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Query: UNIPROT:P17931 (
galectin-3
)
2,860
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
This study reports on the earliest stages of mononuclear phagocyte differentiation. A crucial question in this developmental process is whether mature macrophage (M phi) heterogeneity is already appointed at the precursor cell level. For this purpose, we produced clonal populations of mononuclear phagocytes from bone marrow culture by somatic cell hybridization with two hypoxanthine, aminopterin, thymidine-sensitive myeloid cell lines. A panel of 22 stable hybrids was obtained from these fusions. Differentiation stage analysis of the hybrids indicated that all cell lines had immature mononuclear phagocyte characteristics. The hybrids exhibited typical myeloid morphology and mainly nonadherent growth. Mature M phi features, such as expression of the cell surface antigens Mac-1,
Mac-2
and F4/80, phagocytosis of latex beads, and expression of nonspecific esterase and
acid phosphatase
activity, were virtually absent. The immature M phi markers Thy-1, MIV25 and MIV52, on the other hand, were readily expressed, although heterogeneity was observed among different hybrid cell lines. We then analyzed the differentiation potential of seven hybrids by culture of the cells in the presence of post-lipopolysaccharide serum supplemented with interferon-gamma and found that the expression of mature M phi characteristics was induced. However, the various hybrids showed divergent patterns of mature M phi marker induction. R0C2 cells, for instance, showed extensive morphological and phenotypical differentiation without concomitant induction of phagocytosis. In contrast, W1C4 cells showed significant induction of phagocytosis without simultaneous increase of phosphatase and esterase activity. R1C1 cells were unique in the strong induction of Ia antigen expression. Together, our data indicate that (a) early M phi differentiation stages can be rescued by somatic cell hybridization, and that (b) the obtained cell lines are able to mature according to divergent differentiation programs.
...
PMID:Murine macrophage precursor characterization. I. Production, phenotype and differentiation of macrophage precursor hybrids. 196 90
A murine macrophage cell line AP284 that appeared to be mature in phenotype was isolated. After repeated cloning, the cell line expressed the markers Mac-1,
Mac-2
, Mac-3, 2.4G2, F4/80 as well as Ia antigens. Moreover, it was positive for the enzymes nonspecific esterase and
acid phosphatase
, negative for alkaline phosphatase and was able to phagocytize latex beads. We studied whether this cell line was able to present antigen to cloned MT4+, Lyt-2- T cells specific for methylated bovine serum albumin (mBSA) or ovalbumin (OVA). The in vitro proliferative response of the cloned T cells specific for mBSA or OVA was found to be effectively supported by AP284. This proliferation could be blocked by monoclonal antibodies against Ia determinants. AP284 also effectively presented antigen in vivo as was shown in a foot swelling assay measuring delayed type hypersensitivity (DTH) to mBSA caused by specific cloned T cells with the helper phenotype. This offers a unique model system for studying the process of antigen presentation in which both the antigen presenting cells and the T cells are monoclonal.
...
PMID:Murine macrophage cell line AP284 presents antigen to cloned MT4+, Lyt-2- T cells in vitro and in vivo. 290 28
The enzyme
acid phosphatase
represents an important component among the allergenic proteins in most pollen extracts. However, determination of the level of this enzyme in extracts of various pollen species, as well as protein separation by molecular sieving shows that
acid phosphatase
cannot be used as a marker for
IgE-binding protein
allergens. A conspicuous discrepancy was observed between the heat- and acid-sensitivities of the phosphatase enzyme relative to the overall IgE-binding properties of the pollen extracts. Remarkably, the enzyme remained unaffected by cross-linking the pollen proteins with glutardialdehyde, whereas this process of polymerization caused the IgE-binding potency to diminish considerably. It is concluded that the enzyme
acid phosphatase
is not a suitable marker for the potency assessment of pollen allergens, but may be useful for monitoring the production process of polymerized allergoids.
...
PMID:Investigation of acid phosphatase as a possible IgE-binding marker for pollen allergens and their polymerized derivatives. 852 71
Dendritic cells and macrophages were examined in dental pulp during the postnatal development of mouse mandibular first molars, by immuno- and enzyme histochemistry. F4/80 antibody against dendritic cells and macrophages demonstrated labeled cells predominantly in and around the odontoblastic layer during tooth development from postnatal day 0 (PN0) to PN5. Labeling with Mac-1,
Mac-2
, and MOMA-2 antibodies against macrophages showed varied distribution patterns. Mac-1-positive cells were not detected in the dental pulp.
Mac-2
-positive cells appeared in the dental pulp at PN0, but not in or around the odontoblastic layer, and disappeared by PN3. A few MOMA-2-positive cells were detected in the dental pulp during the period examined. The F4/80-positive cells in and around the odontoblastic layer did not exhibit
acid phosphatase
or non-specific esterase activities. In addition, the F4/80-positive cells showed continued expression of Fcgamma receptor, but not class II major histocompatibility complex (MHC). Other antibodies against dendritic cells (NLDC-145, MIDC-8, and 33D1) did not label the F4/80-positive cells. We concluded that the F4/80-positive and class II MHC-negative cells in and around the odontoblastic layer may be immature dendritic cells in the early stages before eruption, weaning, and crucial exposure to antigenic stimuli. They may not only act primarily as immunosurveillance cells, but also play a role in a regulatory function and differentiation of odontoblasts.
...
PMID:Appearance and distribution of dendritic cells and macrophages in dental pulp during early postnatal morphogenesis of mouse mandibular first molars. 1050 66
