Noboru Izumi scite author profile

We have investigated the stereochemistry of the side chain of the intermediates, 3 alpha, 7 alpha,12 alpha-trihydroxy-5 beta-cholest-24-enoic acid and 3 alpha,7 alpha,12 alpha,24-tetrahydroxy-5 beta-cholestanoic acid, in the conversion of 3 alpha,7 alpha,12 alpha-trihydroxy-5 beta-cholestanoic acid to cholic acid by rat liver peroxisomes. The intermediates formed were converted to the p-bromophenacyl ester derivatives and analyzed by reversed-phase high-performance liquid chromatography. Only the (24E) form of the two isomers of the delta 24-unsaturated acid and the (24R,25S) form of the four isomers at C-24 and C-25 of the 24-hydroxy acid were found to be formed stereospecifically from either (25R)- or (25S)-3 alpha,7 alpha,12 alpha-trihydroxy-5 beta-cholestanoic acid. Formation of the other isomers of the alpha beta-unsaturated bile acid or the beta-hydroxy bile acid was not detected. The findings support the proposed pathway for the side-chain cleavage in cholic acid biosynthesis, which is thought to be similar to that of peroxisomal fatty acid beta-oxidation.

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Interferon-γ Enhances Megakaryocyte Colony-Stimulating Activity in Murine Bone Marrow Cells

Tsuji-Takayama¹,

Tahata²,

Harashima³

et al. 1996

Journal of Interferon & Cytokine Research

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We have demonstrated previously that interferon-gamma (IFN-gamma) accelerates platelet recovery in mice with 5-FU induced-marrow aplasia in vivo. However, the mechanism for the regulation of megakaryocyte development induced by IFN-gamma in bone marrow cells in vivo remains unknown. To further study the effects of IFN-gamma on megakaryocyte development, various steps during IFN-gamma-mediated accelerated differentiation of the megakaryocytes were investigated in serum-free cultures of murine bone marrow cells in vitro. IFN-gamma markedly induced acetylcholine esterase (AChE) activity, a marker of murine megakaryocytic cells, accompanied by increased colony formation of the megakaryocyte lineage. A prominent increase in megakaryocyte number was observed after IFN-gamma treatment. All of these effects were dependent on the presence of IL-3, and, therefore, these results suggest that IFN-gamma acts as a megakaryocyte potentiator (Meg-POT). However, IFN-gamma did not enhance megakaryocyte maturation with respect to increase in cell size. The effects of IFN-gamma on megakaryocyte maturation were similar to those observed after treatment with higher doses of IL-3 alone. Meg-POT is defined as a factor that induces megakaryocyte maturation. Since IFN-gamma enhanced IL-3-dependent megakaryocyte colony formation and proliferation rather than megakaryocyte maturation, the effects on megakaryocyte development, which were induced by IFN-gamma treatment, seem to be different from the effects of a Meg-POT. We, therefore, propose a new function for IFN-gamma as an enhancer of megakaryocyte colony-stimulating factor activity. The effect of IFN-gamma in vitro appears to correlate well with the acceleration of platelet recovery in vivo.

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IFN-γ in Combination with IL-3 Accelerates Platelet Recovery in Mice with 5-Fluorouracil-Induced Marrow Aplasia

Tsuji-Takayama

Harashima²,

Tahata³

et al. 1996

Journal of Interferon & Cytokine Research

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The effects of interferon-gamma (IFN-gamma) on platelet recovery were examined in mice with marrow aplasia induced by i.p. injection of 250 mg/kg of 5-fluorouracil (5-FU). The cytokine was administrated by microosmotic pump, with an ability to deliver a consistent intact dose of cytokine for 7 consecutive days. Administration of 250 IU/kg/day of IFN-gamma in combination with 10(3) U/kg/day of IL-3, which alone had no effect on platelet counts, diminished the nadir for platelet count and shortened the duration of thrombocytopenia. The effect was comparable to that of higher doses of IL-3 (10(5) U/kg/day). The administration of 250 IU/kg/day of IFN-gamma in combination with 10(3) U/kg/day of IL-3 also induced megakaryocyte proliferation in bone marrow cell cultures. Single administration of either 250 IU/kg/day of IFN-gamma or 10(3) U/kg/day of IL-3 had no significant effects. The effect of this combination was also comparable to that of a higher dose of IL-3 (10(5) U/kg/day). We suggest that IFN-gamma accelerates megakaryocyte development, which leads to platelet production in chemotherapy-induced marrow aplasia. The administration of IFN-gamma in combination with IL-3 might be useful for the management of marrow aplasia.

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Formation of Cholic Acid from 3α,7α,12α-Trihydroxy-5β-Cholestanoic Acid in Human Skin Fibroblasts

Une

Izumi

Imanaka

et al. 1992

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Whether 3 alpha, 7 alpha, 12 alpha-trihydroxy-5 beta-cholestanoic acid (THCA) was converted into cholic acid in human skin fibroblasts was examined. THCA was incubated with subcellular fractions of cultured skin fibroblasts in the presence of NAD+, ATP, CoA, and Mg2+. The reaction products were analyzed by thin-layer chromatography and high-performance liquid chromatography after p-bromophenacyl ester derivatization. The highest specific activity was found in the light mitochondrial fraction (2.71 nmol/mg protein/h). The specific activity was about 9-fold higher than that in heavy mitochondrial fraction. The peroxisomal fraction prepared from the light mitochondrial fraction by sucrose gradient centrifugation was also able to catalyze the conversion of THCA into cholic acid. The specific activity in this fraction was a further 2.2-fold higher than that in the light mitochondrial fraction. These results suggest that cultured human skin fibroblasts are able to convert THCA into cholic acid, and that the activity exists in peroxisomes.

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Noboru Izumi

Isolation and Identification of Compounds from Brazilian Propolis which Enhance Macrophage Spreading and Mobility.

Stereochemistry of Intermediates in the Conversion of 3α,7α,12α-Trihydroxy-5ß-Cholestanoic Acid to Cholic Acid by Rat Liver Peroxisomes

Interferon-γ Enhances Megakaryocyte Colony-Stimulating Activity in Murine Bone Marrow Cells

IFN-γ in Combination with IL-3 Accelerates Platelet Recovery in Mice with 5-Fluorouracil-Induced Marrow Aplasia

Formation of Cholic Acid from 3α,7α,12α-Trihydroxy-5β-Cholestanoic Acid in Human Skin Fibroblasts

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