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)

Precise localization of alkaline phosphatase (ALPase) activity in human gliomas was examined by light and electron microscopy in association with malignant transformation, paying much attention to changes in blood-brain barrier. Materials used were eight cases of gliomas four of which were astrocytoma grade 2, one astrocytoma grade 3, and three, glioblastoma multiforme, respectively. Specimens were quickly fixed in cacodylate-buffered 2% glutaraldehyde at 4 degrees C for 1 hour and rinsed overnight in the same buffer. Frozen or nonfrozen sections (40 microns thick) were made and incubated at 20 degrees C for 40 min, and processed for light and electron microscopy. For the demonstration of ALPase activity, the lead citrate method (Mayahara et al., 1967) was employed. By light microscopy, ALPase activity appeared to be mainly restricted to the capillary wall. By electron microscopy, reaction product representing ALPase activity was distributed in the plasma membrane of endothelial cells both in astrocytomas and in glioblastoma. In astrocytoma grade 2, activity was primarily localized along the abluminal surface of endothelial cells. In glioblastoma, on the other hand, ALPase activity was positive on the luminal surface of the plasma membrane of endothelial cells. It was much more intense than that along the abluminal surface. Regional differences in enzyme cytochemistry may represent functional heterogeneity in the endothelial cell membrane. In brain tumors, changes in distribution pattern of enzyme activity were visualized in the present study in association with glioma malignancy. This might represent a functional aspect of changes in blood-brain barrier in human glioma tissue during course of its malignant transformation.
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PMID:[Alkaline phosphatase activity in human gliomas as revealed by light and electron microscopy]. 304 56

Glial fibrillary acidic protein (GFAP) and glioma-associated antigens (GAA) defined by monoclonal antibodies (MAbs) were demonstrated simultaneously in human astrocytoma tissue. GFAP was stained by PAP-method, GAA were visualized by avidin-biotin-technique using alkaline phosphatase. In primary and secondary tumors as well as in tissue culture heterogeneity of GFAP- and GAA-expression is obvious. GFAP is mostly restricted to cell processes and less marked in the perinuclear space. Depending on the individual antibody, MAbs-positive material is located either in the tumor cell plasma (MUC 8-22) or on cell surface membranes (MUC 2-63). There is remarkable expression of GAA in cell clusters which fail to express GFAP. At higher magnification, 3 types of cellular reactivity are detectable: (a) cells which react only with anti-GFAP, (b) cells which react only with anti-GAA and (c) cells which express both, GFAP and GAA, especially those of protoplasmic astrocyte type. These cells also occur in subcutaneous tumor grafts, and may thus represent not only a reactive event, but be part of tumor cell populations.
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PMID:Simultaneous demonstration of glia- and glioma-associated antigens in human astrocytomas. 316 45

The C6 spheroid implantation glioma model is a simple, easily reproduced model for primary gliomas in which C6 astrocytoma cells are grown in vitro as spheroids and subsequently implanted into the brains of Sprague Dawley rat hosts. This report describes the growth, histology, vessel architecture and vascular permeability of the resulting tumors. The appearance of the tumor was investigated by light and electron microscopy, and by using the alkaline phosphatase technique. The leakage of tracer was measured from vessels in the tumor and peritumoral area at various times during tumor development. The spheroid implant produces a fully vascularized, rapidly growing tumor with many of the characteristics of glioblastoma multiforme, from an avascular focus of neoplastic cells. The major advantage of this model is that the tumors grow in a spheroidal fashion and the tumor-brain interface can be easily located. Many of the important events in the process of vascularization take place at the tumor-brain interface. Two distinctive vascular events appear to occur simultaneously: proliferation of blood vessels and their growth into the tumor mass so that they develop into typical, permeable tumor vessels, and migration of tumor cells along normal vessels into the surrounding brain. Tumor vessels were permeable to the tracer Evans Blue (EB) from the earliest days of ingrowth. Leakage of the EB increased as the tumors increased in size, but eventually leakage plateaued as tumors developed necrotic centers. It is well known that the structural and permeability characteristics of vessels associated with the tumor affect tumor growth. This model will be useful for a number of proposed studies including assessment of various clinical therapies on tumor growth and development, and more specifically, quantitative analysis of the vascularization process in tumors.
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PMID:A new glioma model in rat: the C6 spheroid implantation technique permeability and vascular characterization. 357 71

This study is a quantitative analysis of acid and alkaline phosphatase activity in human brain tumor homogenates and subcellular fractions, in parallel with normal brain tissue. Glioblastoma multiforme, meningioma, astrocytoma and normal tissue samples were separated by ultracentrifugation into five subcellular fractions: nuclei (N), mitochondria (M), microsomes (P), ribosomes (R) and supernatant (S). These two phosphatases showed significant increase in astrocytoma and meningioma tissue homogenates, compared with normal brain tissue. Alkaline phosphatase levels were determined to increase significantly in glioblastoma multiforme tissue homogenates as compared with normals, while those of acid phosphatase were observed to decrease. The results of this investigation also indicate that the subcellular distributions of acid and alkaline phosphatase show differences in the different tumor types. This observation is evidence against metabolic uniformity in tumoral tissue.
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PMID:Acid and alkaline phosphatase activities in homogenates and subcellular fractions of human brain tumors. 407 2

The expression of the B-chain of platelet-derived growth factor (PDGF) was analyzed in 29 human brain tumors (4 astrocytomas, 7 glioblastomas, 3 medulloblastomas, 3 oligodendrogliomas, 7 meningiomas, and others) using monoclonal antibody after digestion with alkaline phosphatase, and compared with proliferative activities measured by in vivo uptake of bromodeoxyuridine. Medulloblastomas contained the highest amounts of PDGF B-chain, some four to eight times more than that in control brain tissue. The most predominant PDGF molecule of the medulloblastoma was 17 kd. Astrocytomas, glioblastomas, oligodendrogliomas, and meningiomas contained predominantly 30 and/or 22-24 kd molecules. Glioblastoma and meningioma proliferative activities correlated closely to PDGF concentrations, with only a few exceptions. Tumors that contained a high level of PDGF B-chain showed high proliferative activity, while tumors with high proliferative activity did not always contain a high level of PDGF B-chain. Tumors that contain many PDGF B-chains may thus indicate malignancy.
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PMID:Expression of the B-chain of platelet-derived growth factor and proliferative activity of human brain tumors. 768 50

1. The defective Cl- secretion characteristic of cystic fibrosis airway epithelial cells can be bypassed by an alternative Ca2+ dependent Cl- secretory pathway that is activated by extracellular nucleotides, e.g. uridine-5'triphosphate (UTP), acting on P2U purinoceptors. Since UTP is susceptible to hydrolysis by nucleotidases and phosphatases present in the airways, the identification of stable P2U-purinoceptor agonists would be of therapeutic relevance. 2. Uridine-5'-O-(3-thiotriphosphate) (UTP gamma S) was synthesized by nucleoside diphosphate kinase-catalyzed transfer of the gamma-phosphorothioate from guanosine-5'-O-(3-thiotriphosphate) (GTP gamma S) or adenosine-5' = O-(3-thiotriphosphate) (ATP gamma S) to UDP. Formation of UTP gamma S was illustrated by observation of transfer of 35S from [35S]-GTP gamma S and transfer of 3H from [3H]-UDP. The chemical identity of high performance liquid chromatography (h.p.l.c.)-purified UTP gamma S was confirmed by nuclear magnetic resonance analysis. 3. Human 1321N1 astrocytoma cells stably expressing the phospholipase C-coupled human P2U-purinoceptor were utilized to test the activity of UTP gamma S. UTP gamma S (EC50 = 240 nM) was essentially equipotent to UTP and ATP for stimulation of inositol phosphate formation. 4. Unlike [3H]-UTP, [3H]-UTP gamma S was not hydrolyzed by alkaline phosphatase, acid phosphatase, or apyrase. Moreover, no hydrolysis was detected during a 1 h incubation with human nasal epithelial cells. 5. UTP gamma S was equally potent and efficacious with UTP for stimulation of Cl- secretion by human nasal epithelium from both normal donors and cystic fibrosis patients. Based on its high potency and resistance to hydrolysis, UTP gamma S represents a promising compound for treatment of cystic fibrosis.
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PMID:Enzymatic synthesis of UTP gamma S, a potent hydrolysis resistant agonist of P2U-purinoceptors. 882 64

GLIOMAS: As we demonstrated for supratentorial, diffuse gliomas in adults, a stratification into just two grades of malignancy, 'low' and 'high grade,' proved reliable and prognostically relevant. The discriminating histomorphological criterion for high-grade astrocytoma (WHO glioblastoma) as well as anaplastic oligodendroglioma and anaplastic oligoastrocytoma is endothelial hyperplasia/proliferation, which is usually associated with uptake of contrast medium in computed tomography and magnetic resonance imaging. As neoangiogenesis indicates glioma progression, it is worthwhile considering these radiographic features to judge the representativeness of the tumor samples critically. MENINGIOMAS: The revised edition of the WHO classification of brain tumors now includes the 'atypical' meningioma (WHO 'grade' II): Based on both its histomorphological features and prognosis, it should be placed between the common type and anaplastic meningioma. Nuclear area related Ki-67 proliferation indices, as determined by morphometry, were the prerequisite for outlining its histomorphological spectrum better. Cytogenetically, the most consistent progression-associated feature was loss of the distal part of the short arm of one chromosome 1 (1p-). Thus, a screening method using the tissue non-specific form of alkaline phosphatase (ALPL) as the respective marker enzyme was established. Diagnosing a meningioma of the intermediate type implies careful clinical and radiological patient follow-ups to detect tumor recurrences early.
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PMID:[Classification and grading of gliomas and meningiomas]. 986 48

During the last decade, the aberrant expression of normal testicular proteins in neoplastically transformed cells became common knowledge. Cancer/testis-antigens (CTAs) represent a novel family of immunogenic proteins. The MAGE genes were initially analyzed from melanomas and turned out to have an almost exclusively neoplasm-specific expression pattern. This expression pattern might contribute to the genetic instability of neoplastically transformed cells. In normal adult tissues, most 23 human MAGE genes are expressed only in the testis, but only in the mitotic spermatogonia (germ cells) and in the primary spermatocytes. The immunocytochemistry was carried out on routine, formalin-fixed, paraffin-wax-embedded 3 to 4 mm thick astrocytoma (ASTR) tissue sections. A four step, indirect, biotin-streptavidin based method was employed with alkaline phosphatase enzyme conjugation. Immunocytochemical presence and cellular localization of the MAGE-1 CT-antigen, employing anti-MAGE-1 MoAB was observed only in anaplastic, high-grade ASTRs (100%), certainly including glioblastomas, in this study. The immunoreactivity was always heterogeneous, showing a cytoplasmic pattern and loosely grouped cells with similar staining characteristics being detected within the cellular and hormonal microenvironment of the ASTRs. We never identified MAGE-1, CT-antigen expression in the lowest grade, pilocytic ASTRs. The MAGE-1 CTA expression levels may also be used to evaluate the malignant and dedifferentiation tendencies of low-grade ASTRs and predict the likelihood of mutations of the genome and further dedifferentiation towards even more malignant anaplastic ASTR and glioblastoma multiforme IPs.
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PMID:MAGE-1, a cancer/testis-antigen, expression in childhood astrocytomas as an indicator of tumor progression. 1249 4

The combination of 100 microm thick celloidin sections and alkaline phosphatase (AP) enzyme histochemistry of the vascular endothelium offers a greatly enhanced, 3D morphologic perspective and reveals intricate details of the vasculature of brain. A study of tumor specimens obtained at craniotomy from 6 patients with glioblastomas, 1 with anaplastic oligodendroglioma and 1 with juvenile pilocytic astrocytoma was undertaken using this technique. Five of the 6 glioblastomas, the anaplastic oligodendroglioma and the low-grade astrocytoma specimen showed uniform staining of afferent tumor blood vessels. In the glioblastomas, newly formed vessels formed dense, festooned networks at the advancing edges of the tumor. Feeding arteries entered the tumor at the junction between the edge of the tumor and adjacent brain or meninges and proceeded to form striking, coiled vessels and smaller branches. The density of both small arteries and veins was greatly increased within the tumor although there was much variability. Disordered arborization, arteriole to venous and arteriole to arteriole shunts were observed, leading to a situation where arteries connected directly to veins. In necrotic areas, there were often no AP-stained vessels. In many places, arterioles and capillaries were lacking. Numerous AP-negative veins of various sizes drained the tumors. Glomeruloid proliferations were presumptively identified as focal stain smudges or clusters of capillaries arising from nearby vascular channels. Increased alkaline phosphatase staining and/or focal new vessels were seen outside necrotic areas. The pilocytic astrocytoma and the oligodendroglioma showed less dense vascularity and no formation of the focal festoons of vessels shown by the glioblastomas. This technique may be useful for the study of tumor angiogenesis and to evaluate vascularity in experimental and human brain tumors after various therapies.
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PMID:A morphologic study of the vasculature of malignant gliomas using thick celloidin sections and alkaline phosphatase stain. 1532 81

Vascular endothelial growth factor (VEGF) is a homodimeric, disulfide-linked glycoprotein which exhibits endothelial cell-specific mitogenic properties. VEGF is also a potent inducer of vascular permeability. There is considerable experimental evidence that VEGF isoforms are strongly involved in provoking neoangiogenesis of neoplastic cells and, consequently, the growth and progression of primary neoplasms (i.e., astrocytic gliomas), including the formation of an invasive and metastatic immunophenotype (IP). During this immunohistochemical study, the presence and tissue localization of VEGF121 was observed in anaplastic, high-grade astrocytomas (AAs) and in glioblastoma multiforme (GBMs) employing the specific monoclonal antibody against it. A sensitive, four-step, alkaline phosphatase-conjugated antigen detection technique was used. The immunoreactivity demonstrated a cytoplasmic, cell surface and extracellular matrix localization pattern in more than 90% of the tumor cells, with high intensity immunoreactivity (++++, A,B) in every high-grade astrocytic glioma tissue. VEGF121 expression was identified mostly within the cytoplasm of tumor cells, suggesting an embryonic, undifferentiated and more malignant cellular IP of high-grade gliomas. Tumor-related neo-angiogenesis and endothelial cell proliferation were also present. The great majority of high-grade astrocytic gliomas are incurable with the three classic therapeutic modalities. In the future, the development of targeted anti-neoplastic treatment strategies, adapted to individual patients, will require molecular identification of the different classes of neoplasm (including subtypes of astrocytomas) according to their stages, biology, prognosis and therapeutic options.
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PMID:Up-regulation of VEGF expression and related neo-angiogenesis in childhood high-grade gliomas: implications for anti-angiogenic anti-neoplastic therapy. 1690 Jul 82


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