Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UMLS:C0017636 (glioblastoma)
 18,345 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Several aspects of the regulation of the pentose phosphate pathway were examined in cultured normal human cortical astrocytes and gliomas of pathological grades I-IV. The generation of radiolabeled CO2 from [1-14C]glucose by the oxidative arm of the pentose phosphate pathway is a saturable process and has a maximum flux rate of 8-9 nmol/hr/mg cell protein. The flux can be blocked by the glycolytic inhibitor iodoacetamide but is unaffected by agents which inhibit oxidative phosphorylation. The magnitude of the pentose phosphate flux is directly related to the glioma grade. Grade IV gliomas (glioblastoma) show a pentose phosphate flux rate of approximately 4% of the total glucose flux. The flux rate can be increased by pharmacological agents which decrease the NADPH/NADP+ ratio. Both the activity and the regulation of glioma glucose-6-phosphate dehydrogenase (G6PDH) are altered in high-grade gliomas. While the affinity constants for cofactors in whole homogenates were not significantly different in glioma or normal astrocyte homogenates, normal astrocytes have a lower Km for glucose-6-phosphate and a G6PDH activity which is 10-fold greater than that of gliomas. NADPH is a powerful regulator of G6PDH activity in the normal astrocytes and in gliomas. At a NADPH/NADP+ ratio of 7:1 the normal astrocyte G6PDH is entirely inhibited, while the glioma enzyme is only 70% inhibited even at a ratio of 20:1. Increased metabolic flux through the oxidative arm of the pentose phosphate pathway is apparently due to an altered form of G6PDH.
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PMID:Regulation of the pentose phosphate pathway in human astrocytes and gliomas. 350 33

Somatic mutations in the isocitrate dehydrogenase 1 gene (IDH1) occur at high frequency in gliomas and seem to be a prognostic factor for survival in glioblastoma patients. In our set of 98 glioblastoma patients, IDH1 ( R132 ) mutations were associated with improved survival of 1 year on average, after correcting for age and other variables with Cox proportional hazards models. Patients with IDH1 mutations were on average 17 years younger than patients without mutation. Mutated IDH1 has a gain of function to produce 2-hydroxyglutarate by NADPH-dependent reduction of alpha-ketoglutarate, but it is unknown whether NADPH production in gliomas is affected by IDH1 mutations. We assessed the effect of IDH1 (R132 ) mutations on IDH-mediated NADPH production in glioblastomas in situ. Metabolic mapping and image analysis was applied to 51 glioblastoma samples of which 16 carried an IDH1 (R132 ) mutation. NADP+-dependent IDH activity was determined in comparison with activity of NAD+-dependent IDH and all other NADPH-producing dehydrogenases, glucose-6-phosphate dehydrogenase, 6-phosphogluconate dehydrogenase, malate dehydrogenase, and hexose-6-phosphate dehydrogenase. The occurrence of IDH1 mutations correlated with approx. twofold diminished NADP+-dependent IDH activity, whereas activity of NAD+-dependent IDH and the other NADP+-dependent dehydrogenases was not affected in situ in glioblastoma. The total NADPH production capacity in glioblastoma was provided for 65% by IDH activity and the occurrence of IDH1 (R132 ) mutation reduced this capacity by 38%. It is concluded that NADPH production is hampered in glioblastoma with IDH1 (R132 ) mutation. Moreover, mutated IDH1 consumes rather than produces NADPH, thus likely lowering NADPH levels even further. The low NADPH levels may sensitize glioblastoma to irradiation and chemotherapy, thus explaining the prolonged survival of patients with mutated glioblastoma.
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PMID:The prognostic IDH1( R132 ) mutation is associated with reduced NADP+-dependent IDH activity in glioblastoma. 2012 44