Interactions of tumor necrosis factor with granulocyte-macrophage colony-stimulating factor and other cytokines in the regulation of dendritic cell growth in vitro from early bipotent CD34+ progenitors in human bone marrow.

Colonies of CD1a+ HLA-DR+/DQ+ CD4+ cells with the functional and some of the structural attributes of Langerhans cells are observed in human bone marrow cultures in semi-solid media and are assumed to be the progeny of an early progenitor, the dendritic/Langerhans cell CFU (CFU-DL). The cytokine-regulated growth of these cells has been studied using a chemically defined serum-free system to culture both unfractionated and highly enriched bone marrow progenitor cell populations. Although unfractionated cell growth was optimal in serum replete cultures with PHA-stimulated leukocyte-conditioned medium (PHA-LCM) suboptimal proliferation of CFU-DL was observed in serum even in the absence of PHA-LCM. No colonies were observed under serum-free conditions when granulocyte-macrophage CSF (GM-CSF), IL-3, granulocyte CSF (G-CSF), and macrophage CSF (M-CSF) were present at levels optimal for granulocyte colony-forming unit (CFU-G) and macrophage colony-forming unit (CFU-M) growth. Addition of IL-1 alpha to these cytokines stimulated a small number of CFU-DL. However, in the presence of GM-CSF and IL-3, TNF-alpha or TNF-beta (5 U/ml) were both highly effective in promoting growth up to 82% of optimal and CFU-G growth was also enhanced at these concentrations. TNF was only active during the first 3 days of culture and higher concentrations of TNF-alpha but not TNF-beta were inhibitory for both CFU-DL and CFU-G. CD34+ cell-enriched populations were also enriched for both myeloid progenitors (CFU-G + CFU-M) and CFU-DL to 36- and 48-fold, respectively, and single cell cultures of CD34+ cells yielded single colonies containing both CD1a+ dendritic cells and CD1a- macrophages. Thus dendritic/Langerhans progenitors in the bone marrow expresses CD34, have a capacity for both macrophage and dendritic cell differentiation, and depend on hemopoietic growth factors and TNF for their further development in vitro.     

Cultivation and characterization of macrophages from murine embryonic skin. Are they Langerhans cells?

We have observed a population of trypsin-resistant adherent cells in long-term primary cultures of murine embryonic skin. These cells were subsequently demonstrated to share a variety of characteristics with cells of the monocyte/macrophage lineage. The trypsin-resistant adherent cells stained positively for nonspecific esterase, exhibited surface receptors for Fc-IgG, and complement components as well as strong phagocytic activity. Additionally, these cells exhibited membrane ATPase enzyme activity and a large proportion of the cells expressed la antigens as detected by cytotoxicity and membrane fluorescence. The possible relationship between these trypsin-resistant adherent cells and Langerhans cells of the skin is discussed.     

Characterization of human osteoblastic cells: Influence of the culture conditions

Summary Human osteoblastic cells were isolated enzymatically from adult human spongy bone and grown in MEM-Ham F12 1:1 medium supplemented with 2% Ultroser (USM). They were subcultured and examined for osteoblast features by morphological, histological, and biochemical approaches. The cells had a characteristic polyhedral morphology and produced a high level of alkaline phosphatase (ALKP). Confluent cultures were uniformly stained for ALKP and flow cytometry analysis with fluorescein diphosphate gave a single peak signal, reflecting a highly positive population, distinct from cultures of fibroblasts. The ALKP activity was stimulated by 1,25 (OH)₂ vitamin D₃. CD 44 was strongly expressed in these cultures, although osteoblasts are negative in vivo and osteocytes are positive. The main collagen synthesized was type I collagen and osteocalcin was produced after stimulation by vitamin D₃. 10 mM βGP induced mineralization and microprobe analysis of the crystals showed a composition close to hydroxyapatite. Changing the culture conditions to MEM-10% calf serum acted on cell behavior: it reduced the production of these biochemical markers of osteoblasts and the morphology became fibroblastlike with more rapid cell multiplication. The parameter most affected by the change in culture medium was ALKP, which was selected as the determinant criterion for defining an osteoblast culture. ALKP activity was then used to characterize a culture of cells seeded in a collagen gel.     

Development of a cell with dendritic morphology from a precursor of B lymphocyte lineage

Cells developing dendritic morphology were detected in cultures of highly purified human B cells incubated with 4 beta-phorbol 12-myristate 13-acetate (PMA). After 72 hr of culture, 2 to 7% of the cells had assumed a dendritic shape provided that contact with a plastic or glass surface also occurred. Dendritic cells developed in cultures of B cells prepared by positively selecting cells that stained with the B cell-specific monoclonal antibody B1 with the fluorescence-activated cell sorter. By contrast, dendritic cells could not be detected in cultures of cells obtained from patients with Bruton's type agammaglobulinemia that lacked B cells. Cells with dendritic morphology were nonspecific esterase negative and not phagocytic. They expressed HLA-DR, DQ, and DP antigens, receptors for interleukin 2 and transferrin, and were stained by B1 and 60.3, an antibody that identifies the beta-chain common to lymphocyte function associated antigen-1, complement receptor 3, and the p150,95 antigen, but not by monoclonal antibodies to monocytes, complement receptors 2 or 3, NK cells, T cells, or Langerhans' cells. Formation of dendritic cells was inhibited by microtubule poisons (vinblastine, colchicine), a microfilament inhibitor (cytochalasin B), and the 60.3 monoclonal antibody, but not by inhibition of DNA synthesis. These data indicate that a subset of B cells is capable of assuming dendritic morphology after stimulation with phorbol esters and attachment to a surface. These dendritic cells exhibit characteristics that are quite similar to the interdigitating cells found in T cell-dependent areas of lymph nodes.     

Multimarker immunohistochemical staining of calgranulins, chloroacetate esterase, and S100 for simultaneous demonstration of inflammatory cells on paraffin sections

Mac387 monoclonal antibody (MAb) recognizes two calcium binding, myeloid-associated proteins, now termed calgranulins, expressed at high levels by neutrophils and monocytes. Calgranulins are related to migration inhibitory factor (MIF) and are lost in a few days from monocytes differentiated in vitro. This marker is therefore potentially useful to analyze macrophage heterogeneity and turnover in tissue sections. In this study, we developed an immunohistochemical multimarker technique, including calgranulin demonstration, suitable for analyzing different inflammatory cells on paraffin-embedded material. The technique was carried out in subsequent steps demonstrating (a) naphthol AS-D chloroacetate esterase (CAE); (b) S100 immunoreactivity using a rabbit antibody in peroxidase-antiperoxidase (PAP) staining; and (c) Mac387 immunoreactivity using the alkaline phosphatase-anti-alkaline phosphatase (APAAP) technique. CAE staining was introduced in this method to distinguish Mac387+/CAE- macrophages from Mac387+/CAE+ neutrophils, and Mac387-/CAE+ mast cells. S100 protein is strongly expressed within lymphoid tissues by dendritic accessory cells and was then applied to distinguish these cells from S100-macrophages. We have also verified the possibility of reducing the staining time for this time-consuming procedure by use of microwave irradiation. The technique was applied to a representative variety of normal and pathological samples to assess its usefulness for study of cell heterogeneity. Our results showed the multimarker technique to be highly informative in the study of inflammatory lesions (e.g., rheumatoid arthritis, sarcoid and cat-scratch granulomas, dermathopathic lymphadenopathy), and is of wide potential value as an aid to histopathological diagnosis of several diseases.     

The cell surface of mouse dendritic cells: FACS analyses of dendritic cells from different tissues including thymus

The surface of dendritic cells from mouse spleen, thymus, and epidermis has been compared with a panel of monoclonal antibodies and the FACS. A method was first developed to isolate populations of large, adherent, thymic dendritic cells that were greater than 90% pure. These were released by collagenase digestion and separated from adherent macrophages after overnight culture. Enrichment was based on the facts that most macrophages remained plastic adherent and rosetted strongly with antibody-coated erythrocytes. As in spleen, thymic dendritic cells were stellate in shape, had abundant class I and II MHC products, lacked many standard macrophage and lymphocyte markers, and actively stimulated the mixed leukocyte reaction. Most spleen and thymic dendritic cells could be lysed by the 7D4 mAb, to the low-affinity IL-2 receptor, and complement but the levels of 7D4 by FACS were low and sometimes not above background. Differences among dendritic cells from different tissues were noted with other mAb. Adherent dendritic cells from thymus all expressed the J11d "B cell" antigen and the NL145 interdigitating cell marker, but lacked the 33D1 spleen dendritic cell antigen. Eighty to ninety percent of spleen dendritic cells were J11d-, NL145-, 33D1+ but the remainder expressed the J11d+, NL145+, 33D1- thymic phenotype. The latter phenotype also was identical to that of epidermal Langerhans' cells. We postulate that the major 33D1+ cell in spleen represents a migratory stage in which dendritic cells are moving from tissues to lymphoid organs.     

Development and characterization of a continuous macrophage cell line,LRTM, derived from thymus of Labeo rohita (Hamilton 1822)

A long-term thymic macrophage cell line from the thymus explants of Labeo rohita designated as LRTM (L. rohita thymic macrophages) was established, which has been maintained in culture for more than 1 yr. This cell line designated LRTM cells have been subcultured for 70 passages. The cells shape was initially long and elongated; with subsequent passages, the cells became short and epithelial like. The cells exhibited optimum growth in L-15 containing 10% fetal bovine serum and also in Dulbecco’s modified Eagle’s medium at 37°C with 5% CO₂ and showed 85+?% viability after 12 mo storage in liquid nitrogen. In addition, cells showed nonspecific esterase and surface expression of Fc receptors for immunoglobulin G and classes I and II major histocompatibility complex antigens. These observations confirmed that this cell line had the morphologic and functional features as a macrophage. The cells exhibited phagocytic activity by engulfing yeast cells as well as fluorescent latex beads, which was demonstrated by scanning electron microscopy and Giemsa staining. The long-term cultured cells show rapid production of reactive oxygen and nitrogen intermediates following stimulation with lipopolysaccharides and phorbol miristate acetate (PMA). Mostly, all the cells were alpha napthyl esterase acetate positive. After stimulation with PMA and lipopolysaccharide, cultured fish macrophages produced reactive oxygen and nitrogen intermediates. The karyotype analysis showed that these cells have a tetraploid karyotype with 100 chromosomes in each cell, indicating that they are normal L. rohita cells. Amplification, sequencing, and alignment of fragments of two mitochondrial genes 12S rRNA from rohu confirmed that the cell line originated from L. rohita. This cell line should be useful for studying the role of thymic macrophages in differentiation and maturation of thymocytes and can be source of macrophage-specific enzymes and cytokines. The macrophage cell line will be invaluable in studies of pathogen/macrophage interactions, the mechanisms of macrophage antimicrobial effector functions and the contribution of macrophages to the specific immune responses of teleosts.     

Long-term culture of human bone marrow macrophages: macrophage development is associated with the production of granulomonopoietic enhancing activity (GM-EA)

We describe a liquid culture system allowing the long-term maintenance and differentiation of human marrow monocytes into well-developed, lipid-containing macrophages, and we show that these cells produce a regulating activity that enhances the colony formation induced by granulocyte-macrophage colony-stimulating factors (GM-CSF). Adherent, low density (less than 1.074 g/cm3) human marrow cells were used as a source of monocytic cells. Of 12 different culture conditions tested, alpha-medium supplemented with 20% horse serum and incubation at 37 degrees C provided the best conditions for macrophage development, adipogenesis, and long-term culture. Neither insulin (1 to 10 micrograms/ml) nor hydrocortisone (10(-6) M) improved the lipid accumulation in cultures containing horse serum. Trypsin was employed to remove fibroblasts without detaching monocytic cells from the marrow-derived adherent cell layers. Marked structural and functional changes characterized the transformation of monocytes into lipid-containing macrophages. Cell enlargement up to seven or eight times by 21 to 28 days of culture was associated with an increase in small and medium-sized lipid granules, as well as in acid phosphatase and nonspecific esterase activities. Ultrastructurally, there was an increase in the number of mitochondria, Golgi apparatus, lysosomes, rough endoplasmic reticulum, and lipid inclusions, which remained of small size and did not coalesce to form larger inclusions. The absolute quantity of Fc receptors, Ia antigens, and antigens recognized by monoclonal antibodies 61D3 and 63D3 also increased as a function of cell size. As marrow monocyte-macrophage differentiation proceeded, a rapid decline in GM-CSF production was accompanied by an increase in an activity that by itself had no capacity to stimulate colony formation in CFU-GM cultures devoid of GM-CSF, but did enhance the colony formation induced by optimal concentrations of GM-CSF. Neither the enhancing activity nor its production was related to the horse serum present in the culture supernatants. The morphology of colonies enhanced by this activity was different from the morphologic spectrum in non-enhanced cultures. This granulomonopoietic enhancing activity (GM-EA) represents another positive feedback regulator of hematopoiesis derived from cells of the monocyte-macrophage system.     

A quantitative assay for mouse granulocyte (CFU-g) and macrophage (CFU-m) precursors using plasma clots

Cytochemical procedures were used to identify and quantitate granulocyte and macrophage precursors from mouse bone marrow cells in plasma clot cultures. Excellent clonal morphology and cellular enzyme activity were obtained when using plasma clots as the support matrix and buffered formalin acetone as the fixative. For cytochemical identification, naphthol AS acetate esterase staining was used for macrophages and peroxidase for granulocytes. These enzyme properties were confirmed by inactivation studies with a variety of inhibitors, group specific chemical modifications, and pinocytotic affinity for horseradish peroxidase. When mouse bone marrow cells (3 X 10(4) cells/dish) were cultured in plasma clots with human placental or L-cell-conditioned medium, 70 to 110 colonies were produced. Both pure granulocyte (CFU-g) and pure macrophage colonies (CFU-m) were observed, but approximately 5% of the total colony number was composed of mixed granulocyte/macrophage colonies (CFU-gm). The number of plated cells correlated strongly with the colony number (0.990 less than r less than 0.999).     

Elevated cyclin E levels, inactive retinoblastoma protein, and suppression of the p27(KIP1) inhibitor characterize early development of promyeloid cells into macrophages.

Cyclin-dependent kinase inhibitors such as p27(KIP1) have recently been shown to lead to cellular differentiation by causing cell cycle arrest, but it is unknown whether similar events occur in differentiating promyeloid cells. Hematopoietic progenitor cells undergo lineage-restricted differentiation, which is accompanied by expression of distinct maturation markers. Here we show that the classical growth factor insulin-like growth factor I (IGF-I) potently promotes vitamin D(3)-induced macrophage differentiation of promyeloid cells, as assessed by measurement of a coordinate increase in expression of the integrin alpha subunit CD11b, the CD14 lipopolysaccharide receptor, and the macrophage-specific esterase, alpha-naphthyl acetate esterase, as early as 24 h following initiation of terminal differentiation. Addition of IGF-I to cells undergoing vitamin D(3)-induced differentiation also leads to an early increase in expression of cyclin E, phosphorylation of the retinoblastoma tumor suppressor protein, and a doubling of the cell number. Early expression of CD11b (24 h) is simultaneously accompanied by inhibition in the expression of p27(KIP1). Cell cycle analysis with propidium iodide revealed that CD11b expression at 24 h following initiation of differentiation occurs at all phases of the cell cycle instead of only those cells arrested in G(0)/G(1). Similarly, development of a novel double-labeling intra- and extracellular flow-cytometric technique demonstrated that single cells expressing the mature leukocyte differentiation antigen CD11b can also incorporate the thymidine analog bromodeoxyuridine. Likewise, expression of the intracellular DNA polymerase delta cofactor/proliferating-cell nuclear antigen at 24 h is also simultaneously expressed with the surface marker CD11b, indicating that these cells continue to proliferate early in their differentiation program. Finally, at 24 h following induction of differentiation, IGF-I promoted a fourfold increase in the uptake of [(3)H]thymidine by purified populations of CD11b-expressing cells. Taken together, these data demonstrate that the initial steps associated with terminal macrophage differentiation occur concomitantly with progression through the cell cycle and that these very early differentiation events do not require the accumulation of p27(KIP1).     

The CC chemokine receptor-7 ligands 6Ckine and macrophage inflammatory protein-3 beta are potent chemoattractants for in vitro- and in vivo-derived dendritic cells

Dendritic cell migration to secondary lymphoid tissues is critical for Ag presentation to T cells necessary to elicit an immune response. Despite the importance of dendritic cell trafficking in immunity, at present little is understood about the mechanisms that underlie this phenomenon. Using a novel transwell chemotaxis assay system, we demonstrate that the CC chemokine receptor-7 (CCR7) ligands 6Ckine and macrophage inflammatory protein (MIP)-3 beta are selective chemoattractants for MHC class IIhigh B7-2high bone marrow-derived dendritic cells at a potency 1000-fold higher than their known activity on naive T cells. Furthermore, these chemokines stimulate the chemotaxis of freshly isolated lymph node dendritic cells, as well as the egress of skin dendritic cells ex vivo. Because these chemokines are expressed in lymphoid organs and 6Ckine has been localized to high endothelial venules and lymphatic endothelium, we propose that they may play an important role in the homing of dendritic cells to lymphoid tissues.     

Immortalization of murine leukocytes by oncogenes. II. Phenotypic characterization of transformants immortalized by v-src or Ha-ras oncogenes: expression of B220, a B-cell lineage specific antigen

In the course of study to obtain murine dendritic cell lines using oncogenic retroviruses, we have established several immortalized cell lines with characteristics different from those of dendritic cells. The transformants were mainly round nonadherent cells, capable of growing in soft agar, and negative for nonspecific esterase activity. Profiles of cell surface antigens were examined by indirect immunofluorescence technique. The cell lines were positive for Fc receptor (2.4G2), J11d (J11d.2), and B220 (RA3-3A1/6.1) antigens and negative (or dull positive in small percentages) for Ia (M5/144.15.2), IL-2 receptor (3C7), Thy-1 (B5-5), Mac-1 (M1/70.-15.11.5), and macrophage (F4/80) antigens. They were negative for both surface and cytoplasmic immunoglobulins. Several clones were established from these transformant cell lines and cell surface antigens were examined. Antigenic profiles of these clones were very similar to those of the parental cell lines. Some of these clones, however, seemed to increase their Ia antigen expression. The results suggest that the transformants originated from early B-lineage cells.     

Different regulation of Purkinje cell dendritic development in cerebellar slice cultures by protein kinase Calpha and -beta

Activity of protein kinase C (PKC), and in particular the PKCgamma-isoform, has been shown to strongly affect and regulate Purkinje cell dendritic development, suggesting an important role for PKC in activity-dependent Purkinje cell maturation. In this study we have analyzed the role of two additional Ca(2+)-dependent PKC isoforms, PKCalpha and -beta, in Purkinje cell survival and dendritic morphology in slice cultures using mice deficient in the respective enzymes. Pharmacological PKC activation strongly reduced basal Purkinje cell dendritic growth in wild-type mice whereas PKC inhibition promoted branching. Purkinje cells from mice deficient in PKCbeta, which is expressed in two splice forms by granule but not Purkinje cells, did not yield measurable morphological differences compared to respective wild-type cells under either experimental condition. In contrast, Purkinje cell dendrites in cultures from PKCalpha-deficient mice were clearly protected from the negative effects on dendritic growth of pharmacological PKC activation and showed an increased branching response to PKC inhibition as compared to wild-type cells. Together with our previous work on the role of PKCgamma, these data support a model predicting that normal Purkinje cell dendritic growth is mainly regulated by the PKCgamma-isoform, which is highly activated by developmental processes. The PKCalpha isoform in this model forms a reserve pool, which only becomes activated upon strong stimulation and then contributes to the limitation of dendritic growth. The PKCbeta isoform appears to not be involved in the signaling cascades regulating Purkinje cell dendritic maturation in cerebellar slice cultures.     

Osteogenic periosteum esterase activity: a comparative morphological and cytochemical study of bone cells in situ on rat proximal tibiae and in smears

Mononucleate phagocytes are presently thought to participate, along with osteoclasts, in bone resorption. Similar cells may also be precursors to osteoclasts. Esterase is a hydrolytic enzyme commonly found in most phagocytes and cells such as these have been shown to degrade bone matrix in vitro. Therefore, periosteal cells of remodeling proximal tibiae in rats were examined for esterase activity. Stain reactions were compared both in situ and in smears. Percentages of different cell types were obtained by counting cells in Wright-Giemsa-stained smears. Osteoclasts and mononucleate phagocyte-like cells made up approximately 20% of the isolated cells. Cells resembling preosteoblasts, mononucleate phagocytes, and osteoblasts stained for esterase activity with light to moderate intensity. Osteoclasts and mononucleate osteoclast-like cells were strongly esterase positive. The esterase was characterized as being type B by using nonorganophosphorus inhibitors of the various esterase types. The addition of esterase to the list of enzyme activities of cells in close proximity to osteoclasts lends further support to the hypothesis that mononucleate cells also participate in bone resorption.     

Different regulation of Purkinje cell dendritic development in cerebellar slice cultures by protein kinase Cα and ‐β

Activity of protein kinase C (PKC), and in particular the PKCγ‐isoform, has been shown to strongly affect and regulate Purkinje cell dendritic development, suggesting an important role for PKC in activity‐dependent Purkinje cell maturation. In this study we have analyzed the role of two additional Ca²⁺‐dependent PKC isoforms, PKCα and ‐β, in Purkinje cell survival and dendritic morphology in slice cultures using mice deficient in the respective enzymes. Pharmacological PKC activation strongly reduced basal Purkinje cell dendritic growth in wild‐type mice whereas PKC inhibition promoted branching. Purkinje cells from mice deficient in PKCβ, which is expressed in two splice forms by granule but not Purkinje cells, did not yield measurable morphological differences compared to respective wild‐type cells under either experimental condition. In contrast, Purkinje cell dendrites in cultures from PKCα‐deficient mice were clearly protected from the negative effects on dendritic growth of pharmacological PKC activation and showed an increased branching response to PKC inhibition as compared to wild‐type cells. Together with our previous work on the role of PKCγ, these data support a model predicting that normal Purkinje cell dendritic growth is mainly regulated by the PKCγ‐isoform, which is highly activated by developmental processes. The PKCα isoform in this model forms a reserve pool, which only becomes activated upon strong stimulation and then contributes to the limitation of dendritic growth. The PKCβ isoform appears to not be involved in the signaling cascades regulating Purkinje cell dendritic maturation in cerebellar slice cultures. © 2003 Wiley Periodicals, Inc. J Neurobiol 57: 95–109, 2003     

A novel monoclonal antibody, RM-4, specifically recognizes rat macrophages and dendritic cells in formalin-fixed, paraffin- embedded tissues

Summary An anti-rat macrophage/dendritic cell monoclonal antibody, RM-4, was produced using a homogenate of silica-induced lung granulomas of rat as immunogen. Immunohistochemistry demonstrated that RM-4 was specific for macrophage and dendritic cell populations residing in various organs and tissues. It did not react with any cells other than macrophage/dendritic cells. In the double staining of the spleen, RM-4-positive macrophages showed wider distribution than those of the four other anti-rat macrophage monoclonal antibodies compared. The immunoreactivity of RM-4 was well preserved not only in frozen sections but also in formalin-fixed, paraffin-embedded tissues. The isotype of the monoclonal antibody was IgG₁ kappa and its antigen molecular weight was 46 kDa. Immunoelectron microscopy revealed positive reaction products for RM-4 on the membrane of endosomes and lysosomes in macrophages and epidermal Langerhans cells. Reaction intensity increased after thioglycolate elicitation or endocytosis regardless of ingested materials. From these data, it is concluded that RM-4 recognizes a membrane protein of endolysomes in macrophages and dendritic cells. The antigen may play a role in endolysosomal processing. RM-4 is considered to be a useful tool not only for identifying macrophage/dendritic cells both in frozen and paraffin-embedded tissues, but also for evaluating their endolysosomal processing. This revised version was published online in November 2006 with corrections to the Cover Date.     

Cytokines and oxygen radicals after hyperoxia in preterm and term alveolar macrophages

To determine if the alveolar macrophage inflammatory cytokine response to oxygen differs in premature cells, macrophages were obtained from litters of premature (27 days) and term (31 days) rabbits. The majority of these cells were nonspecific esterase positive and actively phagocytosed latex particles. The cells that expressed cytokines also reacted with a monoclonal antibody against rabbit macrophages. After incubation overnight in 5 or 95% oxygen, the amount of interleukin (IL)-1beta and IL-8 mRNA was assessed by RT-PCR and the amount of cytokine protein by quantitative immunofluorescence microscopy. The preterm macrophage showed a significant increase in cytokine mRNA and protein after overnight incubation in 95% oxygen. This response was not seen in the term cells. Only premature macrophages had a significant increase in intracellular oxygen radical content, measured by 2',7'-dichlorofluorescin analysis, after incubation in 95% oxygen. This enhanced inflammatory cytokine response to oxygen may be one mechanism involved in the early development of chronic lung disease in premature infants.     

Tissue culture of human neurocytomas induces the expression of glial fibrilary acidic protein

Summary. Cell cultures were established from three human neurocytoma specimens (primary and recurrent). The phenotypic evolution was analyzed by immunocytology in different culture conditions in the presence and absence of serum including the addition of epidermal growth factor, rat caudate extract, retinoic acid, and N-acetyl cystein. The cells were grown on glass cover slides or an extracellular matrix (ECM) from bovine corneal endothelial cells. Immunostainings were performed after overnight incubation and were repeated after 5 and 10 days of culture. The cultures were compared to an oligoastrocytoma also arising at the foramen of Monro and an ependymoma of the frontal lateral ventricle, two tumors supposedly originating from the same tissue matrix as the neurocytoma. After overnight incubation, 90% of the neurocytoma cells were positive for A2B5 and synaptophysin. GFAP reactivity appeared in the periphery of cell processes in less than 1% of the cells. The staining patterns and morphology were nearly identical under the different culture conditions. After 5 days, almost all cells were strongly positive for GFAP, while the number of cells remaining positive for synaptophysin and A2B5 was unchanged from the earlier time point. Again, there were no fundamental differences between the incubation conditions. At this point, cultures maintained on ECM were compared to their counterparts on untreated glass cover slides with identical staining results, although many fewer cells had attached. An identical immuno-reactive pattern was found on day 10. In contrast to the neurocytoma cultures, there was an immediate strong GFAP signal in both the mixed glioma and the ependymoma. A2B5 was also positive, but synaptophysin was absent. Because the neurocytoma specimens were synaptophysin positive but GFAP negative by immunohistochemistry, it is concluded that neurocytomas may represent a human neuronoglial precursor tumor that switches its phenotype in culture to astroglial differentiation despite very diverse culture conditions.     

Induction of triggering receptor expressed on myeloid cells (TREM-1) in airway epithelial cells by 1,25(OH)₂ vitamin D₃

The airway epithelium plays a role in host defense through the binding of innate immune receptors, which leads to the activation of inflammatory mediators, including antimicrobial peptides. The active form of vitamin D, 1,25(OH)(2)D(3), induces the expression of the antimicrobial peptide LL-37 in both myeloid cells and airway epithelial cells (AEC). Here, we demonstrate that mRNA encoding triggering receptor expressed on myeloid cells (TREM)-1 was induced up to 12-fold by 1,25(OH)(2)D(3) in normal human bronchial epithelial (NHBE) cells and in well-differentiated cultures of six airway epithelial cell lines from patients with cystic fibrosis and healthy individuals. TREM-2 and DAP12 were also expressed in airway cultures, but not induced by vitamin D. Induction occurs through a vitamin D response element identified in its proximal promoter region, and was regulated by PU.1 expressed in the AEC. Activation of TREM-1 by a cross-linking antibody led to an induction of both human β-defensin-2 and TNF-α mRNA, demonstrating its functionality in these cells. Our results expand on the role played by the airway epithelium in innate immunity and suggest that vitamin D can modulate the innate immune defense of the airway epithelium, and could potentially be developed as an adjunctive therapy for airway infections.