Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts:   Target Concepts:
Query: EC:3.1.3.1 (alkaline phosphatase)
 47,916 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The rate of bone formation is largely determined by the number of osteoblasts, which in turn is determined by the rate of replication of progenitors and the life span of mature cells, reflecting the timing of death by apoptosis. However, the exact age-dependent changes of the cellular activity, replicative potential, and life span of osteoblasts have not been investigated to date. Here, we present evidence that the cellular activity, telomere lengths, and replicative life span of osteoblastic cells obtained from juxta-articular bone marrow gradually decrease with the advance of donor age. Recently, telomerase reverse transcriptase (hTERT) has been identified as a human telomerase catalytic subunit. We transfected the gene encoding hTERT into telomerase-negative human osteoblastic cells from donors and osteoblastic cell strain NHOst 54881 cells and showed that expression of hTERT induces telomerase activity in these osteoblastic cells. In contrast to telomerase-negative control cells, which exhibited telomere shortening and senescence after 10-15 population doublings, telomerase-expressing osteoblastic cells had elongated telomere lengths and showed continued alkaline phosphatase activity and procollagen I C-terminal propeptide (PICP) secretion for more than 30 population doublings. These results indicate that osteoblasts with forced expression of hTERT may be used in cell-based therapies such as ex vivo gene therapy, tissue engineering, and transplantation of osteoblasts to correct bone loss or osteopenia in age-related osteoporotic diseases.
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PMID:Reconstituting telomerase activity using the telomerase catalytic subunit prevents the telomere shorting and replicative senescence in human osteoblasts. 1149 68

As a part of our program aimed at exploring the biological activity of symmetrical substitution of side chains into the anthracene-9,10-dione chromophore, we have synthesized a series of 1,5-bisthioanthraquinones 2 and 1,5-bisacyloxyanthraquinones 3 that are related to the antitumor agent mitoxantrone. Since the telomerase enzyme is a novel target for potential anticancer therapy and stem cell expansion, we explore the biological effects of these compounds by evaluating their effects on telomerase activity and telomerase expression. Telomerase is required for telomere maintenance and is active in most human cancers and in germinal cells but not in most of the normal human somatic tissues. We found that most of the 1,5-disubstituted anthraquinones did not exhibit inhibitory activity at the concentration ranging from 20 to 30 microM. To facilitate the analysis of the expression of telomerase, we used cancer and normal cell lines that carry secreted alkaline phosphatase (SEAP) gene under the control of human telomerase reverse transcriptase (hTERT). The effects of these compounds on the expression of telomerease were analyzed using the cell-based reporter systems. While most of these compounds did not appear to selectively repress the expression of hTERT in cancer cells, compounds 3a, 3d, and 3i activated hTERT expression in normal cells. The effects of these three compounds on hTERT expression appear to be specific because they did not increase the expression of a CMV promoter-driven SEAP. Thus, in addition to anticancer functions, our finding raises the possibility that these compounds might also have a role in cell immortalization. The application of these anthraquinone derivatives in stem cell research and tissue engineering is also discussed.
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PMID:Activation of human telomerase reverse transcriptase expression by some new symmetrical bis-substituted derivatives of the anthraquinone. 1285 60

The aim of this study was to investigate the effects of ginsenoside Rh(2) (G-Rh(2)) on differentiation of SMMC-7721 hepatocarcinoma cell line in culture. We studied G-Rh(2)-induced differentiation of SMMC-7721 cells through cell proliferation, cell morphology, ultrastructure, cell cycle, cell function and metabolism. The proliferation of treated cells was inhibited, the morphology and ultrastructure seemed normal, the secretory amount and expression of alpha-foetoprotein, and the specific activity of gamma-glutamyl transpeptidase, and heat-resistant alkaline phosphatase were all significantly decreased, the secretory amount of albumin and alkaline phosphatase activity were remarkably increased, and the cell was arrested at the G(1)/G(0) phase. Furthermore, G-Rh(2) induced elevated expression of the cyclin-dependent kinase inhibitor p21(WAF1) and p16(INK4a), and declined expressions of cyclin D1 and cyclin E. In addition, G-Rh(2) almost completely inhibited telomerase activity, as measured by polymerase chain reaction-based telomeric repeat amplification protocol coupled with enzyme-linked immune sorbent assay, and human telomerase reverse transcriptase mRNA. Based on these data, it is suggested that G-Rh(2) could induce cell differentiation tending to normal and effectively reduce telomerase activity with affecting transcription levels of human telomerase reverse transcriptase, paralleling the induction of cell differentiation.
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PMID:In vitro induction of differentiation by ginsenoside Rh2 in SMMC-7721 hepatocarcinoma cell line. 1467 61

In the current study, in order to establish an immortalized osteoblast cell line, human mesenchymal stem cells (hMSCs) had been inducted into osteoblasts directionally by an osteo-inductive conditioned medium, then the osteoblasts were steadily transduced by a retroviral vector containing human telomerase reverse transcriptase (hTERT) gene. The expression of hTERT, the telomerase activity, the telomere lengths, the tumorigenesis and the osteogenesis characteristics of transduced cells at different population doublings (PDs) and the primary normal human osteoblast (hOB) were identified. The results demonstrated that hTERT gene had been transferred into human osteoblasts successfully; the transduced cell line-clone5 expressed telomerase activity and divided vigorously and now have undergone more than 120 PDs; The telomere length of clone5 elongated and was stable; Different eras of clone5 (PD 40 and PD 88) both expressed bone-specific markers, such as alkaline phosphatase (ALP), collagen type I, and osteopontin. And the quantitative assay of ALP activity showed that there were no significant differences among untransduced cells, PD 40 and PD 88 clone5 cells. Furthermore, the immortalized cell line was benign in nude mice tumor formation and soft agar colony formation assay.
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PMID:Immortalization of human osteoblasts by transferring human telomerase reverse transcriptase gene. 1497 49

The periodontal ligament (PDL) is a highly specialized tissue connecting the cementum with the tooth socket bone and affects the life span of the tooth. However, little is known about the precise characteristics and regenerative mechanism of PDL cells because of the absence of specific markers and cell lines. Therefore, we aimed to establish three immortalized human PDL fibroblast cell lines by using simian virus40 T-antigen (SV40T-Ag) and human telomerase reverse transcriptase (hTERT) transfection, expecting these cells to have the characteristics of primary cells. The transfected cells were named STPLF. The expression of SV40T-Ag and hTERT in all STPLF lines was verified by using the semi-quantitative reverse transcription-polymerase chain reaction (RT-PCR) method, stretch PCR analysis, or Western blotting analysis. All STPLF showed stable proliferation at more than 120 population doublings (PD), whereas primary human PDL fibroblasts (HPLF) stopped at 10-20 PD. Characterization by RT-PCR analysis revealed that all STPLF genes mimicked the expression of their respective original HPLF genes. STPLF expressed runt-related transcription factor-2, osterix, alkaline phosphatase, osteopontin, osteocalcin, periostin, receptor activator of NF-kappa B ligand, osteoprotegerin, epidermal growth factor receptor, alpha-smooth muscle actin, and type XII collagen. STPLF stimulated with 50 micro g/ml ascorbic acid and 2 mM beta-glycerophosphate for 4 weeks produced more calcified deposits than did HPLF cultured with the same reagents. These results suggest that each STPLF line retained the characteristics of the respective original HPLF, that STPLF gained increased calcification activity, and that STPLF are helpful tools for studying the biology and regenerative mechanisms of human PDL.
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PMID:Establishing and characterizing human periodontal ligament fibroblasts immortalized by SV40T-antigen and hTERT gene transfer. 1640

We recently reported the isolation of a unique subpopulation of human stromal cells from bone marrow (BM) termed marrow-isolated adult multilineage inducible (MIAMI) cells, capable of differentiating in vitro into mature-like cells from all three germ layers. The oxygen tension (pO2) in BM ranges from 1 to 7%, which prompted us to examine the role of pO2 in regulating the capacity of MIAMI cells both to self-renew and maintain their pluripotentiality (stemness) or to progress toward osteoblastic differentiation. MIAMI cells were grown under low-pO2 conditions (1, 3, 5, and 10% oxygen) or air (21% oxygen). The proliferation rate of cells exposed to 3% oxygen (3 days) increased, resulting in cell numbers more than threefold higher than those of cells exposed to air (at 7 days). In cells grown under osteoblastic differentiation conditions, the expression of the osteoblastic markers osteocalcin, bone sialoprotein, osterix, and Runx2 and alkaline phosphatase activity was upregulated when incubated in air; however, it was blocked at low (3%) pO2. Similarly, biomineralization of long-term cell cultures was high under osteoblastic differentiation conditions in air but was undetectable at low (3%) pO2. In contrast, low pO2 upregulated mRNAs for OCT-4, REX-1, telomerase reverse transcriptase, and hypoxia-inducible factor-1 alpha, and increased the expression of SSEA-4 compared to air. Moreover, the expression of embryonic stem cell markers was sustained even under osteogenic culture conditions. Similar results were obtained using commercially available marrow stromal cells. We hypothesize a physiological scenario in which primitive MIAMI cells self-renew while localized to areas of low pO2 in the bone marrow, but tend to differentiate toward osteoblasts when they are located closer to blood vessels and exposed to higher pO2. Our results strongly suggest that maintaining developmentally primitive human cells in vitro at low pO2 would be more physiological and favor stemness over differentiation.
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PMID:Low oxygen tension inhibits osteogenic differentiation and enhances stemness of human MIAMI cells. 1661 13

Since its osteoinductive capacity has been established, demineralized bone matrix is considered a suitable alternative to bone autograft in the healing of osseous defects. The mechanisms of bone formation induction are still not fully understood. In this study we assessed the effects of a dispersion of bovine bone extract COLLOSS (BPE) with regard to proliferation and differentiation of a human mesenchymal stem cell line overexpressing human telomerase reverse transcriptase (hMSC-TERT). Proliferation rate was determined by (3)H-thymidine incorporation. The differentiation of hMSC-TERT cells to osteoblastic cells was assessed by means of measuring alkaline phosphatase activity and collagen synthesis in vitro. Both undifferentiated and osteoblast-differentiated hMSC-TERT cells were investigated for response to BPE. The metabolic responses to BPE were compared to unstimulated cells and cells stimulated with bovine collagen (COL). Undifferentiated hMSC-TERT cells responded to BPE with increased proliferation and decreased alkaline phosphatase activity. Osteoblastic differentiated hMSC-TERT cells had a diminished proliferative response and an increased alkaline phosphatase activity and collagen synthesis. Our study demonstrated significant metabolic effects of BPE on hMSC-TERT cells, which were highly dependant on the differentiated state of the cells.
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PMID:Effects of bone protein extract on human mesenchymal stem cells proliferation and differentiation. 1678 68

Telomeres are the protective structures at the end of eukaryotic chromosomes. Telomerase is a ribonucleoprotein that contains both an RNA and a protein component for the maintenance of telomere length. Telomerase activity is detected in the majority of malignant tumors, but not in normal somatic cells, suggesting that telomerase reactivation is a crucial step in cell immortality and carcinogenesis. The mechanism of how telomerase is activated during tumorigenesis remains unclear. However, the expression of the human telomerase reverse transcriptase (hTERT) gene, which encodes the catalytic protein subunit of human telomerase, has been shown to be the major determining factor. To gain insight into the mechanisms regulating hTERT expression and to facilitate the screening of agents that affect hTERT expression, we have established cell-based systems for monitoring hTERT expression. We linked the hTERT promoter to two different reporter genes encoding green fluorescence protein (GFP) and secreted alkaline phosphatase (SEAP), respectively. These constructs were then transfected into H1299 and hTERT-BJ1 cells. Stable clones harboring these DNA constructs were isolated. In these cells, hTERT expression can be monitored through the quantification of GFP or SEAP activity on an automatic plate reader. Using these systems, we have identified several small molecule compounds that affect the expression of telomerase.
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PMID:Establishing cell-based reporter systems for the analysis of hTERT expression. 1836 19

Osteoblastic differentiation of human mesenchymal stem cells (hMSC) in monolayer culture is artefactual, lacking an organized bone-like matrix. We present a highly reproducible microwell protocol generating three-dimensional ex vivo multicellular aggregates of telomerized hMSC (hMSC-telomerase reverse transcriptase (TERT)) with improved mimicry of in vivo tissue-engineered bone. In osteogenic induction medium the hMSC were transitioned with time-dependent specification toward the osteoblastic lineage characterized by production of alkaline phosphatase, type I collagen, osteonectin, and osteocalcin. Introducing a 1-2 mm(3) crystalline hydroxyapatite/beta-tricalcium phosphate scaffold generated osteospheroids with upregulated gene expression of transcription factors RUNX2/CBFA1, Msx-2, and Dlx-5. An organized lamellar bone-like collagen matrix, evident by birefringence of polarized light, was deposited in the scaffold concavities. Here, mature osteoblasts stained positively for differentiated osteoblast markers TAZ, biglycan, osteocalcin, and phospho-AKT. Quantification of collagen birefringence and relatively high expression of genes for matrix proteins, including type I collagen, biglycan, decorin, lumican, elastin, microfibrillar-associated proteins (MFAP2 and MFAP5), periostin, and tetranectin, in vitro correlated predictively with in vivo bone formation. The three-dimensional hMSC-TERT/hydroxyapatite-tricalcium phosphate osteospheroid cultures in osteogenic induction medium recapitulated many characteristics of in vivo bone formation, providing a highly reproducible and resourceful platform for improved in vitro modeling of osteogenesis and refinement of bone tissue engineering.
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PMID:Parameters in three-dimensional osteospheroids of telomerized human mesenchymal (stromal) stem cells grown on osteoconductive scaffolds that predict in vivo bone-forming potential. 2019 44

The ability of dermal papilla (DP) cells to induce hair growth was reported in many studies. However, early stages of hair follicle development and signals that govern this process are poorly understood. Therefore, an in vitro model may be a convenient system to study epithelial-mesenchymal interactions and early stages of epidermal morphogenesis, especially in humans. To investigate the role of DP cells in epidermal morphogenesis we modified the method of isolation of DP cells from hair follicle of human scalp and developed the three-dimensional model of epidermal morphogenesis. Isolated DP cells were able to differentiate in adipogenic and osteogenic directions and retained activity of alkaline phosphatase (AP) for seven passages in culture. DP cells were able to induce tubule-like structures in three-dimensional model in vitro and to reorganize collagen matrix. Prolonged cultivation of DP cells has been a big problem because of the loss of hair follicle-inducing ability and growth activity after several passages. To solve this problem we immortalized DP cells by the transfection of the human telomerase reverse transcriptase cDNA (hTERT). Immortalized DP-hTERT cells retained AP activity and demonstrated low ability to osteogenic differentiation. The conditioned medium collected from actively proliferated cells as well as DP-hTERT cells themselves were capable to induce tubulogenesis after prolonged keratinocyte cultivation.
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PMID:Dermal papilla cells induce keratinocyte tubulogenesis in culture. 2033 8


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