Gene/Protein Disease Symptom Drug Enzyme Compound
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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)

The localization of alkaline phosphatase (E.C. 3.1.3.1.) positivity during prenatal development of the hypothalamus of the rat is described. At E12 all layers of the prosencephalon display alkaline phosphatase (AP) positivity. The AP positivity increases from dorsal to ventral. Within the hypothalamic area a second, rostro-ventral gradient exists from E14 onwards. At E18 both gradients have decreased. At E20 almost all AP positivity has disappeared from the hypothalamus, with the exception of some reaction product in the dorsal ventricular matrix of the hypothalamus. The significance of this pattern in relation to the differentiation of the hypothalamus and to the formation of hypothalamic connections is discussed. It is suggested that AP activity is related to the formation of connections.
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PMID:The prenatal development of alkaline phosphatase activity in the hypothalamus of the rat. 329 49

The expression pattern of tissue nonspecific alkaline phosphatase (TNAP) in the developing neural tube of mouse is reported. Homogeneous AP activity in the neuroepithelium becomes prominent at E8.5. At E9.5, distinctly AP-positive cells appear in the brain and spinal cord area. At stages E10.5 to E12.5, AP positivity is observed between the mesencephalon and the rhombencephalon, along the entire spinal cord and cranial nerves emerging from the myelencephalon. At E13.5, strongly AP positive fibers become prominent in the pons. At E14.5, AP expression in brain tissue is considerably reduced and there is a complete absence of AP activity in the nerve cells and glial cells of adult brain. The choroid plexus remains distinctly positive for AP expression until the adult stage. Northern blot analysis and reverse-transcriptase polymerase chain reaction amplification of RNA indicate that this AP activity results from the expression of the Akp-2 locus. This AP expression pattern is distinct from those reported for the expression of GD3, nestin, Hox 2.3, and Wnt-1 during brain development. We conclude that AP is a useful marker of a subpopulation of neuroectodermal cells present in the neural tube as early as E8.5, at which stages there are no other AP positive intraembryonic cells except PGCs.
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PMID:Stage-specific expression of alkaline phosphatase during neural development in the mouse. 753 63

The Zfy-1 and Zfy-2 genes, which arose by gene duplication, map to the mouse Y chromosome and encode nearly identical zinc-finger proteins. Zfy-1 is expressed in the genital ridge and adult testis and likely encodes a transcription activator. Although potential roles in sex determination and spermatogenesis have been hotly debated, the biological functions of Zfy-1 remain unknown. To study the gene's regulation, transgenes with 21-28 kb of Zfy-1 5' flanking DNA placed upstream of lacZ were constructed in plasmids or created by homologous recombination of coinjected DNA molecules. The resulting transgenic mice expressed beta-galactosidase in the genital ridge of both males and females starting between embryonic day 10 and 11 (E10-E11), peaking at E12-E13 and then declining to low levels by E15, a pattern that matches Zfy-1 mRNA as detected by RT-PCR. This lacZ expression in genital ridge was confined to somatic cells as demonstrated by its absence from the alkaline phosphatase-positive germ cells. It had been reported previously that Zfy-1 mRNA was absent from the embryonic gonad of homozygous W(e) embryos, which virtually lack germ cells. By contrast, we observed normal expression of the Zfy-1/lacZ transgene when introduced into the W(e) background, suggesting that germ cells are not necessary for expression. In the adult, the Zfy-1/lacZ transgene is expressed abundantly in developing germ cells. Extragonadal (kidney, meninges, arteries, choroid plexus) expression of the transgene was also observed in embryos. A smaller transgene with only 4.3 kb of Zfy-1 5' flanking DNA was expressed only in germ cells of adult mice. These results suggest that an enhancer for germ cell expression in the adult lies near the Zfy-1 promoter and that an enhancer for expression in the somatic cells of the embryonic gonad is located further 5'.
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PMID:Expression of a mouse Zfy-1/lacZ transgene in the somatic cells of the embryonic gonad and germ cells of the adult testis. 805 Mar 62

ADD1 is a recently identified basic helix-loop-helix leucine zipper-type transcription factor that acts as a positive regulator of adipocyte-specific gene expression. Since adipocytes may share their precursor with osteoblasts, we examined the expression of ADD1 mRNA in osteoblast-like cells. In osteoblastic MC3T3-E1 cells, the level of the ADD1 mRNA expression was low at the early period of cultures while it subsequently increased with time up to more than 10-fold in the later period of cultures along with the expression of alkaline phosphatase, a differentiation marker of these cells. In ROS17/2.8 cells, which represent mature osteoblasts, ADD1 mRNA was expressed constitutively. Treatment with retinoic acid (RA) enhanced the ADD1 mRNA expression several fold in these cells within 4 h in a dose-dependent manner. This RA effect on the ADD1 mRNA expression was blocked by dichloro-D-ribofuranosylbenzimidazole but not by cycloheximide. RA treatment did not affect the ADD1 mRNA stability, suggesting the involvement of transcriptional control. Electrophoretic mobility shift assay revealed that proteins in the crude nuclear extracts prepared from ROS17/2.8 cells were bound to the E box-containing ADD1 recognition DNA sequence, E/C, and that this binding activity was enhanced by the RA treatment. Neither the E2A protein recognition sequence nor the Myo-D/E12 recognition sequence competed against the E/C sequence for the binding, indicating the sequence specificity of the binding activity. Furthermore, RA treatment enhanced the transactivation activity of the chloramphenicol acetyltransferase construct containing the E/C sequence in the transient transfection assay in ROS17/2.8 cells. RA treatment also enhanced the ADD1 mRNA expression in another rat calvaria-derived cell line, RCT1, and in the primary cultures of newborn rat calvaria cells. Overexpression of ADD1 in ROS17/2.8 enhanced the level of the osteocalcin mRNA expression. These results indicated that the adipogenic basic helix-loop-helix leucine zipper-type transcription factor (ADD1) mRNA was expressed in osteoblastic cells and that its expression was associated with the expression of an osteoblastic phenotype-related gene.
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PMID:An adipogenic basic helix-loop-helix-leucine zipper type transcription factor (ADD1) mRNA is expressed and regulated by retinoic acid in osteoblastic cells. 912 91

Mucin-producing Cowper's glands, which are situated in the urogenital diaphragm, can be sampled inadvertently by transurethral resection of the prostate and rarely by needle biopsy. Because they are small, closely packed glandular units, Cowper's glands can be misinterpreted as prostatic adenocarcinoma. A panel of immunoperoxidase and mucin stains performed on 10 Cowper's glands showed negative immunoreactivity for prostatic-specific antigen, prostatic alkaline phosphatase, S-100 protein, and carcinoembryonic antigen. Acini in nine of the 10 Cowper's glands were negative for high-molecular-weight cytokeratin K-903 (34beta E12). One case showed faint focal staining of cells around the periphery of acinar units. Smooth muscle actin consistently stained the periphery of acini in all cases. Ultrastructural examination of one Cowper's gland showed the presence of myoepithelial cells at the periphery of the acini. Contrary to previous reports, the acini were lined by a prominent secretory cell layer underlain by an attenuated myoepithelial cell layer. A negative stain for K-903. without additional immunohistochemical study on Cowper's glands taken during transurethral resection or needle biopsy, may substantiate an erroneous diagnosis of prostatic adenocarcinoma. This potential misdiagnosis of carcinoma can be averted if samples stain positive for mucin and smooth muscle actin and negative for prostate-specific antigen and prostatic alkaline phosphatase.
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PMID:Distinguishing Cowper's glands from neoplastic and pseudoneoplastic lesions of prostate: immunohistochemical and ultrastructural studies. 929 83

Cellular differentiation entails the coordination of cell cycle arrest and tissue-specific gene expression. We investigated the involvement of basic helix-loop-helix (bHLH) factors in differentiation of osteoblasts using the human osteoblastic cell line MG63. Serum starvation induced growth arrest at G1 phase, accompanied by expression of cyclin-dependent kinase inhibitor p21(WAF1/Cip1). Reporter assays with the p21 gene promoter demonstrated that the combination of E2A (E12 or E47) and coactivator CBP was responsible for p21 induction independent of p53. Twist inhibited E2A-CBP-dependent activation of the exogenous and endogenous p21 promoters. Ids similarly inhibited the exogenously transfected p21 promoter; however less antagonistic effect on the endogenous p21 promoter was observed. Twist was predominantly present in nuclei in MG63 cells growing in complete medium, while it localized mainly in the cytoplasm after serum starvation. The fibroblast growth factor receptor 3 gene (FGFR3), which generates signals leading to differentiation of osteoblasts, was found to be controlled by the same transcriptional regulation as the p21 gene. E2A and Twist influenced alkaline phosphatase expression, a consensus marker of osteoblast differentiation. Expression of E2A and FGFR3 was seen at the location of osteoblast differentiation in the calvaria of mouse embryos, implicating bHLH molecules in physiological osteoblast differentiation. These results demonstrate that a common regulatory system is involved in at least two distinct steps in osteoblastic differentiation. Our results also provide the molecular basis of Saethre-Chotzen syndrome, caused by mutations of the TWIST and FGFR3 genes.
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PMID:Common regulation of growth arrest and differentiation of osteoblasts by helix-loop-helix factors. 1158 22

The objectives of the present study were to investigate the expression patterns of T-type Ca2+ channel mRNA during spermatogenesis and organogenesis in mice. Reverse transcription-polymerase chain reaction (RT-PCR) was performed to identify the subtypes of calcium channels present in the round spermatids isolated from mouse testes by flow cytometry. Transcripts of L-type (alpha1D), non-L-type (alpha1E) and T-type Ca2+ channels were detected in round spermatids. Analysis of PCR products of T-type Ca2+ channels indicated that only alpha1H subunits were detected in round spermatids. The appearance and differential distribution of alpha1H T-type Ca2+ channel mRNA during mouse spermatogenesis and postimplantation embryogenesis (embryonic (E) days E9, E12, E15) were investigated by in situ hybridization with digoxigenin-labeled RNA probes coupled with alkaline phosphatase detection. In testes from adult and immature mice (postnatal 2 and 3 weeks), alpha1H T-type Ca2+ channel mRNA was expressed in all developing germ cells and sertoli cells. On E9 and E12, tissues of the central nervous system, such as the telencephalon, expressed alpha1H T-type Ca2+ channel mRNA. On E15, signals were detected throughout all organs of the embryo. These findings indicate that the expression of alpha1H T-type Ca2+ channels is spatio-temporally regulated during spermatogenesis and organogenesis.
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PMID:Developmental expression patterns of alpha1H T-type Ca2+ channels during spermatogenesis and organogenesis in mice. 1206 68

Mandibular condylar cartilage is the best-studied mammalian secondary cartilage, differing from primary cartilage in that it originates from alkaline phosphatase-positive progenitor cells. We previously demonstrated that three transcription factors related to bone and cartilage formation, namely Runx2, Osterix and Sox9, are simultaneously expressed in the anlage of mandibular condylar cartilage (condylar anlage) at embryonic day (E)14. In this study, expression of these transcription factors was investigated in the anlagen of mandibular bone (mandibular anlagen) from E11.0 to 14.0. Runx2 mRNA was first expressed in the mandibular anlage at E11.5. Osterix mRNA was first expressed at E12.0, and showed a different expression pattern from that of Runx2 from E12.5 to E14.0, confirming that Osterix acts downstream of Runx2. Sox9 mRNA was expressed in Meckel's cartilage and its anlagen throughout the experimental period, but not clearly in the mandibular anlagen until E13.0. At E13.5, the condylar anlage was morphologically identified at the posterior end of the mandibular anlage, and enhanced Sox9 mRNA expression was detected here. At this stage, Runx2 and Osterix mRNA were simultaneously detected in the condylar anlage. These results indicate that the Sox9 mRNA-expressing condylar anlage is derived from Runx2/Osterix mRNA-expressing mandibular anlage, and that upregulation of Sox9 in this region acts as a trigger for subsequent condylar cartilage formation.
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PMID:An in situ hybridization study of Runx2, Osterix, and Sox9 in the anlagen of mouse mandibular condylar cartilage in the early stages of embryogenesis. 1862 32

Helix-loop-helix (HLH) transcription factors are key regulators of neurogenesis, myogenesis and osteogenesis. Here the relative contributions of multiple classes of HLH factors to the expression of bone related genes during osteoblast maturation were compared. We examined the expression of a panel of HLH proteins (e.g., Twist1/2, USF1/2, c-Myc, Id1 approximately 4, E12/47, Stra13) and one Zn finger protein (Snail which recognizes a subset of E-boxes), during osteoblast differentiation and their functional contributions to bone phenotypic gene regulation. While expression of Twist1, Stra13, E12/47 and Snail transcripts remains relatively constant, expression of Twist2 as well as the inhibitory factors Id1, Id2, Id3, and Id4 decreases and USF1 is up-regulated during osteoblastic differentiation of MC3T3 cells. Forced expression of selected HLH transcription factors shows that Myc, Snail and USF factors increase expression of the bone markers osteocalcin (OC) and/or alkaline phosphatase (AP), while E12/47, Twist and Id factors decrease their expression. None of these factors affect Runx2 gene expression. Interestingly, Snail enhances expression of osteoblast markers, while Twist1 and Twist2 factors are cross-regulated and inhibit bone specific gene expression and other HLH proteins (e.g., Id) indirectly. Thus, our data suggest that the integrated activities of negative and positive E-box related regulatory factors control osteoblast differentiation.
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PMID:Intricate gene regulatory networks of helix-loop-helix (HLH) proteins support regulation of bone-tissue related genes during osteoblast differentiation. 1865 82

The pluripotency factor Nanog is expressed in peri-implantation embryos and primordial germ cells (PGCs). Nanog-deficient mouse embryos die soon after implantation. To explore the function of Nanog in germ cells, Nanog RNA was conditionally knocked down in vivo by shRNA. Nanog shRNA transgenic (NRi-Tg) mice were generated through the formation of germline chimeras with NRi-Tg embryonic stem cells. In E12.5 Cre-induced ER-Cre/NRi-Tg and TNAP-Cre/NRi-Tg double-transgenic embryos, the number of alkaline phosphatase-positive and SSEA1-positive PGCs decreased significantly. In the E9.5 and E10.5 migrating Nanog-knockdown PGCs, TUNEL-positive apoptotic cell death became prominent in vivo and in vitro, despite Oct4 expression. Single-cell microarray analysis of E10.5 Nanog-knockdown PGCs revealed significant up- and downregulation of a substantial number of genes, including Tial1, Id1 and Suz12. These data suggest that Nanog plays a key role in the proliferation and survival of migrating PGCs as a safeguard of the PGC-specific molecular network.
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PMID:Conditional knockdown of Nanog induces apoptotic cell death in mouse migrating primordial germ cells. 1990 68


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