Keiichiro Tomokiyo scite author profile

microolecular design can overcome the metabolic instability of Delta7-PGA1, while maintaining its antitumor potency. Saturation of the C(13)-C(14) double bond enhances the biological stability but decreases the antiproliferative activity. Configurational inversion of the isomerase-sensitive C(12) stereocenter from the natural S to the unnatural R geometry not only enhances biological stability but also significantly suppresses the growth of the tumor cells. The 12R derivatives markedly increase the induction of p21, a Cdk inhibitor, leading to sharp cell cycle arrest at the G1 phase at a dose level so low that at this dose Delta7-PGA1 methyl ester scarcely exerts an effect. These conspicuous biological properties lead to long-term suppression of tumor cell growth. The structure-stability relationship demonstrates that the stability of prostaglandins (PGs) is crucially controlled by the C(12) configuration and is unaffected by the geometry of the hydroxy-bearing C(15). The successful design of antitumor PGs resistant to enzymatic metabolism provides a new strategy applicable to creating a useful PG for cancer chemotherapy.

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Facilitatory Roles of Novel Compounds Designed from Cyclopentenone Prostaglandins on Neurite Outgrowth‐Promoting Activities of Nerve Growth Factor

Satoh¹,

Furuta²,

Tomokiyo³

et al. 2000

Journal of Neurochemistry

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Cyclopentenone prostaglandins (PGs) are known to arrest the cell cycle at the G 1 phase in vitro and to suppress tumor growth in vivo. However, their effects on neurons are unclear. Here, we report that some cyclopentenone PGs function as neurite outgrowth-promoting factors. They promoted neurite outgrowth from PC12 cells and from dorsal root ganglion explants but only in the presence of nerve growth factor (NGF). We refer to these PGs as neurite outgrowth-promoting PGs (NEPPs). Through study of the structure-function relationship of NEPP1-10 and related compounds, we found that the cross-conjugated dienone moiety of NEPPs was essential for promoting neurite outgrowth, and NEPP10 was concluded to be the best candidate for drug development. We also investigated the intracellular mechanism of the promotion by NEPPs and obtained evidence that immunoglobulin heavy chain binding protein/glucose-regulated protein 78 (BiP/GRP78) plays a role in the promotion, based on the following observations: Antisense nucleotides for BiP/GRP78 gene blocked the promotion of neurite outgrowth; BiP/GRP78 protein level increased in response to NEPPs; and overexpression of BiP/GRP78 protein by adenoviral gene transfer promoted the neurite outgrowth by NGF. Key Words: ⌬ 7 -Prostaglandin A 1 -Immunoglobulin heavy chain binding protein/glucose-regulated protein 78 -Neurite outgrowthNerve growth factor-PC12 cells-Dorsal root ganglion explants.

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Potent Prostaglandin A1 Analogs That Suppress Tumor Cell Growth through Induction of p21 and Reduction of Cyclin E

Tanikawa

Yamada

Tominaga

et al. 1998

Journal of Biological Chemistry

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Although the cyclopentenone prostaglandin A 1 (PGA 1 ) is known to arrest the cell cycle at the G 1 phase in vitro and to suppress tumor growth in vivo, its relatively weak activity limits its usefulness in cancer chemotherapy. In an attempt to develop antitumor drugs of greater potency and conspicuous biological specificity, we synthesized novel analogs based on the structure of PGA 1 . Of the newly synthesized analogs, 15-epi-⌬ 7 -PGA 1 methyl ester (NAG-0092), 12-iso-⌬ 7 -PGA 1 methyl ester (NAG-0093), and ent-⌬ 7 -PGA 1 methyl ester (NAG-0022) possess a cross-conjugated dienone structure around the five-member ring with unnatural configurations at C(12) and/or C(15) and were found to be far more potent than native PGA 1 in inhibiting cell growth and causing G 1 arrest in A172 human glioma cells. These three analogs induced the expression of p21 at both RNA and protein levels in a time-and dose-dependent fashion. Kinase assays with A172 cells treated with these analogs revealed that both cyclin A-and E-dependent kinase activities were markedly reduced, although cyclin D1-dependent kinase activity was unaffected. Immunoprecipitation-Western blot analysis showed that the decrease in cyclin A-dependent kinase activity was due to an increased association of p21 with cyclin A-cyclin-dependent kinase 2 complexes, whereas the decrease in cyclin E-dependent activity was due to a combined mechanism involving reduction in cyclin E protein itself and increased association of p21. Thus, these newly synthesized PGA 1 analogs may prove to be powerful tools in cancer chemotherapy as well as in investigations of the structural basis of the antiproliferative activity of A series prostaglandins.

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