Antihyperuricemic efficacy of Scopoletin-loaded Soluplus micelles in yeast extract/potassium oxonate-induced hyperuricemic mice.

Scopoletin (Sco) has great potential for hyperuricemia therapy. However, the relatively low oral bioavailability of Sco limits its further applications. Soluplus-based Sco micelles (Sco-Ms) were successfully prepared in our previous work. The oral bioavailability of Sco-Ms was increased by 438% compared with free Sco. In this study, we aimed to compare the biodistribution and antihyperuricemic efficacy of Sco and Sco-Ms, and explore their therapeutic mechanisms as well. We studied the tissue biodistribution of Sco and Sco-Ms after they were orally administered to mice. The antihyperuricemic effect and the therapeutic mechanisms of Sco and Sco-Ms were evaluated using yeast extract/potassium oxonate-induced hyperuricemia model in mice. The Sco concentration in each tissue was significantly higher than that of Sco suspension after orally administrating Sco-Ms to mice. Oral delivery of Sco-Ms exhibited significantly stronger hypouricemic efficacy in hyperuricemic mice than Sco. Meanwhile, Sco-Ms showed a better protective effect on mice kidney injury. The hypouricemic efficacy of Sco was due to promoting the excretion of uric acid via modulating the alteration of gene expression levels of renal uric acid transporter (URAT1), glucose transporter (GLUT9), and organic anion transporter 1 (OAT1). Sco-Ms could not only restore the dysregulation of URAT1, GLUT9, and OAT1 more effectively, but also down-regulate the activity of hepatic xanthine oxidase (XOD) to inhibit the production of uric acid. In conclusion, taken together, Sco-Ms represents a potential oral strategy for the treatment of hyperuricemia.

Effect of Sipjeondaebo-Tang on the Pharmacokinetics of S-1, an Anticancer Agent, in Rats Evaluated by Population Pharmacokinetic Modeling.

S-1 (TS-1®) is an oral fluoropyrimidine anticancer agent containing tegafur, oteracil, and gimeracil. Sipjeondaebo-tang (SDT) is a traditional oriental herbal medicine that has potential to alleviate chemotherapy-related adverse effects. The aim of the present study was to evaluate the effect of SDT on the pharmacokinetics of S-1. Sprague-Dawley rats were pretreated with a single dose or repeated doses of SDT for seven consecutive days (1200 mg/kg/day). After the completion of pretreatment with SDT, S-1 was orally administered and plasma concentrations of tegafur, its active metabolite 5-FU, and gimeracil were determined by liquid chromatography-tandem mass spectrometry (LC/MS/MS). A population pharmacokinetic model was developed to evaluate the effect of SDT on pharmacokinetics of tegafur and 5-FU. Although a single dose of SDT did not have any significant effect, the absorption rate of tegafur decreased, and the plasma levels of 5-FU reduced significantly in rats pretreated with SDT for seven days in parallel to the decreased gimeracil concentrations. Population pharmacokinetic modeling also showed the enhanced elimination of 5-FU in the SDT-pretreated group. Repeated doses of SDT may inhibit the absorption of gimeracil, an inhibitor of 5-FU metabolism, resulting in enhanced elimination of 5-FU and decrease its plasma level.

Characterizing sialic acid variants at the glycopeptide level.

Beam-type collision-induced dissociation (CID) data of intact glycopeptides isolated from mouse liver tissue are presented to illustrate characteristic fragmentation of differentially sialylated glycopeptides. Eight glycoforms of an O-linked glycopeptide from Nucleobindin-1 are distinguished on the basis of the precursor masses and characteristic oxonium ions. We report that all sialic acid variants are prone to neutral loss from the charge reduced species in electron-transfer dissociation (ETD) fragmentation. We show how changes in sialic acid composition affect reverse phase chromatographic retention times: sialic acid addition increases glycopeptide retention times significantly; replacing the N-acetylneuraminic acid with the N-glycolyl variant leads to slightly reduced retention times, while O-acetylated sialic acid-containing glycoforms are retained longer. We then demonstrate how MS-Filter in Protein Prospector can use these diagnostic oxonium ions to find glycopeptides, by showing that a wealth of different glycopeptides can be found in a published phosphopeptide data set.

Redox and acid-base properties of asymmetric non-heme (hydr)oxo-bridged diiron complexes.

The diiron unit is commonly found as the active site in enzymes that catalyze important biological transformations. Two µ-(hydr)oxo-diiron(iii) complexes with the ligands 2,2'-(2-methyl-2-(pyridine-2-yl)propane-1,3-diyl)bis(azanediyl)bis(methylene)diphenol (H2L) and 2,2'-(2-methyl-2(pyridine-2-yl)propane-1,3-diyl)bis(azanediyl)bis(methylene)bis(4-nitrophenol) (H2L(NO2)), namely [(FeL)2(µ-O)] () and [(FeL(NO2))2(µ-OH)]ClO4 () were synthesized and characterized. In the solid state, both structures are asymmetric, with unsupported (hydr)oxo bridges. Intramolecular hydrogen bonding of the ligand NH groups to the phenolate O atoms hold the diiron cores in a bent configuration (Fe-O-Fe angle of 143.7° for and 140.1° for ). A new phenolate bridged diferrous complex, [(FeL)2] (), was synthesized and characterized. Upon exposure to air the diferrous complex is oxidized to the diferric . Cyclic voltammetry at different scan rates and chemical reduction of [(FeL)2(µ-OH)]BPh4 () with cobaltocene revealed disproportionation followed by proton transfer, and a mixed-valence species could not be trapped. Subsequent exposure to molecular oxygen results in the formation of . Electrochemical studies of indicate easier reduction of the diiron(iii/iii) to the mixed-valence state than for . The protonation of by benzoic acid to form [(FeL)2(µ-OH)](+) only changes the Fe-O-Fe angle by 5° (from 143.7° to 138.6°), and the pKa of the hydroxo bridge is estimated to be about 20.4. We attribute this high pKa partly to stabilization of the benzoate by hydrogen bonding to the ligand's amine proton. Magnetic susceptibility studies on solid samples of and yielded values of the antiferromagnetic exchange coupling constants, J, for these S = 5/2 dimers of -13.1 cm(-1) and -87.5 cm(-1), respectively, typical of such unsupported hydroxo- and oxo-bridges.

S-1 as a core anticancer fluoropyrimidine agent.

INTRODUCTION: 5-FU is a core anticancer agent for GI and other malignancies, and infusional 5-FU regimens have been widely utilized. Orally administrable fluoropyrimidine prodrugs have been developed to enhance the anticancer efficacy of 5-FU and to reduce its adverse reactions. AREAS COVERED: S-1 is an FT-based oral 5-FU prodrug in combination with a DPD inhibitor (CDHP) and an OPRT inhibitor (Oxo), which exerts the following effects: i) maintaining normal gut immunity, Oxo can decrease GI toxicities of 5-FU; ii) sustaining high plasma 5-FU concentrations, Cmax of FBAL after S-1 administration is extremely low, which dramatically decreases adverse reactions such as HFS, neurotoxicities and cardiotoxicities; iii) plasma 5-FU concentrations vary less extensively after S-1 administration and iv) S-1 can be safely administered to patients with DPD deficiency. Furthermore, the alternate-day S-1 administration can reduce the GI toxicities and myelotoxicities of 5-FU without reducing its anticancer efficacy, enabling patients to continue the oral administration for 6 - 12 months. EXPERT OPINION: Replacement of regimens with infusional 5-FU and other fluoropyrimidines by the alternate-day S-1 administration may be recommended because the latter procedure is efficient for patients while sustaining the enhanced anticancer efficacy of 5-FU and without reducing its dose intensity.

Synergistic antitumor activity of the SN-38-incorporating polymeric micelles NK012 with S-1 in a mouse model of non-small cell lung cancer.

The combination therapy of CPT-11, a prodrug of SN-38, with S-1, a dihydropyrimidine dehydrogenase inhibitory fluoropyrimidine, shows a high clinical response rate in non-small cell lung cancer (NSCLC). However, this combination causes severe toxicities such as diarrhea. Here, we investigated the advantages of treatment with the SN-38-incorporating polymeric micelles NK012 over CPT-11 in combination with S-1 in mice bearing a NSCLC xenograft in terms of antitumor activity and toxic effects, particularly intestinal toxicity. In vitro cytotoxic effects were examined in human NSCLC cell lines (A549, PC-9, PC-14, EBC-1 and H520). In vivo antitumor effects were evaluated in PC-14- and EBC-1-bearing mice after NK012 or CPT-11 administration on Days 0 and 7 and S-1 administration on Days 0-13. Pathological changes in the small intestine were also investigated. The in vitro growth inhibitory effects of NK012 were 56.8- to 622-fold more potent than those of CPT-11. NK012/S-1 treatment showed significantly higher antitumor activity both in PC-14-bearing (p = 0.0007) and EBC-1-bearing mice (p < 0.0001) than CPT-11/S-1 treatment. The deformity and decrease in the density of intestinal villi were more severe in CPT-11/S-1-treated mice than in NK012/S-1-treated mice. NK012/S-1 combination is a promising candidate regimen against NSCLC without inducing toxicities such as severe diarrhea and therefore warrants clinical evaluation.

[Timeline from discovery of 5-FU to development of an oral anticancer agent S-1 and its drug concept].

C. Heidelberger et al left great gifts to us. Approximately 50 years have elapsed since their discovery of 5-FU in 1957 before eventually elucidating the mechanisms by which the drug exerts its pharmacological actions and provokes its adverse reactions. Namely, 5-FU is a typical antimetabolite with strong time dependency, and continuous venous infusion(CVI) is considered to be its optimal regimen. The following facts may be mentioned to explain why such a long period of time has been spent to reach this level of research: 1) 5-FU, when administered to the living individual, is mostly inactivated by hepatic catabolic enzymes without delay and is then excreted in the urine, thus making it difficult to precisely analyze the relationship of blood 5-FU concentrations with concentration persistence, anticancer activity, and adverse reactions; and 2) unlike other anticancer agents, an antimetabolite 5-FU separately generates metabolites which show anticancer activity and adverse reactions, as well as metabolites which show adverse reactions only. For the last 30 years, we paid attention especially to 5-FU among chemotherapeutic agents for cancer and have sought for a long-lasting therapeutic modality which maintains quality of life of the patient and patient compliance by considering the balancing between its effects and adverse reactions. Consequently, we concretized an innovative therapeutic drug, TS-1 (S-1). We have a long history of research before developing S-1, which is represented by a series of investigations consisting in the developments of Futrafur (FT)--an oral anticancer agent of a 5-FU derivative (prodrug)-in 1970 subsequent to the above discovery of 5-FU, of UFT(FT: Ura=1 : 4) in 1976, and of S-1 in 1999. To date, we took the initiative in the world to devise S-1, the first self-rescuing concept(SRC)-based anticancer agent with dual actions, i.e., enhancement of pharmacological actions of 5-FU and reduction of its adverse reactions, by making use of the biochemical and enzymological properties of 5-FU and by combining FT, which is gradually converted to 5-FU in the body, with a 5-FU's effect-enhancing substance and a 5-FU's adverse reaction-reducing substance. S-1 is an oral anticancer agent in capsule, in which the following 2 modulators for 5-FU are combined to FT: one is CDHP(5-chloro-2,4-dihydroxypyridine) which increases blood concentrations and enhances pharmacological actions of 5-FU by potently inhibiting the degradation of 5-FU; and another is Oxo(potassium oxonate) which is localized in the mucosa of the gastrointestinal (GI) tract after oral administration and reduces GI toxicities provoked by 5-FU. S-1 is an oral anticancer agent in which these 3 components, FT, CDHP, and Oxo, are combined at a molar ratio of 1 : 0.4 : 1. Our conception to develop an SRC-based therapeutic drug and the preclinical concepts validated by numerous basic studies were demonstrated also in the clinical trials. In January 1999, S-1 was approved for the treatment of advanced and recurrent gastric cancers through the priority review system. From 2001 to 2005, S-1 was approved for the treatment of head and neck cancer, colon cancer, non-small cell lung cancer, and breast cancer. S-1 has been applied to acquire its expanded indications for the treatment of pancreatic cancer and biliary tract cancer. We are confident that the combined regimen of S-1 with other anticancer agents and with other therapeutic modalities will contribute to the routine medical practice of cancer treatment in the future.

[Antitumor activity and function of S-1, a new oral tegafur-based formulation].

TS-1 (S-1), developed by the scientific theory of both potentiating antitumor activity of 5-fluorouracil (5-FU) and reducing gastrointestinal toxicity induced by 5-FU, is a new oral formulation consisting of 1 M tegafur, 0.4 M gimeracil and 1 M oteracil potassium. We investigated the antitumor efficacy of S-1 alone and in combination with other cytotoxic anticancer drugs using subcutaneously or orthotopically implanted murine and human tumors in rodents. As a single agent, S-1 showed higher antitumor activity with its low intestinal toxicity compared to continuous venous infusion 5-FU, the most effective dosing method of 5-FU, and/or to clinically available oral fluoropyrimidines such as UFT, doxyfluridine and capecitabine on various murine tumors and human tumor xenografts. Especially, it was noteworthy that S-1 as a DPD-inhibitory fluoropyrimidine markedly affected human tumor xenografts with high expression levels of DPD on which other fluoropyrimidines showed a low antitumor activity. In combination with other anticancer drugs such as CPT-11 and taxanes, S-1 exercised synergistic antitumor efficacy not only on 5-FU-sensitive tumors with low expression levels of thymidylate synthase (TS) but also on 5-FU-resistant tumors with originally higher and/or elevated levels of TS expression. As one of the reasonable mechanism of antitumor synergism by the combination, CPT-11 and taxanes were found to reduce the expression of TS in human tumor resistant to 5-FU with high expression TS levels. Throughout our preclinical antitumor studies of S-1, alone and/or in combination with other anticancer drugs, it would be expected to contribute greatly to the treatment of cancer patients.

Complexed and ligand-free high-resolution structures of urate oxidase (Uox) from Aspergillus flavus: a reassignment of the active-site binding mode.

High-resolution X-ray structures of the complexes of Aspergillus flavus urate oxidase (Uox) with three inhibitors, 8-azaxanthin (AZA), 9-methyl uric acid (MUA) and oxonic acid (OXC), were determined in an orthorhombic space group (I222). In addition, the ligand-free enzyme was also crystallized in a monoclinic form (P2(1)) and its structure determined. Higher accuracy in the three new enzyme-inhibitor complex structures (Uox-AZA, Uox-MUA and Uox-OXC) with respect to the previously determined structure of Uox-AZA (PDB code 1uox) leads to a reversed position of the inhibitor in the active site of the enzyme. The corrected anchoring of the substrate (uric acid) allows an improvement in the understanding of the enzymatic mechanism of urate oxidase.

Pilot study of S-1 in patients with disseminated gastric cancer.

The prognosis for patients with advanced gastric cancer remains poor. Peritoneal metastasis is the most frequent cause of death in patients with gastric cancer, but the most appropriate treatment for patients with disseminated gastric cancer remains uncertain. S-1 is a newly developed oral fluoropyrimidine derivative with unusually high activity against several tumor types. The aim of this study was to evaluate the feasibility and efficacy of S-1 for the treatment of patients with disseminated gastric cancer. A total of 31 patients with primary or recurrent gastric cancer with peritoneal dissemination were entered into this study. One course of this single-drug therapy consisted of S-1 (80-120 mg) twice daily for 28 days, followed by a 2-week period of no treatment. These treatments were repeated until disease progression or patient refusal. With a median follow-up period in survivors of 293 days, the median survival time was 357 days. Toxicities were mild and no patient withdrew from treatment before disease progression. Grade 3 hematotoxicity was observed in only one patient. S-1 showed promising activity against gastric cancer with peritoneal dissemination and acceptable toxicity. Further evaluation of S-1 treatment is warranted in this disease.

Alkynyliodonium salts in organic synthesis. Dihydrofuran formation via a formal stevens shift of a carbon substituent within a disubstituted-carbon oxonium ylide.

The addition of p-toluenesulfinate to the silyl, 1-furanyl, and 1-pyranyl ethers of 1-hydroxybut-3-ynyl(phenyl)iodonium triflate triggers a sequence of reactions that ultimately delivers 2-substituted 3-p-toluenesulfonyldihydrofuran products in variable yields. A putative 1,2-group shift within an unsaturated oxonium ylide (Stevens rearrangement) accounts for the oxygen-to-carbon transfer of the ether substituent. Deuterium labeling studies clarify the mechanistic course of this shift by providing evidence consistent with intramolecular substituent transfer and by identifying the primary source of the proton that intercepts the ylide in the major yield-limiting process.

An early phase II study of oral S-1, a newly developed 5-fluorouracil derivative for advanced and recurrent gastrointestinal cancers. The S-1 Gastrointestinal Cancer Study Group.

5-Fluorouracil (5-FU) or a 5-FU derivative 1-(2-tetrahydrofuryl)-5-fluorouracil (FT) has been widely prescribed for patients with gastrointestinal cancer. However, the phosphorylation of 5-FU in the digestive tract causes gastrointestinal toxicities. 5-FU is also rapidly degraded to alpha-fluoro-beta-alanine after contact with dihydropyrimidine dehydrogenase (DPDase) which is mainly present in the liver. Therefore, to overcome these metabolic events, S-1, an antitumor agent was developed, based on the biochemical modulation of FT by 5-chloro-2,4-dihydroxypyridine (CDHP) and potassium oxonate (Oxo), in a molar ratio of 1:0.4:1. The antineoplastic effect of S-1, was examined in Japanese patients with advanced gastric (G) or colorectal (C) cancer in a multicenter early phase II study involving 24 centers throughout Japan. The patients were prescribed a minimum of 2 courses of S-1 orally, with each course consisting of 75 or 50 mg (in terms of FT) twice a day for 28 days followed by withdrawal for 2 weeks. Thirty-one patients with G and 31 C were entered into this study. The clinical response and extent of toxicity were evaluated in G 28 and C 30 cases, respectively. Nine (32.1%) G patients and 14 (46.7%) C patients had been treated previously with other anticancer drugs. In G patients, there was a 53.6% (15/28) and in C patients a 16.7% (5/30) response rate (90% confidence interval G 38.4-68.1% and C 8.4-30.5%) with 15 (53.6%) (G) and 5 (16.7%) (C) partial responses (PR), and these responses persisted for 79 days (G) and 120 days (C) (median value). In particular, the response rate for the primary lesion was 27.8% (5/18) (G) and 33.3% (1/3) (C). No change (NC) in the disease was observed in 4 (14.3%) (G) and 13 (43.3%) (C) patients, and in 6 (21. 4%) (G) and 7 (23.3%) (C) the disease progressed (PD). At the time of analysis, the median survival was 298 days (G) and 358 days (C). Major adverse effects consisted of gastrointestinal symptoms and myelosuppression while toxicities of grade 3 or more occurred in 35. 7% (10/28) (G) and 33.3% (10/30) (C). Based on these data, S-1 is considered to have positive effects in patients with advanced gastrointestinal cancer.

Chemotherapy for gastric carcinoma: new and old options.

Although gastric carcinoma is an uncommon disease in North America, its incidence is alarmingly high in Asia, South America, Eastern Europe, and countries of the former Soviet Union. Screening for gastric carcinoma is performed only on a limited basis in Japan; in the rest of the world, therefore, patients often present with advanced disease at the time of diagnosis. Chemotherapy, radiotherapy, or both rarely cure patients with unresectable or metastatic carcinoma; therapy thus remains palliative for such patients. Chemotherapy seems to be beneficial, however, and continues to evolve in the treatment of patients with advanced gastric carcinoma. Four small randomized trials demonstrated survival and quality-of-life benefits for patients who received chemotherapy compared with those who received best supportive care. In the past 20 years, several "old" drugs have been studied either alone or in combination to treat this disease; and new active drugs have been identified. Recently, quality of life, convenience, and cost-containment have been emphasized in the treatment of cancer. This has increased interest in oral agents. At present, several promising oral 5-fluorouracil prodrugs are being studied in clinical trials. This article summarizes current developments in the treatment of advanced gastric carcinoma.

The oral fluorouracil prodrugs.

Discussed herein are selected oral fluorinated pyrimidines that are converted to 5-fluorouracil (5-FU) in vivo to exert antitumor activity. These agents include capecitabine (Xeloda), tegafur-uracil (UFT) plus leucovorin (Orzel), and S-1 (BMS247616). These agents offer the convenience of an orally administered therapy with potentially fewer toxic effects than conventional bolus regimens of 5-FU plus leucovorin. These oral agents provide prolonged 5-FU exposure at lower peak concentrations than observed with bolus intravenous administration of 5-FU and may confer pharmacoeconomic advantages by reducing administration costs and toxicity-related hospitalizations. These regimens also have the potential for improved therapeutic activity by achieving higher 5-FU concentrations in the tumor or by biochemically modulating 5-FU. Phase III trials in patients with advanced colorectal carcinomas are comparing the antitumor activity of these agents with that of intravenous 5-FU plus leucovorin.

[Oral single-dose toxicity study of a new antineoplastic agent S-1, and its components, CDHP, and Oxo].

S-1, an antineoplastic formulation of a fluorinated pyrimidine derivative containing tegafur (FT), CDHP, and potassium oxonate (Oxo) in a molar ratio of 1:0.4:1, was recently developed by Taiho Pharmaceutical Co., Ltd., with the aim of prolonging the effective plasma concentration of 5-fluorouracil (5-FU) over that produced by FT alone and reducing its dose-limiting gastrointestinal toxicity. As a part of the S-1 toxicity study, the single-dose toxicity of S-1 as well as that of its components, CDHP and Oxo, was investigated in mice, rats, and dogs. The following results were obtained. 1. In mice and rats, excretion of diarrheal stools, salivation, and alopecia were observed after S-1 administration. In severe cases, the animals subsequently showed emaciation due to weight loss or suppressed weight gain, decreased spontaneous motor activity, an anemic appearance, bradypnea, prone position, and death. In the CDHP and Oxo treatment groups of rats, the only toxic signs were soft or diarrheal stools on the dosing day. 2. In dogs, vomiting and excretion of diarrheal, mucous, or soft stools was observed after S-1 administration. In the CDHP and Oxo treatment groups, excretion of soft and diarrheal stools and vomiting were observed relatively frequently from the dosing day until day 1. 3. In the pathological examination of the animals given S-1, mice and rats showed pulmonary congestion/edema, dark red discoloration of the mesenteric lymph nodes, atrophy of lymphatic tissues such as the thymus and lymph nodes, decreases of lymphocytes in the splenic white pulp and mesenteric lymph nodes, a decrease in bone marrow cells, congestion of the glandular stomach, and aggregates of bacteria in the lung, liver, or spleen. In dogs, abnormal changes were observed mainly in the lymphatic organs such as the thymus and lymph nodes. 4. The LD50 values of S-1 in terms of the amount FT they contained were estimated to be 549 mg/kg for mice(male), 441-551 mg/kg for rats (both sexes) and about 53 mg/kg for dogs (male). The LD50 values of CDHP and Oxo were 2000 mg/kg or higher for both rats (both sexes) and dogs (male). 5. Hematopoietic and lymphatic impairments, immunosuppression associated with respiratory were considered to be the cause of death from S-1. The toxicity of S-1 reflects the toxicity of 5-FU and was not found the different toxicity by the addition of CDHP and Oxo.

[Reproductive and developmental toxicity study of a new antineoplastic agent, S-1 (I)--Fertility study in rats by oral administration].

S-1 is a newly developed antineoplastic agent consisting of the mixture of tegafur (FT), 5-chloro-2, 4-dihydroxypyridine (CDHP), and potassium oxonate (Oxo) in a molar ratio of 1:0.4:1. As part of a reproductive and developmental toxicity study of S-1, a fertility study was carried out in Sprague-Dawley rats. Twenty-four male rats were administered S-1 orally starting at 64 days before mating and 24 female rats were administered S-1 orally from 15 days before mating to day 7 of pregnancy at doses of 0, 1, 4, or 7 mg/kg/day (as a dose of FT) in order to investigate the effect of S-1 on the reproductive ability and development of embryos and fetuses. There were no dose-related changes in clinical signs. Body weight gains and food consumption were decreased and were associated with the decreased weights of thymus, testis and epididymis in male rats receiving S-1 at the 7 mg/kg/day group. In females, the only organ affected was the kidney at 7 mg/kg/day. There were no dose-related changes in copulation, fertility, pre-implantation loss and implantation. Decreases in live fetal body weight and retardation of fetal ossification were observed in the 7 mg/kg/day group. There were no dose-related changes in post-implantation loss, and no fetal malformations were observed. The results suggest that the non-observed effects dose level of S-1 for general toxicity in male and female rats in 4 mg/kg/day, for reproductive toxicity in adults is more than 7 mg/kg/day, and for developmental toxicity in utero is 4 mg/kg/day.