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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 have isolated a set of complementary DNA (cDNA) clones that together encode the alkaline phosphatase of human colon cancer LS174T cells. These clones include two cDNAs isolated from a conventionally prepared oligodeoxythymidylate-primed lambda ZAP cDNA library and three cDNA clones prepared by using the polymerase chain reaction. The deduced amino acid sequence of the alkaline phosphatase primary transcript contains 532 amino acids. This enzyme is similar to, but not identical with, placental alkaline phosphatase (PLAP); it exhibits 12-19 amino acid substitutions when compared to the various alleles of PLAP. Also, it is similar to PLAP in that it is apparently attached to the cell membrane by a phosphatidylinositol-containing anchor as judged by the ability of phosphatidylinositol-specific phospholipase C to release it from membranes. It is different from PLAP however, in terms of its signal sequence which only contains 19 amino acids as compared to 22 for PLAP. Moreover, the 3'-untranslated region of the LS174T cell alkaline phosphatase message diverges considerably from the PLAP message. The LS174T cell alkaline phosphatase cDNAs are actually much more similar to the "germ cell" alkaline phosphatase gene than they are to PLAP. Only 7 amino acid substitutions exist between the LS174T cell enzyme and the alkaline phosphatase encoded by the germ cell alkaline phosphatase genomic DNA clone isolated by Millan and Manes (Proc. Natl. Acad. Sci. USA, 85: 3024-3028, 1988). Furthermore, the 3'-untranslated region of the LS174T cell alkaline phosphatase message is very similar to the sequence immediately downstream of the coding region of the germ cell alkaline phosphatase genomic DNA clone. Thus, these results indicate that this colon cancer cell alkaline phosphatase is likely to represent an allelic variant encoded at the germ cell alkaline phosphatase locus.
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PMID:Molecular cloning of complementary DNAs encoding alkaline phosphatase in human colon cancer cells. 229 57

The four known isozymes of the human alkaline phosphatase (ALP) were detected by isoelectric focusing in extracts of various types of germ cell tumors, three related cell lines, and their precancerous elements (atypical germ cells). In seminoma, placental alkaline phosphatase (PLAP) and germ cell alkaline phosphatase (PLAP-like) could be separated by isoelectric focusing following isolation by immunoaffinity. The occurrence of both isozymes in seminoma could explain partial heat sensitivity and variation in electrophoretic patterns of the seminoma isozyme frequently observed upon starch gels, in comparison to the normal placental phenotype. The four ALP isozymes are produced not only in germ cell tumors, but already in precancerous tissues. Quantitative analysis showed that the amount of the four isozymes varies in parallel in the tumors tested. Maximal expression was found in seminoma. The relation between ALP gene overexpression and gene amplification by polyploidy of chromosomes 1 and 2 in these lesions is discussed. On the other hand, the ectopic expression of intestinal alkaline phosphatase and PLAP associated with overexpression of PLAP-like in tumor cells as well as in their precancerous stage indicates gene activation by some unknown mechanisms, probably a regulatory process affecting the three tissue-specific ALP genes simultaneously.
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PMID:Alkaline phosphatase isozymes in human testicular germ cell tumors, their precancerous stage, and three related cell lines. 254 14

Three closely related alkaline phosphatase (ALP) genes reside on the long arm of chromosome 2 in man. One of these genes (the placental ALP-1) encodes the classic heat-stable placental alkaline phosphatase. Another gene (the placental ALP-2) is closely related to the placental ALP-1 and may encode the so-called placental ALP-like enzyme of the testis and thymus. The third member of this gene family (the intestinal ALP gene) encodes the intestinal alkaline phosphatase. The expression of the placental ALP-1 and intestinal ALP genes is highly tissue-specific in spite of nearly 90% sequence similarity within their exons. To help determine the basis for this tissue specificity, the nucleotide sequence of the placental ALP-1 gene and some of its 5' flanking region has been determined and analyzed by comparison with placental ALP-2 and intestinal ALP gene sequences. The placental ALP-1 gene transcription unit has 4087 bases between the major cap site and the most distal of several reported 3' ends. The protein coding region is divided by 10 short introns varying in size from 74 to 241 nucleotides. Three of these introns bisect regions of the gene that encode residues conserved between the active site of the Escherichia coli enzyme and the human placental ALP. This result suggests that the human alkaline phosphatase genes have evolved in an intron-independent fashion. A comparison of the placental ALP-1 5' flanking sequence (up to -540) with the analogous sequence of the intestinal ALP gene revealed several deletion/substitutions which could be important in determining the tissue-specific expression of these genes.
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PMID:Nucleotide sequence of the human placental alkaline phosphatase gene. Evolution of the 5' flanking region by deletion/substitution. 304 87

BeWo choriocarcinoma cells synthesize two alkaline phosphatase isoenzymes: germ-cell alkaline phosphatase and tissue-unspecific alkaline phosphatase. We have made use of the differential heat-stabilities of these two isoenzymes to study the induction of germ-cell alkaline phosphatase by sodium butyrate and cyclic AMP (cAMP). Sodium butyrate causes a large induction of germ-cell alkaline phosphatase activity (approx. 35-fold after 96 h) after an initial lag period of 12-24 h. We showed that butyrate increases germ-cell alkaline phosphatase mRNA. Dibutyryl cAMP also induces germ cell alkaline phosphatase (approx. 2.5-fold after 96 h). When optimal concentrations of butyrate and dibutyryl cAMP were added simultaneously to cells, they caused a synergistic induction of activity. This suggested that these compounds use separate mechanisms to induce germ-cell alkaline phosphatase activity and that it is the cAMP moiety of dibutyryl cAMP that induces enzyme activity. This was confirmed by the use of two additional cAMP analogues, 8-(4-chlorophenylthio) cAMP and 8-bromo cAMP, and of two compounds, 3-methyl-1-isobutylxanthine and cholera toxin, which raise the endogenous concentration of cAMP. All four compounds caused a 2-fold increase in enzyme activity. Treatment of cells with 8-(4-chlorophenylthio) cAMP, 8-bromo cAMP and cholera toxin increased germ-cell alkaline phosphatase mRNA between 2- and 7-fold. These data suggest that this alkaline phosphatase isoenzyme is regulated at the level of its mRNA by cAMP, in a manner distinct from that of butyrate.
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PMID:Induction of germ-cell alkaline phosphatase by butyrate and cyclic AMP in BeWo choriocarcinoma cells. 750 59

Placental alkaline phosphatase (PLAP) and germ cell alkaline phosphatase (GCAP) are controlled by closely linked genes on chromosome 2q34-q37. In previous investigations, associations have been found between PLAP types and spontaneous abortion. In this study, PLAP and GCAP RFLPs and haplotypes were found to show highly significant associations with spontaneous abortions in the Finnish and Swedish populations. However, different associations were found in the Finnish and Swedish populations. The Finnish abortions were associated with the GCAP allele PstI(b) 2 and the Swedish abortions with the PLAP allele PstI(a) 2. A possible mechanism behind the associations may therefore be linkage disequilibria with deleterious alleles within or close to the alkaline phosphatase gene complex.
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PMID:Placental and germ cell alkaline phosphatase RFLPs and haplotypes associated with spontaneous abortion. 759 Jul 59

Enzyme and DNA polymorphisms and haplotypes of tissue-specific alkaline phosphatase genes were studied in Finns, Saamis and Swedes. In placental alkaline phosphatase (PLAP) restriction fragment length polymorphisms (RFLPs), found after digestion with RsaI and PstI, no significant population differences were observed. The PstI RFLP of the germ cell alkaline phosphatase (GCAP) locus showed significant allele frequency variations between Finns and Swedes (p = 0.014) and between Saamis and Swedes (p = 1 x 10(-4)). Electrophoretic enzyme variants of PLAP were studied in Finns and Swedes. The PLAP variant 18 (D in older nomenclature) was found at a polymorphic frequency in the Finnish sample. In all populations, strong linkage disequilibria were found between the RFLPs and between RFLPs and electrophoretic PLAP types. There was, however, one notable exception: between the RsaI RFLP of PLAP and the PstI RFLP of GCAP no linkage disequilibrium was found. Two new RFLPs were observed in the Finnish population sample, a RsaI mutant site in PLAP with a frequency of 0.02 and a KpnI mutant site outside and upstream of the PLAP gene with a frequency of 0.036. In accordance with findings in previous studies at the enzyme level, PLAP also appeared to be more polymorphic than GCAP and intestinal alkaline phosphatase at the DNA level.
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PMID:Ethnic differences in enzyme and DNA polymorphisms of human tissue-specific alkaline phosphatases. 791 10

Surgical biopsies and fine-needle aspirates of peri-tumoural seminiferous tubules were taken from freshly-excised orchidectomy specimens. In addition, patients with suspected germ cell tumour provided a peri-operative sample of seminal fluid. All three tissue preparations were investigated using flow cytometry, immunochemistry for placental-like alkaline phosphatase and enzymochemistry for alkaline phosphatase. Biopsy and fine-needle aspiration cytology provide the greatest diagnostic accuracy for carcinoma-in-situ using these techniques. Seminal fluid analysis did not provide a satisfactory diagnostic yield in the series of patients presented. A seminal plasma placental-like alkaline phosphatase immunoassay failed to discriminate CIS because of the high level of background germ cell alkaline phosphatase.
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PMID:Seminal fluid analysis and fine-needle aspiration cytology in the diagnosis of carcinoma in situ of the testis. 838 41

Human germ cell alkaline phosphatase (GCAP) is developmentally expressed in primordial germ cells and in trace amounts in the testis and thymus. The equivalent mouse isozyme, embryonic alkaline phosphatase (EAP), is similarly expressed in the testis and thymus but also from the 2-cell to blastocyst stage of preimplantation development. EAP has been found to be transiently expressed in M-phase spermatogenic cells in the mouse testis. These alkaline phosphatase isozymes serve as markers of germ cell differentiation and in the management of germ cell tumors. GCAP is expressed in carcinoma-in-situ and seminoma where serum GCAP levels are often elevated and may provide clinically useful information. However, GCAP is a polymorphic enzyme, and monoclonal antibodies to be used in the clinical evaluation of tumor tissues or fluids should be carefully evaluated for their ability to detect all allelic variants of GCAP.
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PMID:Developmental expression of alkaline phosphatase genes; reexpression in germ cell tumours and in vitro immortalized germ cells. 838 57

Two members of a placental alkaline phosphatase (PLAP) family, PLAP and PLAP-like or germ cell alkaline phosphatase, are aberrantly expressed in tumors of ecotropic origin. To characterize alkaline phosphatase induced in seminoma, alkaline phosphatase cDNA clones were isolated from a cDNA library constructed from seminoma cells and characterized by nucleotide sequence determination. Thus, isolated cDNA clones were classified into two types, germ cell alkaline phosphatase (PLAP-like) and liver/bone/kidney-type alkaline phosphatase (L/B/K AP). These results suggest that other than the PLAP family members, the expression of L/B/K AP is enhanced in seminoma and can serve as a tumor marker in seminoma.
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PMID:Characterization of alkaline phosphatase genes expressed in seminoma by cDNA cloning. 982 15

In an attempt to elucidate the potential of premeiotic male germ cells to malignant transformation both the invasiveness and the differential gene expression of several putative tumor markers of the spermatogonia-derived cell line GC-1spg and the spermatocyte-derived cell line GC-4spc were analyzed. Studies, using RT-PCR analysis, of the expression pattern of the alkaline phosphatase isoenzymes which serve as markers for testicular germ cell tumors demonstrated that the expression of the endogenous mouse embryonic alkaline phosphatase (EAP) is upregulated in the GC-1spg cell line. Additionally, after transfection of GC-1spg cells and GC-4spc cells with a GCAP-CAT construct, an increased promoter activity of the human germ cell alkaline phosphatase (GCAP), the equivalent human isoenzyme of EAP, was shown in GC-1spg. Furthermore, an in vitro Matrigel invasion assay revealed a significant higher invasive potential of GC-1spg cells as compared to GC-4spc cells. Finally, a suppression subtractive hybridization on RNA of invasive GC-1spg cells and non-invasive GC-4spc cells was performed. In total, 31 cDNA sequences were isolated and further analyzed. Among these, 18 known sequences and 13 unknown sequences were determined. Northern blot analysis revealed that one unknown gene and eight known genes, namely integrin alpha 6, L6 antigen, annexin VIII, BVL-1 retrotransposon, protective protein, replacement variant histone 3.3, alpha-catenin and LPS-binding protein, are over-expressed in invasive GC-1spg cells. Taken together, both the enhanced invasive activity of GC-1spg cells and the upregulated expression of genes involved in the process of tumor progression suggest that the immortalized spermatogonia-derived cell line GC-1spg does have a higher potential to malignant transformation than the immortalized spermatocyte-derived cell line GC-4spc.
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PMID:Isolation and characterization of differentially expressed genes in invasive and non-invasive immortalized murine male germ cells in vitro. 1117 88


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