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Alkaline phosphatase

About: Alkaline phosphatase is a research topic. Over the lifetime, 20218 publications have been published within this topic receiving 540547 citations. The topic is also known as: Alkaline_phosphatase & IPR001952.


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Journal ArticleDOI
TL;DR: The data presented in this study demonstrate a hierarchy of bone cell development in vitro and facilitate the study ofBone cell differentiation and function.
Abstract: Human osteoblast-like cells can be readily cultured from explants of trabecular bone, reproducibly expressing the characteristics of cells belonging to the osteoblastic lineage. Dual-color fluorescence-activated cell sorting was employed to develop a model of bone cell development in primary cultures of normal human bone cells (NHBCs) based on the cell surface expression of the stromal precursor cell marker STRO-1 and the osteoblastic marker alkaline phosphatase (ALP). Cells expressing the STRO-1 antigen exclusively (STRO-1+/ALP-), were found to exhibit qualities preosteoblastic in nature both functionally by their reduced ability to form a mineralized bone matrix over time, as measured by calcium release assay, and in the lack of their expression of various bone-related markers including bone sialoprotein, osteopontin, and parathyroid hormone receptor based on reverse trancriptase polymerase chain reaction (PCR) analysis. The majority of the NHBCs which expressed the STRO-1-/ALP+ and STRO-1-/ALP- phenotypes appeared to represent fully differentiated osteoblasts, while the STRO-1+/ALP+ subset represented an intermediate preosteoblastic stage of development. All STRO-1/ALP NHBC subsets were also found to express the DNA-binding transcription factor CBFA-1, confirming that these cultures represent committed osteogenic cells. In addition, our primer sets yielded four distinct alternative splice variants of the expected PCR product for CBFA-1 in each of the STRO-1/ALP subsets, with the exception of the proposed preosteoblastic STRO-1+/ALP- subpopulation. Furthermore, upon re-culture of the four different STRO-1/ALP subsets only the STRO-1+/ALP- subpopulation was able to give rise to all of the four subsets yielding the same proportions of STRO-1/ALP expression as in the original primary cultures. The data presented in this study demonstrate a hierarchy of bone cell development in vitro and facilitate the study of bone cell differentiation and function.

308 citations

Journal ArticleDOI
TL;DR: Field studies suggest that phosphatase activity is generally a good indicator of the P status of phytoplankton, and several heat-stable or heat-labile phosphatases, isolated from marine organisms living in extreme or other environments have been recommended for biotechnological applications.
Abstract: Phosphatase is a key-enzyme in the marine environment, although life in the sea is normally not P limited. Expression of phosphatase in algae is generally regulated by the prevailing external concentration of inorganic phosphate, but the internal N:P ratio may also play a role. For bacteria, additional mechanisms like their C and N demands may be important. This is suggested by high phosphatase activities occasionally measured in eutrophic or deep water in the presence of relatively high phosphate concentrations. The distribution of phosphatase activity among the particulate and the dissolved fractions is highly variable. In particular, the dissolved fraction can contribute considerably to the total phosphatase activity (up to 70%), which differs from the pattern of other hydrolytic ectoenzymes. Parts of this fraction may originate from marine protozoa. The contribution of bacteria and phytoplankton to the particle-associated fraction of phosphatase is extremely variable, depending on P-availability, the dominant organisms, water depth and environmental factors. Community analysis revealed that bacteria attached to marine snow and N2-fixing cyanobacteria were frequently strong producers of phosphatase. Field studies carried out on a great variety of marine regions suggest that phosphatase activity is generally a good indicator of the P status of phytoplankton. Several heat-stable or heat-labile phosphatases, isolated from marine organisms living in extreme or other environments have been recommended for biotechnological applications.

308 citations

Journal ArticleDOI
TL;DR: Findings confirm and extend those obtained previously, indicating that azurophil granules correspond to lysosomes whereas specific granules represent a different secretory product.
Abstract: Histochemical procedures for PMN granule enzymes were carried out on smears prepared from normal rabbit bone marrow, and the smears were examined by light microscopy. For each of the enzymes tested, azo dye and heavy metal techniques were utilized when possible. The distribution and intensity of each reaction were compared to the distribution of azurophil and specific granules in developing PMN. The distribution of peroxidase and six lysosomal enzymes (acid phosphatase, arylsulfatase, β-galactosidase, β-glucuronidase, esterase, and 5'-nucleotidase) corresponded to that of azurophil granules. Progranulocytes contained numerous reactive granules, and later stages contained only a few. The distribution of one enzyme, alkaline phosphatase, corresponded to that of specific granules. Reaction product first appeared in myelocytes, and later stages contained numerous reactive granules. The results of tests for lipase and thiolacetic acid esterase were negative at all developmental stages. Both types of granules stained for basic protein and arginine. It is concluded that azurophil and specific granules differ in their enzyme content. Moreover, a given enzyme appears to be restricted to one of the granules. The findings further indicate that azurophil granules are primary lysosomes, since they contain numerous lysosomal, hydrolytic enzymes, but the nature of specific granules is uncertain since, except for alkaline phosphatase, their contents remain unknown.

307 citations

Journal ArticleDOI
TL;DR: The findings suggest that decreased activity of bone formation in the aged subjects could be, in part, caused by the decreased number of osteoprogenitor cells differentiating into osteoblasts because the number of ALP-positive CFU-Fs was one of the indices exhibiting bone-forming activity in the human marrow stromal cells.
Abstract: Pluripotent mesenchymal stem cells in bone marrow differentiate to osteoblast progenitor cells. When the bone marrow cells are cultured in vitro, they form colony-forming units-fibroblastic (CFU-Fs) with exhibiting osteoblastic features such as expression of alkaline phosphatase (ALP) and formation of calcified nodules ex vivo. This article describes the effect of growth, maturation, and aging of the skeleton on human CFU-Fs harvested from human iliac bone marrow. Human bone marrow cells were harvested from the ilia of 49 women, and were cultured ex vivo for examination. The 49 subjects ranged in age from 4 to 88 years and were without metabolic bone disease. These aspirated bone marrow cells from human ilium exhibited osteoblastic phenotype such as alkaline phosphatase (ALP) activity, expression of osteocalcin (OSC) and parathyroid hormone-receptor (PTH-R) mRNA, and the formation of calcified nodules in vitro. The number of ALP-positive CFU-Fs and the ALP activity were quantified. The highest levels of ALP-positive CFU-Fs were observed in the young group, particularly in those under 10 years of age. The levels of ALP-positive CFU-Fs declined sharply after 10 years of age; those above 20 years of age exhibited a lower number of ALP-positive CFU-Fs, with a gradual decline with increasing age. These results indicate that change in the number of ALP-positive CFU-Fs may be associated with skeletal growth and maturation. The results also show that osteoblastic features such as ALP activity and capability of formation of calcification nodules were maintained even in the older subjects. These findings suggest that decreased activity of bone formation in the aged subjects could be, in part, caused by the decreased number of osteoprogenitor cells differentiating into osteoblasts because the number of ALP-positive CFU-Fs was one of the indices exhibiting bone-forming activity in the human marrow stromal cells.

307 citations

Journal ArticleDOI
TL;DR: Results of cis-trans tests show that the constitutive alleles of the two genes are recessive in both cis and trans positions relative to the structural gene, which suggests that each regulator gene plays an essential role in the formation of a repressor for alkaline phosphatase.

306 citations


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Performance
Metrics
No. of papers in the topic in previous years
YearPapers
20241
2023795
20221,761
2021271
2020302
2019294