differential sensitivities to the toxic effects of corticosteroids. We demonstrate here that long term B lineage cultures can be established with the corticosteroid-resistant cell population from bone marrow. Kinetics for the establishment and growth of cultures derived from corticosteroid-treated marrow are similar to those observed with control cultures. Cells obtained from both sets of cultures have similar morphologies and ranges of phenotypic markers. These results indicate that the cell responsible for the outgrowth of the long term B lineage cultures is corticosteroid resistant and is likely to be earlier in the B lymphocyte lineage than steroid-sensitive pre-B cells.     

The Effects of Radiation and Hindlimb Unloading on Rat Bone Marrow Progenitor Cells

Bone marrow cells of mesenchymal origin play an important role in adaptation of physiological systems to space flight. Hematopoiesis, immunity, and homeostasis of bone tissue depend on their functional activity. An investigation that was carried out in the framework of the Bion and Bion-M programs showed a decrease of the number of rat bone marrow hematopoietic progenitors and the inhibition of lympho- and erythropoiesis when the granulocyte-macrophage linage was activated. A negative influence on nonhematopoietic bone marrow cells was also revealed. The pathogenetic influence of radiation and microgravity on the bone marrow progenitor cells has remained unclear so far. The goal of this research was to study the effect of a 30-day unloading and 6 days of γ-irradiation on rat bone marrow progenitor cells. The study was conducted on male rats of four groups: vivarium control (VC), hindlimb unloading (HU), irradiation (IR), and combined action (HU + IR). The following parameters have been examined: the number of bone marrow mononuclear cells, proliferative activity of marrow mononuclear cells, immunophenotype, number of hematopoietic CFU and CFU-f, and differentiation potency of hematopoietic and stromal bone marrow precursors. It was found that the cellularity and proliferation activity of rat bone marrow cells did not change under simulation of space flight. The number of CFU-f was decreased. Irradiation was accompanied by an increase in the hematopoietic cell share among total bone marrow mononuclear cells, while their activity was attenuated. The osteopotential of the stromal precursors was unchanged. Adipogenic differentiation was stimulated with irradiation. The functional activity of bone marrow progenitor cells was restored after 2 weeks of recovery. Thus, 30-day simulation of space flight factors negatively affected the morphofunctional properties of rat bone marrow progenitor cells. These effects were reversible upon 2 weeks of recovery.     

Cellular changes in bone marrow of malaria-infected mice. III. Chemotaxis of granulocytes

The number of bone marrow cells and their chemotactic activity was studied during malaria infection. Two days after infection of Balb/c mice with Plasmodium berghei, an increase in granulocyte number was observed in the blood. A modified Boyden chamber chemotaxis assay was employed to investigate the mechanism of granulocyte accumulation in the blood. Bone marrow cells from normal mice, from mice during a primary lethal infection and from immune mice after challenge were compared. The complement factor C5a showed chemotactic activity for bone marrow cells; a significant decrease of chemotaxis was only observed after 6 days of primary infection. Extracts of spleen, liver and infected erythrocytes lacked chemotactic activity, or caused inhibition of cell migration. Serum from mice with a 2-day primary infection contained chemotactic activity. The active component was heat labile, protease sensitive and had an estimated molecular weight of 250,000.     

Immunodiffusion analysis of water-soluble rat bone marrow antigens

Antisera were obtained against six electrophoretic fractions of the rat bone marrow extract. With their help, 18 tissular antigens and 11 antigens immunologically similar to the blood serum proteins were revealed in the rat bone marrow. All tissular antigens are divided in five groups by the degree of organ specificity: 1) bone marrow organospecific antigens (4 antigens), 2) antigens present in the bone marrow, spleen and lung extracts (2), 3) "granulocytic" antigens (4), 4) antigens common for many rat organs, but not found in the extracts of blood formed elements, skeletal muscle, heart, brain, eyes (3), 5) antigens present in all the organs studied (5). The bone marrow organospecific antigens may be specific antigens of hemopoietic cell precursors. The possibility of utilization of antisera against the bone marrow water soluble proteins for labelling hemopoietic cells of different lines of differentiation is discussed.     

Jaw and long bone marrow derived osteoclasts differ in shape and their response to bone and dentin

Increasing evidence suggests the existence of osteoclast diversity. Here we investigated whether precursors obtained from marrow of the mandibula or long bone could give rise to phenotypically different osteoclasts. Formation of multinucleated cells was assessed after culturing mouse marrow cells of the two bone types with macrophage colony stimulating factor (M-CSF) and receptor activator of NFκB ligand (RANKL) for up to 10 days on plastic, bone or dentin. Two times more osteoclasts formed from long bone marrow cells on bone compared to dentin, whereas higher numbers of jaw osteoclasts formed on dentin. Resorption of dentin or bone was similar for osteoclasts formed from both types of precursors. In contrast to jaw marrow derived osteoclasts, long bone osteoclasts predominantly had a multi-compartmented shape, with at least two nuclei containing compartments per cell. Osteoclasts on bone contained two times more actin rings than osteoclasts on dentin, regardless of their precursor origin. However, the area per osteoclast covered by actin rings was similar (20%) for both substrates. This study suggests that marrow cells obtained from different bones give rise to different osteoclasts. The substrate on which the osteoclasts are generated plays a role in steering their formation rather than their resorption.     

Participation of transfused bone marrow cells in reparative osteohistogenesis

The participation of skeletal tissue cell precursors in the repairing regeneration of bone tissue was studied. Bone marrow was taken from donor animals--mice of C57Bl/6-TgN(ACTbGFP) 1 Osb line (The Jackson Laboratory Bar Harbor ME USA line). Nucleated cell fraction was isolated by centrifugation on a density percoll gradient. Recipient mice C57Bl/6 line were irradiated by 7.0-7.5 Gr dose. Intravenous infusion of donor cells and osteoclasts of tibia was done after irradiation of recipient mice. Histological preparations of bone regenerate tissues were studied on 15, 30, and 60 days by confocal microscopy. Donor cells were found as skeletal tissue precursors into periost, endost, bone marrow, and as differentiated cells of newborn tissue of regenerate--osteoblasts, osteocytes, chondrocytes. The data obtained indicate that part of donor bone marrow cells are able to progressive differentiation under recipient bone fractures.