EC:3.1.3.1 - FACTA Search

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Query: EC:3.1.3.1 (alkaline phosphatase)
47,916 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

We describe a fluorescent histochemical technique for detection of nonspecific alkaline phosphatase (APase) in cells. The technique utilizes standard azo dye chemistry with naphthol AS-MX phosphate as substrate and fast red TR as the diazonium salt. The reaction product is a highly fluorescent red precipitate. Pre-implantation mouse embryos were used to establish optimal fixation and staining protocols and the specificity and sensitivity of the method. Fixation was in 4% paraformaldehyde for 1 hr, as glutaraldehyde induced autofluorescence of the cells. Maximal discriminable staining was detected after 15-20 min in the stain solution. The stain solution itself proved to be non-fluorescent, thus allowing visual observation of the progress of the staining reaction by fluorescence microscopy in its presence. To test the specificity of this fluorescent APase stain, a variety of cell types of known APase reactivity were stained by this protocol. Mouse lymphocytes and STO fibroblasts were negative, whereas F9 teratocarcinoma cells, intestinal epithelial cells, and rat fetal primordial germ cells were all found to be highly positive for APase activity, in agreement with published results on APase localization in these cells.
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PMID:A highly fluorescent simultaneous azo dye technique for demonstration of nonspecific alkaline phosphatase activity. 168 43

A micromethod for the determination of alkaline phosphatase activity in a few cells from two cell lines, undifferentiated embryonal carcinoma F 9 cells and differentiated embryonal mouse fibroblast STO cells, is presented. In F 9 cells a 4- to 5-fold higher activity of alkaline phosphatase than in STO cells extrapolated from 10 cells was evaluated and compared with the results of the specific activity from cell extracts of these two cell lines. The significance of the results and the application of the method is discussed.
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PMID:A micromethod for the determination of alkaline phosphatase in mammalian cells. 667 Sep 98

To increase our understanding of rat embryos in culture and to attempt the isolation of blastocyst-derived cell lines, we examined the initial growth behaviour of rat blastocysts from four strains of rat on four different feeder cell layers. The feeders used were a continuous cell line of murine embryonic fibroblasts (STO), primary mouse (MEF) or primary rat (REF) embryonic fibroblasts, and a continuous cell line of rat uterine epithelial cells (RUCs). A medium that gave optimum plating efficiencies for murine ES cells was used in the rat embryo culture. Each culture system allowed hatching and attachment of the blastocysts, that is, the behaviour was similar on each feeder and each strain for the first 2 days in culture. Subsequently, there was a rapid differentiation of the Inner Cell Mass (ICM) cells on fibroblastic feeder cell layers (STO > MEF > REF), and this was generally complete after 3-6 days in primary culture. On RUCs, the ICM was found to increase in size without differentiation up to and including day 4 and in some cases longer. Embryo-derived cells were obtained by disaggregating and passaging ICMs on REF and RUC feeders. Rounded, refractile, and epithelial-like cells were isolated on REF and colonies of ES-like cells on the RUCs. The ES-like cells were positive for expression of alkaline phosphatase and stage-specific embryonic-antigen 1. This is an important first step towards the derivation and culture of pluripotent ES cells from the rat.
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PMID:Initial culture behaviour of rat blastocysts on selected feeder cell lines. 777 41

Mouse blastocyst-derived embryonic stem (ES) cells are multipotent cells that can be used in vitro as models of differentiation and in vivo can contribute to all embryonic tissues including the germ line. The culture of ES cells requires a source of leukemia inhibitory factor (LIF), often provided by culture with a mouse fibroblast (STO) feeder layer, buffalo rat liver cell-conditioned media (BRL-CM), or the addition of recombinant LIF. To date, all of the ES cell culture systems use mammalian sources of LIF. We found that mouse ES cells can be maintained for over 10 passages in an undifferentiated state with media conditioned by a chicken liver cell line (LMH-CM) or on a feeder layer made with primary chicken embryonic fibroblasts (CEF). These ES cells can undergo both spontaneous and induced differentiation, which is associated with the disappearance or reduction of the expression of alkaline phosphatase and SSEA-1, similar to that observed for ES cells cultured with BRL-CM or STO feeder layers. The ES cells cultured in LMH-CM did not express cytokeratin Endo-A antigen recognized by TROMA-1, but their differentiated progeny did express this antigen. In contrast to LMH-CM, Endo-A was expressed in ES cells cultured on CEF feeder layers and in differentiated progeny. These results indicate that avian cells can produce a LIF-like cytokine that is active in inhibiting the differentiation of mouse ES cells. This could provide a biological end point for the isolation and characterization of avian LIF.
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PMID:Use of avian cytokines in mammalian embryonic stem cell culture. 793 84

Monoclonal antibodies anti-SSEA-1 and EMA-1, and the lectins DBA and LTA, bound to the surface of large, round cells randomly distributed in the 26-day pig genital ridge. Other antibodies, SSEA-3, SSEA-4, TRA-1-60, and TRA-1-81, did not react with any cells in the pig genital ridge. SSEA-1-positive cells displayed pseudopods and appeared to migrate from the dorsal mesentery of the hindgut (18-day) to the primordium of the gonad (day 23) and entered the genital ridge by 26 days. The number of SSEA-1-positive cells associated with the dorsal mesentery and genital ridge markedly increased from the 18-day to the 26-day pig embryo. It was concluded that the SSEA-1-positive cells were primordial germ cells (PGCs). Using these markers and alkaline phosphatase histochemistry, pig PGCs derived from the 26-day genital ridge showed no proliferation when grown in STO co-culture in the presence of human LIF, bFGF and SCF.
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PMID:Identification of pig primordial germ cells by immunocytochemistry and lectin binding. 909 3

A culture system was devised to study the differentiation of bovine blastomeres. Blastomeres (2-13 per well) from embryos produced by in vitro maturation, fertilization, and culture of oocytes obtained from slaughterhouse ovaries were cultured for 10 days in 24-well culture plates on feeder layers in blastomere culture medium (BCM: equal parts tissue culture medium 199 and low-glucose Dulbecco's modified Eagle's medium with 10% fetal bovine serum). Ovine embryonic fibroblasts and STO cells were superior to bovine and mouse embryonic fibroblasts as mitotically inactivated feeder cells. Over five studies in which four blastomeres from an embryo were added to each culture well, an average of one colony per well formed from the blastomeres. The colonies continued to grow throughout the culture period, and most colonies resembled trophectoderm in their cellular characteristics, although some cultures contained a mixture of trophectoderm and endoderm. When the number of blastomeres cultured in each well was varied from 2-8, the number of colonies formed was proportional to the number of blastomeres added. Blastomeres from day 5 and day 6 embryos produced fewer colonies than did those from day 4 embryos, perhaps as a result of differentiation and tighter blastomere adhesion resulting in damage during their separation. The absence of serum did not alter the number of colonies formed. A number of growth factors, including LIF, OM, PGDF alpha, and FGF4, had no effect on the number of colonies, the size of colonies, or their alkaline phosphatase staining score beyond that provided by the feeder layer on serum when present. Blastomeres did not form colonies in the absence of feeder layers.
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PMID:Culture of blastomeres from in vitro-matured, fertilized, and cultured bovine embryos. 929 73

Human pluripotent stem cells would be invaluable for in vitro studies of aspects of human embryogenesis. With the goal of establishing pluripotent stem cell lines, gonadal ridges and mesenteries containing primordial germ cells (PGCs, 5-9 weeks postfertilization) were cultured on mouse STO fibroblast feeder layers in the presence of human recombinant leukemia inhibitory factor, human recombinant basic fibroblast growth factor, and forskolin. Initially, single PGCs in culture were visualized by alkaline phosphatase activity staining. Over a period of 7-21 days, PGCs gave rise to large multicellular colonies resembling those of mouse pluripotent stem cells termed embryonic stem and embryonic germ (EG) cells. Throughout the culture period most cells within the colonies continued to be alkaline phosphatase-positive and tested positive against a panel of five immunological markers (SSEA-1, SSEA-3, SSEA-4, TRA-1-60, and TRA-1-81) that have been used routinely to characterize embryonic stem and EG cells. The cultured cells have been continuously passaged and found to be karyotypically normal and stable. Both XX and XY cell cultures have been obtained. Immunohistochemical analysis of embryoid bodies collected from these cultures revealed a wide variety of differentiated cell types, including derivatives of all three embryonic germ layers. Based on their origin and demonstrated properties, these human PGC-derived cultures meet the criteria for pluripotent stem cells and most closely resemble EG cells.
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PMID:Derivation of pluripotent stem cells from cultured human primordial germ cells. 981 68

We studied the effect of murine leukaemia inhibitory factor (LIF), human basic fibroblast growth factor (bFGF) and porcine stem cell factor (SCF) on the survival and/or proliferation of porcine primordial germ cells (PGCs) obtained from 27-day-old embryos in vitro. PGCs were cultured in embryonic stem cell (ESC) medium supplemented with or without either LIF (1000 IU/ml) alone or LIF together with bFGF (10 ng/ml). They were seeded on mitotically inactivated feeder cells, either STO or transfected STO cells (STO#8), expressing the membrane-bound form of porcine SCF. PGCs were identified by their alkaline phosphatase (AP) activity and counted after 1, 3 and 5 days in culture. After 1 day of culture, PGCs cultured on STO#8 cells showed significantly higher survival than PGCs cultured on STO cells (p < 0.05). The combined effect of SCF and LIF caused a significant increase in PGC number by day 3 of culture when PGCs were cultured on either STO cells (p < 0.01) or STO#8 (p < 0.001). When SCF and LIF were used together with bFGF no increase in the PGC number was observed. Our results suggest that the membrane-bound form of porcine SCF plays a pivotal role in the primary culture of porcine PGCs and that bFGF is not required in vitro.
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PMID:Primary culture of porcine PGCs requires LIF and porcine membrane-bound stem cell factor. 985 99

Primordial germ cells (PGC) collected from the genital ridge of Day 25 porcine embryos were cultured on STO feeder cells in medium with or without supplemented growth factors. The effects on porcine PGC proliferation of leukemia inhibitory factor (LIF), LIF + stem cell factor (SCF) or LIF + SCF + basic fibroblast growth factor (bFGF), growth factors shown to be essential for in vitro survival and proliferation of murine PGC, were tested. After histochemical staining, both freshly collected and cultured PGC expressed alkaline phosphatase activity. With or without supplemented growth factors, porcine PGC survived and proliferated in culture for at least 5 d. None of the growth factors tested markedly enhanced in vitro growth of porcine PGC. These results suggest that growth factors provided by either the STO feeder layer or the cultured PGC themselves are sufficient to support in vitro survival and proliferation of porcine PGC. With the support of STO cells, addition of growth factors shown to be essential for the in vitro growth of murine PGC is not required for survival and proliferation of cultured porcine PGC.
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PMID:In vitro survival and proliferation of porcine primordial germ cells. 1073 31

Embryonic stem (ES) cells are pluripotent cells isolated from in vitro culture of preimplantation embryos. Experiments were undertaken to identify preimplantation embryonic stages and culture conditions under which pluripotent, porcine embryo-derived cell lines could be isolated. Cell lines were established from in vitro culture of intact, porcine early hatched blastocysts and isolated inner cell masses (ICM) from intermediate and late hatched blastocysts on feeder layers prepared from permanent mouse embryonic fibroblasts (STO). The cells of these porcine embryo-derived cell lines had a morphology similar to that of murine ES cells, but colony morphology was more epithelial-like. The cell lines retained a normal diploid karyotype, consistently expressed alkaline phosphatase activity, and survived cryopreservation. When subjected to in vitro differentiation, either spontaneous or induced, the embryo-derived cell lines differentiated extensively into a wide range of cell types representing the 3 embryonic germ layers. In vivo pluripotency of the cells was demonstrated by birth of a chimeric piglet, documented by pigmentation and DNA markers, and the ability to direct the development of nuclear-transfer embryos to the blastocyst stage. Such pluripotent embryo-derived cells provide a potential route for porcine genetic manipulation.
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PMID:Establishment of pluripotent cell lines from porcine preimplantation embryos. 1073 88

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