Biological variability in the structures of diphosphoinositol polyphosphates in Dictyostelium discoideum and mammalian cells
Previous structural analyses of diphosphoinositol polyphosphates in biological systems have relied largely on NMR analysis. For example, in Dictyostelium discoideum, diphosphoinositol pentakisphosphate was determined by NMR to be 4- and/or 6-PPInsP5, and the bisdiphosphoinositol tetrakisphosphate wa...
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| Published in | Biochemical journal Vol. 327 ( Pt 2); no. 2; pp. 553 - 560 |
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| Main Authors | , , , , , , , , |
| Format | Journal Article |
| Language | English |
| Published |
England
15.10.1997
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| Subjects | |
| Online Access | Get full text |
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| Abstract | Previous structural analyses of diphosphoinositol polyphosphates in biological systems have relied largely on NMR analysis. For example, in Dictyostelium discoideum, diphosphoinositol pentakisphosphate was determined by NMR to be 4- and/or 6-PPInsP5, and the bisdiphosphoinositol tetrakisphosphate was found to be 4, 5-bisPPInsP4 and/or 5,6-bisPPInsP4 [Laussmann, Eujen, Weisshuhn, Thiel and Vogel (1996) Biochem. J. 315, 715-720]. We now describe three recent technical developments to aid the analysis of these compounds, not just in Dictyostelium, but also in a wider range of biological systems: (i) improved resolution and sensitivity of detection of PPInsP5 isomers by microbore metal-dye-detection HPLC; (ii) the use of the enantiomerically specific properties of a rat hepatic diphosphatase; (iii) chemical synthesis of enantiomerically pure reference standards of all six possible PPInsP5 isomers. Thus we now demonstrate that the major PPInsP5 isomer in Dictyostelium is 6-PPInsP5. Similar findings obtained using the same synthetic standards have been published [Laussmann, Reddy, Reddy, Falck and Vogel (1997) Biochem. J. 322, 31-33]. In addition, we show that 10-25% of the Dictyostelium PPInsP5 pool is comprised of 5-PPInsP5. The biological significance of this new observation was reinforced by our demonstration that 5-PPInsP5 is the predominant PPInsP5 isomer in four different mammalian cell lines (FTC human thyroid cancer cells, Swiss 3T3 fibroblasts, Jurkat T-cells and Chinese hamster ovary cells). The fact that the cellular spectrum of diphosphoinositol polyphosphates varies across phylogenetic boundaries underscores the value of our technological developments for future determinations of the structures of this class of compounds in other systems. |
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| AbstractList | Previous structural analyses of diphosphoinositol polyphosphates in biological systems have relied largely on NMR analysis. For example, in Dictyostelium discoideum, diphosphoinositol pentakisphosphate was determined by NMR to be 4- and/or 6-PPInsP5, and the bisdiphosphoinositol tetrakisphosphate was found to be 4, 5-bisPPInsP4 and/or 5,6-bisPPInsP4 [Laussmann, Eujen, Weisshuhn, Thiel and Vogel (1996) Biochem. J. 315, 715-720]. We now describe three recent technical developments to aid the analysis of these compounds, not just in Dictyostelium, but also in a wider range of biological systems: (i) improved resolution and sensitivity of detection of PPInsP5 isomers by microbore metal-dye-detection HPLC; (ii) the use of the enantiomerically specific properties of a rat hepatic diphosphatase; (iii) chemical synthesis of enantiomerically pure reference standards of all six possible PPInsP5 isomers. Thus we now demonstrate that the major PPInsP5 isomer in Dictyostelium is 6-PPInsP5. Similar findings obtained using the same synthetic standards have been published [Laussmann, Reddy, Reddy, Falck and Vogel (1997) Biochem. J. 322, 31-33]. In addition, we show that 10-25% of the Dictyostelium PPInsP5 pool is comprised of 5-PPInsP5. The biological significance of this new observation was reinforced by our demonstration that 5-PPInsP5 is the predominant PPInsP5 isomer in four different mammalian cell lines (FTC human thyroid cancer cells, Swiss 3T3 fibroblasts, Jurkat T-cells and Chinese hamster ovary cells). The fact that the cellular spectrum of diphosphoinositol polyphosphates varies across phylogenetic boundaries underscores the value of our technological developments for future determinations of the structures of this class of compounds in other systems. Previous structural analyses of diphosphoinositol polyphosphates in biological systems have relied largely on NMR analysis. For example, in Dictyostelium discoideum, diphosphoinositol pentakisphosphate was determined by NMR to be 4- and/or 6-PPInsP sub(5), and the bisdiphosphoinositol tetrakisphosphate was found to be 4,5-bisPPInsP sub(4) and/or 5,6-bisPPInsP sub(4). We now describe three recent technical developments to aid the analysis of these compounds, not just in Dictyostelium, but also in a wider range of biological systems: (i) improved resolution and sensitivity of detection of PPInsP sub(5) isomers by microbore metal-dye-detection HPLC; (ii) the use of the enantiomerically specific properties of a rat hepatic diphosphatase; (iii) chemical synthesis of enantiomerically pure reference standards of all six possible PPInsP sub(5) isomers. Thus we now demonstrate that the major PPInsP sub(5) isomer in Dictyostelium is 6-PPInsP sub(5). Similar findings obtained using the same synthetic standards have been published. In addition, we show that 10-25% of the Dictyostelium PPInsP sub(5) pool is comprised of 5-PPInsP sub(5). The biological significance of this new observation was reinforced by our demonstration that 5-PPInsP sub(5) is the predominant PPInsP sub(5) isomer in four different mammalian cell lines (FTC human thyroid cancer cells, Swiss 3T3 fibroblasts, Jurkat T-cells and Chinese hamster ovary cells). The fact that the cellular spectrum of diphosphoinositol polyphosphates varies across phylogenetic boundaries underscores the value of our technological developments for future determinations of the structures of this class of compounds in other systems. |
| Author | Mayr, G W Reddy, K Bröcker, M Shears, S B Safrany, S T Bembenek, M E Falck, J Albert, C Reddy, K M |
| AuthorAffiliation | Universitäts-Krankenhaus Eppendorf, Institut für Physiologische Chemie, Abt. für Enzymchemie, Martinistr. 52, D-20246 Hamburg, Germany |
| AuthorAffiliation_xml | – name: Universitäts-Krankenhaus Eppendorf, Institut für Physiologische Chemie, Abt. für Enzymchemie, Martinistr. 52, D-20246 Hamburg, Germany |
| Author_xml | – sequence: 1 givenname: C surname: Albert fullname: Albert, C organization: Universitäts-Krankenhaus Eppendorf, Institut für Physiologische Chemie, Abt. für Enzymchemie, Martinistr. 52, D-20246 Hamburg, Germany – sequence: 2 givenname: S T surname: Safrany fullname: Safrany, S T – sequence: 3 givenname: M E surname: Bembenek fullname: Bembenek, M E – sequence: 4 givenname: K M surname: Reddy fullname: Reddy, K M – sequence: 5 givenname: K surname: Reddy fullname: Reddy, K – sequence: 6 givenname: J surname: Falck fullname: Falck, J – sequence: 7 givenname: M surname: Bröcker fullname: Bröcker, M – sequence: 8 givenname: S B surname: Shears fullname: Shears, S B – sequence: 9 givenname: G W surname: Mayr fullname: Mayr, G W |
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| SubjectTerms | 3T3 Cells Animals Chromatography, High Pressure Liquid Cricetinae Dictyostelium - chemistry Humans Isomerism Jurkat Cells Kinetics Liver - enzymology Mammals Mice Nuclear Magnetic Resonance, Biomolecular - methods Phosphatidylinositol Phosphates - chemistry Phosphatidylinositol Phosphates - metabolism Pyrophosphatases - metabolism Rats |
| Title | Biological variability in the structures of diphosphoinositol polyphosphates in Dictyostelium discoideum and mammalian cells |
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