Effects of macrophage colony stimulating factor and granulocyte-macrophage colony stimulating factor on osteoclastic differentiation of hematopoietic progenitor cells

Although the hematopoietic origin of the osteoclast is generally accepted, the precise phenotype of the progenitor and the regulation of its differentiation are unclear. This study compares proliferation and differentiation of progenitors in response to macrophage colony stimulating factor (M-CSF) and granulocyte macrophage colony stimulating factor (GM-CSF). Nonadherent progenitor cells from murine long-term bone marrow cultures (LTBMC) (as a source of osteoclast progenitors) demonstrated a significant proliferative response to M-CSF. In addition, M-CSF increased the number of multinucleated cells, only a small percent of which (14-16%) were tartrate-resistant, acid phosphatase (TRAP)-positive. In contrast, cells cultured with GM-CSF generated more TRAP-positive multinucleated cells even at concentrations less stimulatory of proliferation than M-CSF. The osteoclast phenotype of these multinucleated cells was also assessed by ultrastructural characterization of ruffled borders in association with bone fragments. The bone-active hormone 1,25-dihydroxyvitamin D3 inhibited the proliferation of this subset of progenitor cells in the presence of M-CSF or GM-CSF. All of these results show effects on progenitors in the absence of the stromal cell microenvironment in this system. These results provide evidence for a divergence in the biological responsiveness of osteoclast progenitor cells to M-CSF compared with GM-CSF; they support the notion that M-CSF has a "priming" effect on osteoclast progenitors whose subsequent differentiation to osteoclastic multinucleated cells is promoted by GM-CSF.     

Cytokine regulation of granulocyte-macrophage colony stimulating factor and macrophage colony-stimulating factor production in human arterial smooth muscle cells

Smooth muscle cells (SMC) are the major cell type found in the walls of large blood vessels and appear to participate in local immune and inflammatory reactions, as well as in certain vascular diseases. We tested whether human arterial SMC can produce in vitro the colony stimulating factors (CSFs), granulocyte macrophage-CSF (GM-CSF) and macrophage CSF (M-CSF). Untreated internal mammary artery and aortic SMC produced no detectable GM-CSF but constitutively made M-CSF, measured by ELISA and radioimmunoassay, respectively. Interleukin-1 (IL-1) and, to a lesser extent, tumor necrosis factor alpha (TNF alpha) stimulated GM-CSF formation within 3 h; mRNA levels also increased particularly in the presence of the protein synthesis inhibitor, cycloheximide. IL-1, TNF alpha and, in addition, interferon-gamma (IFN-gamma) raised the M-CSF levels within 6 h; cycloheximide potentiated the effects of IL-1 and TNF alpha on mRNA levels. These results suggest that cytokine-stimulated human arterial SMC may be a source of the M-CSF found in atherosclerotic lesions. Since monocytes/macrophages can be activated by GM-CSF and M-CSF, while GM-CSF can also affect granulocyte function, SMC may participate in inflammatory reactions and vascular diseases by releasing these cytokines.     

Dexamethasone enhances macrophage colony stimulating factor- and granulocyte macrophage colony stimulating factor-stimulated proliferation of bone marrow-derived macrophages

The authors describe a study in which they placed 126 Class V composite resin restorations without mechanical retention, divided into three groups of 42, in 23 patients. They followed the performance of the restorations over a three-year period. For all three groups, restorations were placed using All-Bond 2 dental adhesive and Z100 composite resin; A.R.T. Bond and Brilliant Dentin composite; and Prisma Universal Bond 3 and Variglass VLC polyacid-modified composite resin. The authors evaluated retention as well as color stability, wear resistance, sensitivity, sulcular depth, loss of attachment, bleeding on probing and crevicular fluid flow. Based on their results, the authors propose that restoration of Class V lesions without using mechanical retention could be expected to succeed in seven of 10 restorations over a three-year period using these restorative systems.     

Use of granulocyte macrophage colony stimulating factor in children after orthotopic liver transplantation

The objective of this study was to present quantitative data concerning prostatic growth during the foetal period (gestational age: 13 to 36 weeks) and to provide normal curves of the growth of the prostatic volume correlated with foetal age and weight, using the allometric method. This study was performed on 45 non-fixed human male foetuses, in a good state of preservation and not presenting any congenital malformations. The gestational age of the foetuses ranged from 13 to 36 weeks. Analysis of correlations showed that growth curves presented an angle less than 45 degrees, indicating that growth of the foetal prostate is slower than that of the individual as a whole. The authors also found a statistically significant correlation (p < 0.001) between prostatic volume and foetal weight during the foetal period.     

Expression and purification of a truncated macrophage colony stimulating factor in Kluyveromyces lactis

A truncated human macrophage colony stimulating factor (M-CSF) cDNA encoding amino acid residues from 3 to 149 of the native M-CSF was obtained by using polymerase chain reaction. When inserted into plasmid pCXJ1 and psPHO5 and introduced into Kluyveromyces lactis, it directs the the secretory expression of the biologically active dimeric form of M-CSF. Through a four-step purification protocol, i.e. ammonium sulfate salting out, DEAE-cellulose column chromatography, hydrophobic chromatography on phenyl-sepharose and Mono Q fast protein liquid chromatography, the recombinant truncated M-CSF was purified to homogenerity and show its apparent molecular mass at 21KDa on reduced SDS-PAGE, with a specific activity of 1.21 x 10(7) units/mg protein.     

Production of granulocyte colony stimulating factor, granulocyte macrophage colony stimulating factor, and tumor necrosis factor alpha during remission and infections in patients with acute leukemia

We measured circulating serum levels of granulocyte colony stimulating factor (G-CSF), granulocyte macrophage colony stimulating comparable to the levels of these factors in 12 children with acute febrile infections without malignancy or hematological disorders and 15 age matched healthy controls. There were significantly elevated levels of G-CSF, GM-CSF and TNF alpha, in 12 children with infections without leukemia, as compared with controls. Also in 18 leukemic children with infections serum G-CSF and TNF alpha levels were significantly higher than those in the leukemic children without infection and healthy controls, whereas no significant difference was noted in the GM-CSF levels in these groups. Although elevation in TNF alpha levels in response to infections were similar in the children with and without leukemia, in the G-CSF levels lower elevation was noted in the leukemic children with infections as compared to the children with infections without leukemia. Despite leukopenia enhanced the production of G-CSF, even in leukopenic children with leukemia and infections, serum G-CSF levels were still lower than those for the children with infections without leukemia. We concluded that, the production of G-CSF and GM-CSF as a response to infection was deficient in the patients with acute leukemia in remission, probably due to the maintenance and reinforcement chemotherapy. Therefore, the use of recombinant G-CSF may be recommended in the infections of these patients.     

Adenovirus-mediated in vivo gene transfer in guinea pig middle ear mucosa

This article describes a study designed to assess the feasibility of using recombinant adenovirus for delivering therapeutic peptides in vivo in the guinea pig middle ear cleft. A recombinant adenoviral vector AdCMVsp1 LacZ containing the Escherichia coli beta-galactosidase was injected into the middle ear space. Qualitative assessment of cell middle ear transfection was performed on day 2 by light microscopy study, after injecting a multiplicity of infection (MOI) ranging from 0 to 1000. At an MOI of 30, 30% of the promontory area epithelial cells were stained. An MOI of 50 stained 60% of the cells and an MOI of 100 or more stained more than 90% of the cells. The duration of cell transfection was studied after injecting an MOI of 50. The percentage of stained cells was 60% on day 2, 10% on day 7, and 0% on day 14. Middle ear mucosal inflammation, consisting of a granulocytic infiltrate, was observed when an MOI above 50 was used. Even at a high MOI (500), no staining could be found in the cochlea, in the facial nerve, in the brain, or in visceral organs. These data suggest that recombinant adenovirus vectors can be used to transfer genes in the middle ear. This method appears to be safe, and may be envisaged as a short-duration treatment to transfer genes in vivo in the treatment of middle ear diseases.     

Adenovirus-mediated in vivo gene transfer and expression in normal rat pancreas

Growth hormone (GH) secretion declines during normal aging along with reproductive activity in mammalian species. Various behavioral changes also occur in aged animals. In these experiments we have studied the effects of GH administration on behavioral and endocrine alterations exhibited by aged (18 months old) female rats of the Sprague-Dawley strain. Animals were selected showing at least 2 weeks of cornified vaginal smears (constant estrous) and treated with GH (0.1 mg/kg SC) daily for 8 weeks. Vaginal smears performed during the drug treatment revealed a recovery of estrous cycle in 60% of animals. GH treatment was also followed by an increased acquisition of shuttle-box active avoidance behavior and a facilitated retention of passive avoidance response. Compared to saline-injected controls, female rats treated with GH also exhibited a decrease of novelty-induced excessive grooming. The endocrine pattern of GH-treated aged female rats revealed a decrease in plasma prolactin levels and an increase in luteinizing hormone and 17 beta-estradiol levels as compared to those of control animals. These results support the concept that behavioral and endocrine alterations occurring in aging are not irreversible and that GH may interfere with these changes probably by means of its trophic action on different target organs.     

Effect of macrophage colony stimulating factor on the advanced atherosclerosis in Watanabe heritable hyperlipidemic rabbits

We have reported that macrophage colony-stimulating factor (M-CSF) prevents atherosclerosis in young WHHL rabbits (Atherosclerosis 93:245, 1993). In the present study, we injected recombinant human M-CSF (250 micrograms/day) into WHHL rabbits aged 11 months 3 times a week after advanced atherosclerosis was established. After 8 months of treatment, we did not find any significant difference in plasma lipid levels, cholesterol ester content in the aorta or macroscopic atherosclerosis lesion area between M-CSF treated and non-treated rabbits. There was, however, a significant difference in the ratio of intimal to medial thickness (1.08 vs 1.7, p < 0.01). Thus, M-CSF may influence vascular smooth muscle cell function and modify the process of atherosclerosis in advance lesions.     

Adenovirus-mediated gene transfer to cultured nodose sensory neurons

Recent advances have enabled transfer of genes to various types of cells and tissues. The goals of the present study were to transfer genes to nodose sensory neurons using replication-deficient adenovirus vectors and to define the conditions needed to optimize the gene transfer. Neurons were dissociated from rat nodose ganglia and maintained in culture. Cultures were exposed for 30 min to vectors containing the beta-galactosidase gene lacZ driven by either the Rous sarcoma virus (RSV) or the cytomegalovirus (CMV) promoter. Cultures were fixed and treated with X-gal to evaluate lacZ expression 1-7 days after exposure to virus. Increasing concentrations of virus led to dose-related increases in the number of neurons expressing lacZ. LacZ was expressed in 8 +/- 2, 39 +/- 6, and 82 +/- 3% of neurons 1 day after exposure to 10(7), 10(8), and 10(9) pfu/ml of AdRSVlacZ, respectively (P < 0.05). The same doses of AdCMVlacZ led to expression in 41 +/- 9, 60 +/- 10, and 86 +/- 4% of neurons. Expression driven by the CMV promoter was essentially maximal within 1 day and remained stable for at least 7 days. In contrast, expression driven by the RSV promoter was less on day 1 but increased over time (1-7 days). There was no lacZ expression in vehicle-treated cultures and exposure to the adenovirus vectors did not adversely influence cell viability. Exposure of the neuronal cultures to an adenovirus vector containing the gene for green fluorescent protein (AdRSVgfp, 10(9) pfu/ml) enabled visualization of successful gene transfer in living neurons. The results indicate that gene transfer to cultured nodose neurons can be accomplished using adenovirus vectors. The expression of the transferred gene persists for at least 7 days, occurs more rapidly when expression is driven by the CMV compared with the RSV promoter, and occurs without adversely affecting cell viability.     

Adenovirus-mediated regulable target gene expression in vivo

To regulate expression of a transferred gene in response to an exogenous compound, we have combined a high capacity adenoviral vector devoid of all viral coding sequences with a regulatory system that can be used to express a target gene in vivo in a selected site and at a desired time. This system uses a chimeric transactivator, GLp65, which consists of a mutated progesterone receptor-ligand binding domain fused to the GAL4 DNA binding domain and part of the activation domain of the human p65 protein, a component of the NF-kappaB complex. In the presence of the antiprogestin mifepristone, this chimeric regulator binds to a target gene containing the 17-mer GAL4 binding site, resulting in an efficient ligand-inducible transactivation of the target gene. We inserted the regulator GLp65 and a regulable human growth hormone target gene containing the 17-mer GAL4 binding site into the same adenoviral vector. To obtain tissue-specific expression of the target gene, we coupled the regulator to a liver-specific promoter. Infection of HepG2 cells and experimental mice with the adenovirus resulted in consistently high induction levels of human growth hormone in the presence of mifepristone whereas the transgene expression was undetectable in the absence of the ligand. Taken together, our regulable adenoviral vector represents an important tool for transgene regulation that can be used for potentially diverse applications, ranging from tissue-specific gene expression in transgenic animals to human gene therapy.     

Assignment of the inter- and intramolecular disulfide linkages in recombinant human macrophage colony stimulating factor using fast atom bombardment mass spectrometry

The disulfide bridges in recombinant human macrophage colony stimulating factor (rhM-CSF), a 49-kDa homodimeric protein, were assigned. The 18 cysteines in the dimer form three intermolecular and two sets of three intramolecular disulfide bonds. The intermolecular disulfide bridges hold the dimer together and form symmetric bonds in which Cys31 and Cys157/Cys159 from one monomer unit are linked to the corresponding cysteines of the second monomer. The intramolecular disulfide bonds are located between Cys7-Cys90, Cys48-Cys139, and Cys102-Cys146, respectively. The resistance of native M-CSF to proteolytic cleavage was overcome by an initial chemical cleavage reaction using BrCN. The close proximity of four cysteines (Cys139, Cys146, Cys157, and Cys159) results in a tight core complex that makes the protein undigestable for most proteases. Digestion using endoprotease Asp-N resulted in cleavage at Asp156 near the C-terminal end of this region, thereby opening the complex structure.     

Circulating levels of the macrophage colony stimulating factor CSF-1 in primary and metastatic breast cancer patients. A pilot study

Earlier results [1], suggesting an autocrine tumor cell stimulation by CSF-1, are in agreement with data by Fildermann et al. [2], showing an enhanced motility and invasiveness in the CSF-1 receptor expressing BT20 breast cancer cell line upon stimulation with recombinant CSF-1. Tumor-cell secreted CSF-1 has also been shown to cause monocyte recruitment, but not cytotoxicity [3]. Down-regulation of monocyte class II antigen expression after exposure to high concentrations of CSF-1 [4] may decrease macrophage-mediated tumor cytotoxicity and favor tolerance. Raised CSF-1 serum levels may thus increase tumor metastatic behavior as well as cause immune suppression in advanced stage disease. We set out to evaluate serum CSF-1 levels in primary and metastatic breast cancer. Serum samples from one hundred and eighteen primary breast cancer patients and seventy-five patients with metastatic disease were assayed by radio-immuno-assay (RIA) for circulating colony-stimulating factor 1. Mean serum levels were significantly higher in the metastatic population (9.7 ng/ml +/- 0.8) as compared to the patients with primary tumors (4.2 +/- 0.2) (p = 0.0001). Patients with early stage tumors (T0/T1/T2) had significantly lower levels than patients with tumors of larger size (T3/T4) (p = 0.0001). Relapse and survival statistics were analyzed using Kaplan-Meier estimates. Samples from 118 primary breast cancer patients were available to study. The median follow up was 85 months (range: 1-108). An elevated CSF-1 concentration (> 6.6 ng/ml or > 550 Units/ml) was associated with a shorter disease free interval (p = 0.03). In a multivariate analysis, including T (clinical tumor size), N (clinical node status), histological grade, and hormone receptor status, CSF-1 remained significantly associated with a poorer outcome (relative risk of relapse: RR: 3.3 [1.3-8.5]), together with tumor size (RR: 2.8[1-8.2]) and clinically involved nodes (RR: 4.1[2.1-8]). These results were not modified following adjustment for type of treatment. We conclude that raised circulating CSF-1 levels may be an indicator of early metastatic relapse.     

Characterization of the receptor binding determinants of granulocyte colony stimulating factor

We performed a series of experiments using alanine-scanning mutagenesis to locate side chains within human granulocyte colony-stimulating factor (G-CSF) that are involved in human G-CSF receptor binding. We constructed a panel of 28 alanine mutants that examined all surface exposed residues on helices A and D, as well as all charged residues on the surface of G-CSF. The G-CSF mutants were expressed in a transiently transfected mammalian cell line and quantitated by a sensitive biosensor method. We measured the activity of mutant proteins using an in vitro proliferation assay and an ELISA binding competition assay. These studies show that there is a region of five charged residues on helices A and C employed by G-CSF in binding its receptor, with the most important residue in this binding patch being Glu 19. Both wild-type G-CSF and the E19A mutant were expressed in E. coli. The re-folded proteins were found to have proliferative activities similar to the analogous proteins from mammalian cells: furthermore, biophysical analysis indicated that the E19A mutation does not cause gross structural perturbations in G-CSF. Although G-CSF is likely to signal through receptor homo-dimerization, we found no compelling evidence for a second receptor binding region. We also found no evidence of self-antagonism at high G-CSF concentrations, suggesting that, in contrast to human growth hormone (hGH) and erythropoietin (EPO), G-CSF probably does not signal via a pure 2:1 receptor ligand complex. Thus, G-CSF, while having a similar tertiary structure to hGH and EPO, uses different areas of the four helix bundle for high-affinity interaction with its receptor.     

Adenovirus-mediated gene transfer to liver grafts: an improved method to maximize infectivity

A patient motion-related artefact is one of the most important artefacts in single-photon emission tomography (SPET) imaging. This study evaluated the effect of the number and configuration of SPET detectors on motion artefacts. The following acquisition conditions were simulated based on original 360 degrees projection images: (1) single-detector 180 degrees rotation (S180), (2) a dual-detector rectangular (L-shaped) 180 degrees acquisition (D180L), (3) dual-detector cameras mounted opposite each other with 360 degrees acquisition (D360) and (4) triple-detector 360 degrees acquisition (T360). The motion artefacts were introduced using a syringe and a myocardial phantom. Clinical cases with technetium-99m methoxyisobutylisonitrile and thallium-201 studies were analysed to confirm the validity of this phantom simulation. The effect of continuous alternate rotation acquisition and summing the projections on the reduction of motion artefacts was investigated in each model. The effect of motion depended on the number and the configuration of the SPET detectors. A 1-pixel (6.4 mm) motion in the S180, D180L and D360 models generated only slight artefacts, and a 2-pixel motion led to an apparent decrease in activity or created hot areas in the myocardium. On the other hand, a T360 rotation created few artefacts even with a 2-pixel motion of the last quarter of the projections. Despite the difference in attenuation with 201Tl and 99mTc, similar artefact patterns were observed with both radionuclides in selected patient model studies. Continuous alternate rotation could reduce artefacts caused by less than a 2-pixel motion. In conclusion, calculating the average of the sum of the projections of triple-detector 360 degrees rotations with alternate rotation is the best method to minimize motion artefacts. This "averaging" effect of motion artefacts is a key to this simulation.     

Functional changes in THP-1 human monocytic cells after stimulation with lipopolysaccharide of oral microorganisms and granulocyte macrophage colony stimulating factor

Two major classes of early-born neurons are distinguished during early corticogenesis in the rat. The first class is formed by the cortical pioneer neurons, which are born in the ventricular neuroepithelium all over the cortical primordium. They appear at embryonic day (E) 11.5 in the lateral aspect of the telencephalic vesicle and cover its whole surface on E12. These cells, which show intense immunoreactivity for calbindin and calretinin, are characterized by their large size and axonal projection. They remain in the marginal zone after the formation of the cortical plate; they project first into the ventricular zone, and then into the subplate and the internal capsule. Therefore, these cells are the origin of the earliest efferent pathway of the developing cortex. Pioneer neurons are only present in prenatal brains. The second class is formed by subpial granule neurons, which form the subpial granular layer (SGL), previously considered to be found exclusively in the human cortex. SGL neurons are smaller than pioneer neurons. They are generated in a transient compartment of the retrobulbar ventricle between E12 and E14, and we propose the hypothesis that they invade the marginal zone, through tangential subpial migration, at different moments of fetal life. SGL neurons contain calbindin, calretinin, and gamma-aminobutyric acid (GABA), but the GABA-immunoreactive group becomes inconspicuous before birth. The extracellular matrix-like glycoprotein reelin, a molecule crucial for cortical lamination, is prenatally expressed by SGL neurons; postnatally, it is present in both Cajal-Retzius cells and subpial pyriform cells, both derivatives of SGL cells. In the rat, Cajal-Retzius cells are horizontal neurons that remain only until the end of the first postnatal week. They are located in layer I at a critical distance of approximately 20 microm from the pial surface and express reelin and, only occasionally, calretinin. Subpial pyriform cells coexpress reelin and calretinin and remain in layer I longer than Cajal-Retzius cells. Both pioneer neurons and subpial granule neurons are specific to the cortex. They mark the limit between the rudimentary cerebral cortex and olfactory bulb in the rat during early corticogenesis.     

Response of colony stimulating factor in cancer chemotherapy induced myelosuppression--a case report

BACKGROUND: The aim of the study was to describe the seroprevalence against Parvovirus B19 in a random sample of blood donors in the Hospital Universitario de Salamanca. METHODS: We studied the presence of IgG and IgM antibodies against Parvovirus B19 in 136 sera from asymptomatic blood donors by enzyme immunoassay methods. RESULTS: From 136 samples tested, 88 (64.7%) had positive absorbance values for IgG. Forty eight samples (35.5%) were negative. IgM was negative in all cases. We did not find indeterminate results. DISCUSSION: Parvovirus primoinfection usually happens in the childhood. Thus, we can expect a high percentage of general population to have antibodies against Parvovirus B19. Anti-Parvovirus B19 antibodies prevalence in blood donors was 64.7%. This failure is similar to data reported before (65%). Clinical importance of these viruses in currently related with hemathopoyesis diseases and with the possible role in theratogenesis. The presence of IgG seems to give protection except in some chronic infections recently described.     

Functional granulocyte/macrophage colony stimulating factor receptor is constitutively expressed on neoplastic plasma cells and mediates tumour cell longevity

The effects of various drugs were assessed in rats responding under a Differential-Reinforcement-of-Low-Rate 30-s (DRL 30-s) schedule. Atropine, scopolamine, and CEB-1957 (a new muscarinic blocker) increased response rate and decreased reinforcement rate, while methylatropine only decreased reinforcement rate. Physostigmine decreased response and reinforcement rates, when pyridostigmine had few effect on DRL responding. The irreversible acetylcholinesterase (AChE) inhibitors organophosphorus compounds (OPC) soman and sarin, injected at one-third of the LD50 did not consistently alter DRL performance, suggesting that they produce few behavioral effects in the rat when administered at subtoxic doses. Three oximes--pralidoxime, pyrimidoxime, and HI-6--decreased both response and reinforcement rates. Mecamylamine had few consistent effects on performance, and nicotine, d-amphetamine, diazepam, and the wakening drug modafinil increased response rate and decreased reinforcement rate. These two latter drugs also increased the number of very premature responses. These results, taken together, indicate that a DRL schedule is a useful tool to bring to light the existence of psychotropic effects of a drug. The explanation of drug-induced alterations of DRL performance, in terms of effects on cognition or on mood, is also discussed.     

Proliferation induced by keratinocyte growth factor enhances in vivo retroviral-mediated gene transfer to mouse hepatocytes

Retroviral gene transfer to liver without prior injury has not yet been accomplished. We hypothesized that recombinant human keratinocyte growth factor would stimulate proliferation of hepatocytes and allow for efficient in vivo gene transfer with high titer murine Moloney retroviral vectors. This report shows that 48 h after intravenous injection of keratinocyte growth factor, hepatocyte proliferation increased approximately 40-fold compared to non-stimulated livers. When keratinocyte growth factor treatment was followed by intravenous injection of high titer (1 x 10(8) colony forming units/ml) retrovirus coding for the Escherichia Coli beta-galactosidase gene, there was a 600-fold increase in beta-galactosidase expression, with 2% of hepatocytes transduced. Thus, by exploiting the mitogenic properties of keratinocyte growth factor, retrovirus-mediated gene transfer to liver may be accomplished in vivo without the use of partial hepatectomy or pretreatment with other toxins to induce hepatocyte cell division.