Tissue sources of bone marrow colony stimulating factor

Possible tissue sources in C57BL mice of the serum factor stimulating colony formation in vitro by mouse bone marrow cells have been investigated. A reproducible technique employing batch chromatography on calcium phosphate gel was developed for the extraction and assay of material with colony stimulating activity from mouse tissues. Sixteen hematopoietic and non-hematopoietic tissues from C57BL mice were found to vary widely in their content of extractable activity. Characterisation of the colony stimulating factors (CSF's) from these tissues by assay of stepped concentrations of eluate showed that CSF's from most tissues were similar in chromatographic behavior, but all differed significantly from those of serum in being both more disperse and more firmly bound to calcium phosphate gel. Male submaxillary salivary gland gave the richest yield of CSF. CSF from this source displayed a greater dispersity on and affinity to calcium phosphate, a lower electrophoretic mobility and a smaller average sedimentation coefficient than that from any other source investigated. Colony morphology appeared to be identical for all tissue sources investigated.     

The role of humoral factors in the regression of leukemia in chickens as measured by in vitro colony formation

Leukemic myeloblasts induced by avian myeloblastosis virus in the chicken formed small compact (type II) colonies in semi-solid agar medium. Normal yolk sac cells from 12-day old embryos formed large diffuse (type I) colonies under the same conditions. Type I colony formation (but not type II) was strictly dependent upon the presence in the medium of a colony stimulating factor (CSF) present in fresh chicken serum or conditioned medium. Serum CSF levels were determined for normal, leukemic, and birds which had spontaneously regressed from myeloblastic leukemia. When type I colony formation was used as the assay, serum CSF levels of leukemic birds were found to be significantly lower than levels in either normal or regressed birds. When the same sera were tested for their ability to induce type II colonies, leukemic birds demonstrated a significantly higher CSF level than either normal or regressed sera. Regressed chickens had serum CSF levels similar to normal birds.     

EFFECTS OF HUMAN LEUKOCYTE CONDITIONED MEDIUM ON MOUSE HAEMOPOIETIC PROGENITOR CELLS

Medium conditioned by human peripheral blood leukocytes (HLCM) was studied for its in vitro effects on haemopoietic progenitor cells (CFU-s and CFU-c) present in mouse bone marrow. HLCM has poor colony stimulating activity in semi-solid cultures of mouse bone marrow cells. but invariably increases the number of colonies obtained in the presence of plateau levels of semi-purified colony stimulating factor (CSF). In liquid cultures, HLCM appears to contain a potent initiator of DNA synthesis in CFU-s. an activity which coincides with an increased CFU-s maintenance and causes a three- to four-fold increase in CFU-c number. It is apparent from this study that HLCM, in addition to stimulating colony formation in cultures of human bone marrow cells, has a profound in vitro effect on primitive haemopoietic progenitor cells of the mouse, which cannot be attributed to CSF.     

THE IN VITRO DIFFERENTIATION OF DENSITY SUB-POPULATIONS OF COLONY-FORMING CELLS UNDER THE INFLUENCE OF DIFFERENT TYPES OF COLONY-STIMULATING FACTOR

The in vitro proliferation and differentiation of myeloid progenitor cells (CFU-c) in agar culture from CBA/Ca mouse bone marrow cells was studied. Density sub-populations of marrow cells were obtained by equilibrium centrifugation in continuous albumin density gradients. The formation of colonies of granulocytes and/or macrophages was studied under the influence of three types of colony-stimulating factor (CSF) from mouse lung conditioned medium CSF_MLCM), post-endotoxin mouse serum (CSF_ES) and from human urine (CSF_Hu). The effect of the sulphydryl reagent mercaptoethanol on colony development was also examined. The density distribution of CFU-c was dependent on the type of CSF. Functional heterogeneity was found among CFU-c with partial discrimination between progenitor cells forming pure granulocytic colonies and those forming pure macro-phage colonies. Mercaptoethanol increased colony incidence but had no apparent effect on colony morphology or the density distribution of CFU-c.     

Studies on the bone marrow colony stimulating factor (CSF): relation of tissue CSF to serum CSF

Fluctuations in the colony stimulating factor (CSF) content of submaxillary salivary gland, lung, kidney and spleen were studied in male C₅₇BL mice which had been subjected to a variety of stimuli (endotoxin, x-irradiation or polyadenylic-polyuridylic acid complex) that caused elevations of the serum CSF. The temporal relationships and magnitudes of the rises in CSF were complex and differed from tissue to tissue according to the stimulus used. In the tissues examined not only was the measurable CSF content in each case found to equal or exceed the prestimulatory levels, but in some cases distinctly different forms of CSF were observed as shown by differences in the zone sedimentation, electrophoretic, and calcium phosphate binding characteristics of the material. The patterns of response to the stimuli investigated suggested that tissue injury either directly, or indirectly via the release of various cellular constituents, might mediate the release of CSF by various widely disseminated and/or differing cell types.     

Interferon induction in marrow-derived macrophages: regulation by L cell conditioned medium

Mouse bone marrow cells grown in medium enriched with L cell conditioned medium (LCM) as a source of colony stimulating factor (CSF) yield populations of adherent macrophages which are quite sensitive to induction of interferon (IFN) by viral and nonviral inducers. We examined the role of LCM in the sensitivity of marrow macrophage cultures to IFN induction. Removal of LCM from the cultures for as little as 3 hours markedly reduced the IFN titers induced by a double stranded ribopolynucleotide (poly I:C) or a lipopolysaccharide (LPS), while induction by Newcastle disease virus (NDV) was unaffected. Addition of anti-CSF serum to LCM medium also reduced IFN titers in response to polyI:C but had no effect on NDV induction. The inhibitory effect of anit-CSF indicates that the LCM requirement is at least partially related to the colony stimulating activity of the medium. We postulate that CSF regulates the initial interaction of macrophages with polyI:C or LPS rather than the synthesis and secretion of interferon by the phagocytes. Nearly complete restoration of IFN induction with polyI:C was obtained when LCM deprived cultures were reincubated with LCM medium previously conditioned by marrow cultures.     

The regulation of haemopoiesis in long-term bone marrow cultures: I. Role of L-cell CSF

The effects of L-cell conditioned medium which contains granulocyte/macrophage colony stimulating factor (CSF); of highly purified L-cell CSF; and the antiserum directed against L-cell CSF, have been investigated in long-term murine bone marrow cultures. Treatment of cultures with CSF containing conditioned medium led to a rapid decline in haemopoiesis. However, this inhibition of in vitro haemopoiesis is probably caused by materials other than CSF, since the addition of highly purified L-cell CSF had no appreciable effect upon long-term haemopoietic cell proliferation or differentiation. Furthermore, the inhibitory activity of L-cell conditioned medium was not abrogated following neutralization of the CSF activity by CSF antiserum. The direct addition of CSF antiserum did not inhibit granulocyte or macrophage formation. These results suggest that long-term cultures of murine marrow cells may show extensive interactions with stromal cells which are not influenced by exogenous stimulatory or inhibitory factors.     

BUOYANT DENSITY ANALYSIS OF MYELOID COLONY-FORMING CELLS IN GERMFREE AND CONVENTIONAL MICE

Granulocyte-macrophage colony-forming cells (CFUc), in the bone marrow of germfree and conventional CBA mice, were compared quantitatively and qualitatively. Cells were separated on the basis of their buoyant density by equilibrium centrifugation in continuous albumin density gradients. CFUc in the density subpopulations were detected by culture in agar containing three different types of colony stimulating factor (CSF). The sources of the CSF were post-endotoxin mouse serum (CSF_ES), mouse lung conditioned medium (CSF_MLCM) and human urine (CSF_HU). Mice were removed from the germfree environment and the buoyant density status of their CFUc was examined 1, 4 and 8 weeks later. No difference was found between germfree and conventional mice in the number of nucleated cells per femur or in their modal density. Neither was the number of CFUc per femur different. The cell cycle status of CFUc, as determined by the thymidine suicide technique was not significantly different. Functional heterogeneity was found among the density subpopulations for both groups of mice. This depended on the type of CSF. The density distribution of CFUc was significantly different in germfree mice. There were proportionately more low density CFUc. The mean modal density of CFUc under CSF_ES stimulation was less by 0.0045 g/cm³ in germfree mice. The removal of mice from the germfree environment resulted in a shift of the distribution to higher densities. The trend was towards the conventional situation. The significance of the buoyant density status of CFUc is discussed.     

Enhancement of granulocyte luminescence by murine macrophage secretory products: Suggestive evidence for the release of a new activator

The incubation of macropages (MΦ) in the presence of lipopolysaccharides (LPS) usually results in the release of a variety of immunoregulatory cytokines such as interleukins (IL), tumour necrosis factor (TNF) and colony stimulating factors (CSF). We recently observed that conditioned media (CM) from LPS-treated murine MΦ lines probably contain another protein endowed with granulocyte stimulatory activity. This cytokine, which has an apparent MW of about 55 kDa enhances the PMA-induced luminescence of granulocytes and also stimulates their degranulation as measured by lactoferrin release. In contrast to IL₁ and IL₆ this factor is destroyed by brief treatment at pH 2, but is stable for 60 minutes at 65°C. Unlike CSF, its activity is unchanged by reducing agents such as beta-mercaptoethanol. Furthermore, pretreatment of the MΦ with dexamethasone, in order to reduce the release of IL₁ and TNF, hardly reduces the effect on granulocyte activation. Finally, treatment with a neutralizing polyclonal anti-murine TNF antiserum only partly abolishes its activity. These results show that, in addition to the already well-described cytokines, LPS-treated murine MΦ lines most probably secrete another granulocyte activator.     

THE PRESENCE OF A CSF ENHANCING ACTIVITY IN THE SERUM OF ENDOTOXIN-TREATED MICE

Serum taken from mice a few hours after injection of endotoxin is a potent source of a stimulator of in vitro myelopoiesis. By means of dose-response studies, the biological activity of this material was compared to that of a colony stimulating factor (CSF) from pregnant mouse uteri. Postendotoxin serum appears to contain two different activities: a stimulating activity which may be identical to CSF and an activity which augments the action of CSF. The separate nature of the two activities is demonstrated by differences in the rate at which they are diluted out and by differences in the time at which they are maximally present after endotoxin administration. It is therefore concluded that the colony-stimulating properties of postendotoxin serum are not due solely to CSF present in the serum.     

人骨髓细胞培养液中干细胞刺激物的分析研究

人骨髓细胞体外培养液中含有高活力的 CSF,在长期培养过程中,CSF 活力的变化,与 CFU-C 数量的变化有大致平行的趋势。这种 CSF 对狗和小鼠也同样有效。人骨體条件液中的 CSF 对培养中的 CFU-S 也有明显的激发作用。这一结论可以从几个方面获得证据:第一,小鼠骨髓细胞与人骨髓条件液保温六小时后,再测定其中 CFU-S 数,结果是增加了。第二,经亚致死剂量照射的小鼠,腹腔注射适量的人骨髓条件液,其内源性脾结节也明显增多。第三,采用阿糖胞苷自杀的方法,测定小鼠骨髓经与人骨髓条件液保温后,其中 CFU-S 的自杀率也有增高的趋势。上述几方面的实验,说明人骨髓长期培养中存在着某种活性物质,调节体外造血。至于这种物质的来源,以及在体外造血中所起的作用,还需要做很多工作,逐步予以澄清。     

Vitamin C and thiol reagents promote the in vitro growth of murine granulocyte/macrophage progenitor cells by neutralizing endogenous inhibitor(s)

Growth of murine hemopoietic cells in culture requires the presence of a stimulator of stem cell proliferation, "colony stimulating factor" (CSF). A widely used source of CSF is lung conditioned medium (LCM). We have earlier shown that the great variability of CSF activities in different batches of LCM is due to varying amounts of inhibitor(s). The present study expands the observation that the addition of ascorbic acid to the murine bone marrow soft agar assay system removes the inhibitory activity. The vitamin probably acts as an antioxidant or free radical scavenger, since addition of reduced (but not oxidized) glutathione, cysteine, dithiothreitol or 2-mercaptoethanol to the cultures also inactivates the endogeneous inhibitor. Cysteine and glutathione gave the highest colony numbers, were active at concentrations present in body fluids and did not inhibit colony growth even at concentrations ten times higher than optimum. No synergistic effects could be observed between the different antioxidants. At optimum concentration (usually 0.45 mmol/l) the otherwise bell-shaped dose-response curve for conditioned medium changed to a sigmoid curve. Antioxidants had no growth promoting effect in the absence of CSF. The presence of cysteine or vitamin C revealed CSF-like activity in conditioned media of tissues not considered to be potent producers of such factors. It has been reported that individual batches of foetal calf serum contain different levels of reduced glutathione, and we suggest that one of the batch variable growth regulators in foetal calf serum may be reduced glutathione. The results indicate a possible physiological role of antioxidants in granulopoiesis and suggest that cysteine or reduced glutathione should be freshly added to culture systems assaying CSF and/or granulocyte macrophage progenitor cells.     

Antibody-mediated suppression of bone marrow colony formation in vitro.

Antisera to mouse brain reacts with hematopoietic stem cells in the mouse bone marrow. We have examined the effect of anti-mouse brain serum (AMBS) on the development of in vitro colonies from mouse bone marrow cells. The addition of 5% AMBS to the cultures markedly decreased the numbers of colonies formed to an average of 10% of the number obtained with normal rabbit serum. AMBS suppressed formation induced by colony stimulating factors (CSF) derived from three different sources; serum from endotoxin treated mice, mouse L-cell conditioned media, and human peripheral mononuclear cell conditioned media. The suppressive activity was quantitatively recovered in the IgG fraction of AMBS. Divalent F(ab')2 fragments were as effective as the intact IgG in decreasing colony formation. Fab fragments were not suppressive. These results suggest that colony formation is induced via a dynamic interaction between CSF and the progenitor cell membrane, and that antibody directed at cell membrane antigen(s) interferes with the generation of the induction signal.     

Effects of human leukocyte conditioned medium on mouse haemopoietic progenitor cells.

Medium conditioned by human peripheral blood leukocytes (HLCM) was studied for its in vitro effects on haemopoietic progenitor cells (CFU-s and CFU-c) present in mouse bone marrow. HLCM has poor colony stimulating activity in semi-solid cultures of mouse bone marrow cells, but invariably increases the number of colonies obtained in the presence of plateau levels of semi-purified colony stimulating factor (CSF). In liquid cultures, HLCM appears to contain a potent initiator of DNA synthesis in CFU-s, an activity which coincides with an increased CFU-s maintenance and causes a three- to four-fold increase in CFU-c number. It is apparent from this study that HLCM, in addition to stimulating colony formation in cultures of human bone marrow cells, has a profound in vitro effect on primitive haemopoietic progenitor cells of the mouse, which cannot be attributed to CSF.     

Isolation of a colony-stimulating factor produced by L 1210 murine leukemia cells

Murine L1210 leukemia cells spontaneously produce very low amounts of colony stimulating factor (CSF). CSF production was markedly increased by stimulating L1210 cells with lipopolysaccharide, lectins, and sheep red blood cells. From the conditioned medium of phytohemagglutinin-stimulated L1210 cells we isolated a CSF with an apparent molecular weight of approximately 27,000. This CSF promoted the proliferation and the differentiation of murine GM-CFU showing a weak differentiation-inducing activity on WEHI-3 D (+) cells.     

Tyrosine‐protein phosphatase non‐receptor type 2 inhibits alveolar bone resorption in diabetic periodontitis via dephosphorylating CSF1 receptor

Tyrosine‐protein phosphatase non‐receptor type 2 (PTPN2) is an important protection factor for diabetes and periodontitis, but the underlying mechanism remains elusive. This study aimed to identify the substrate of PTPN2 in mediating beneficial effects of 25‐Hydroxyvitamin D₃ (25(OH)2D₃) on diabetic periodontitis. 25(OH)2D₃ photo‐affinity probe was synthesized with the minimalist linker and its efficacy to inhibit alveolar bone loss, and inflammation was evaluated in diabetic periodontitis mice. The probe was used to pull down the lysates of primary gingival fibroblasts. We identified PTPN2 as a direct target of 25(OH)2D₃, which effectively inhibited inflammation and bone resorption in diabetic periodontitis mice. In addition, we found that colony‐stimulating factor 1 receptor (CSF1R) rather than JAK/STAT was the substrate of PTPN2 to regulate bone resorption. PTPN2 direct interacted with CSF1R and dephosphorylated Tyr807 residue. In conclusion, PTPN2 dephosphorylates CSF1R at Y807 site and inhibits alveolar bone resorption in diabetic periodontitis mice. PTPN2 and CSF1R are potential targets for the therapy of diabetic periodontitis or other bone loss‐related diseases.     

Development of a radioimmunoassay for colony stimulating factor.

Purified L-cell colony stimulating factor (CSF) and rabbit anti-CSF serum were used to devise a radioimmunoassay for this factor. The CSF was radiolabelled with the aid of lactoperoxidase and precipitated by a double antibody technique. Addition of unlabelled CSF caused a dose-related displacement of the labelled tracer. Similar results were noted with conditioned media and murine serum. The assay required only 4 days for completion as compared with 7 days for the conventional agar gel bioassay. Moreover, the radioimmunoassay proved more sensitive and accurate than the bioassay. This technique should allow further exploration of the role of CSF in granulopoiesis.     

Physical separation of colony stimulating cells from in vitro colony forming cells in hemopoietic tissue

Hemopoietic colony formation in agar occurred spontaneously in mass cultures of marrow cells obtained from a number of species (guinea pig, rat, lamb, rabbit, pig, calf, human and Rhesus monkey). This contrasted with the observation that colony formation by mouse bone marrow exhibited an absolute requirement for an exogenous source of a colony stimulating factor. Analysis of spontaneous colony formation in Rhesus monkey marrow cultures revealed the presence of a cell type in hemopoietic tissue, capable of elaborating colony stimulating factor when used to condition media or as feeder layers. Equilibrium density gradient centrifugation separated colony stimulating cells from in vitro colony forming cells in monkey bone marrow. Separation studies on spleen, blood and marrow characterized the stimulating cells as of intermediate density, depleted or absent in fractions enriched for cells of the granulocytic series and localized in regions containing lymphocytes and monocytes. Adherence column separation of peripheral blood leukocytes showed the stimulating cells to be actively adherent, unlike the majority of lymphocytes, and combined adherence column and density separation indicated that stimulating cells were present in hemopoietic tissue within the population of adherent lymphocytes or monocytes.     

The comparative study of the effects of Fe2O3 and TiO2 micro- and nanoparticles on oxidative states of lung and bone marrow tissues and colony stimulating factor secretion

Nowadays, increased use of nanomaterials in industry and biomedicine poses potential risks to human health and the environment. Studying their possible toxicological effects is therefore of great significance. The present investigation was designed to examine the status of oxidative stress induced by nanoparticles (NPs) of ferric oxide (Fe₂O ₃) and titanium oxide (TiO ₂) with their micro-sized counterpart on mouse lung and bone marrow–derived normal tissue cells. We assessed the induction of oxidative stress by measuring its indicators such as antioxidant scavenging activity of superoxide dismutase and catalase as well as malondialdehyde concentration. Moreover, colony formation of bone marrow cells was assayed following induction with colony stimulating factor (CSF) from lung cells. NPs had a more potent stimulatory effect on the oxidative stress status than their micron-sized counterparts. In addition, the highest level of oxidative stress derived from TiO ₂ NPs was observed in both tissue types. Cotreatment with NPs and the antioxidant α-tocopherol reduced antioxidant activities and membrane lipid peroxidation (LPO) in the lung cells, but increased CSF-induced colony formation activity of bone marrow cells, suggesting that oxidative stress may be the cause of the cytotoxic effects of NPs. It is concluded that free radicals generated following exposure to NPs resulted in significant oxidative stress in mouse cells, indicated by increased LPO and antioxidant enzyme activity and decreased colony formation.     

Formation of eosinophilic-like granulocytic colonies by mouse bone marrow cells in vitro

Formation of granulocytic and macrophage colonies in agar cultures of mouse marrow or spleen cells was stimulated by the addition of medium from pokeweed mitogen-stimulated cultures of mouse spleen cells (PKW-CM). Approximately 5% of the colonies developing were large, dispersed granulocytic colonies (DG-colonies) composed of cells with eosinophilic cytoplasmic granules. The capacity to stimulate DG-colonies was shown by media conditioned by PKW-treated lymphoid and peritoneal cells but not by other cells or organ fragments. Velocity sedimentation studies indicated that cells generating DG-colonies were separable from cells generating regular granulocytic or macrophage colonies. DG-colonies did not survive if transfered to cultures containing other forms of CSF. The active colony stimulating factor in pokeweed mitogen-conditioned medium which stimulates DG-colony formation was antigenically distinct from the factor stimulating granulocytic and macrophage colony formation, was separable electrophoretically from the latter factor and on gel filtration had an apparent molecular weight of 50,000. Although the cells in DG-colonies have not been established to be eosinophils, DG-colonies represent an interesting new system for analysing further aspects of the control of growth and differentiation in hemopoietic populations.