尿苷磷酸化酶抑制剂5-（苯硒基）无环尿苷对血浆尿苷浓度的调节作用：与化疗的相关性

Modulation of plasma uridine concentration by 5-(phenylselenenyl)acyclouridine, an inhibitor of uridine phosphorylase: relevance to chemotherapy.

作者信息

Ashour O M, Al Safarjalani O N, Naguib F N, Goudgaon N M, Schinazi R F, el Kouni M H

机构信息

Department of Pharmacology, Faculty of Medicine, University of El Menia, Egypt.

出版信息

Cancer Chemother Pharmacol. 2000;45(5):351-61. doi: 10.1007/s002800051002.

DOI:10.1007/s002800051002

PMID:10803917

Abstract

PURPOSE

The purpose of this investigation was to evaluate the efficacy of oral 5-(phenylselenenyl)-acyclouridine (PSAU) in increasing endogenous plasma uridine concentration as well as its ability to improve the bioavailability of oral uridine. PSAU is a new potent and specific inhibitor of uridine phosphorylase (Urd-Pase, EC 2.4.2.3), the enzyme responsible for uridine catabolism. This compound was designed as a lipophilic inhibitor in order to facilitate its access to the liver and intestine, the main organs involved in uridine catabolism.

METHODS

Oral PSAU was administered orally to mice alone or with uridine. The plasma levels of PSAU as well as uridine and its catabolites were measured using high-performance liquid chromatography and pharmacokinetic analysis was performed.

RESULTS

PSAU has an oral bioavailability of 100% and no PSAU metabolites were detected. PSAU has no apparent toxicity at high doses. Oral administration of PSAU at 30 and 120 mg/kg increased baseline concentration of endogenous plasma uridine (2.6 +/- 0.7 microM) by 3.2- and 8.7-fold, respectively, and remained three- and six-fold higher, respectively, than the controls for over 8 h. PSAU, however, did not alter the concentration of endogenous plasma uracil. Co-administration of PSAU with uridine elevated the concentration of plasma uridine over that resulting from the administration of either alone, and reduced the peak plasma concentration (C(max)) and area under the curve (AUC) of plasma uracil. Co-administration of PSAU at 30 mg/kg and 120 mg/kg improved the low bioavailability of oral uridine (7.7%) administered at 1,320 mg/kg by 4.8- and 4.2-fold, respectively, and reduced the AUC of plasma uracil from 1,421 to 787 micromol/h x l and 273 micromol/h x l, respectively. Similar results were observed when PSAU was co-administered with lower doses of uridine. Oral PSAU at 30 mg/kg and 120 mg/kg improved the bioavailability of oral 330 mg/kg uridine by 5.2- and 8.9-fold, and that of oral 660 mg/kg uridine by 6.4- and 9.0-fold, respectively. However, the reduction in the AUC values of plasma uracil was less dramatic than that seen when the high dose of 1,320 mg/kg uridine was used.

CONCLUSION

The effectiveness of the PSAU plus uridine combination in elevating and sustaining high plasma uridine concentration may be useful to rescue or protect from host toxicity of various chemotherapeutic pyrimidine analogs as well as in the management of medical disorders that are remedied by administration of uridine.

摘要

目的

本研究旨在评估口服5 -（苯硒基）-无环尿苷（PSAU）提高内源性血浆尿苷浓度的效果及其改善口服尿苷生物利用度的能力。PSAU是一种新型强效且特异性的尿苷磷酸化酶（Urd - Pase，EC 2.4.2.3）抑制剂，该酶负责尿苷的分解代谢。此化合物被设计为亲脂性抑制剂，以便于其进入肝脏和肠道，这两个是参与尿苷分解代谢的主要器官。

方法

将口服PSAU单独或与尿苷一起给予小鼠。使用高效液相色谱法测量PSAU以及尿苷及其代谢产物的血浆水平，并进行药代动力学分析。

结果

PSAU的口服生物利用度为100%，未检测到PSAU代谢产物。高剂量时PSAU无明显毒性。以30和120 mg/kg口服PSAU分别使内源性血浆尿苷的基线浓度（2.6±0.7 microM）提高了3.2倍和8.7倍，并且在超过8小时内分别比对照组高3倍和6倍。然而，PSAU并未改变内源性血浆尿嘧啶的浓度。将PSAU与尿苷联合给药使血浆尿苷浓度高于单独给药时的浓度，并降低了血浆尿嘧啶的峰值血浆浓度（C(max)）和曲线下面积（AUC）。以30 mg/kg和120 mg/kg的PSAU与1,320 mg/kg的口服尿苷联合给药时，分别将口服尿苷的低生物利用度（7.7%）提高了4.8倍和4.2倍，并将血浆尿嘧啶的AUC分别从1,421降至787 micromol/h×l和273 micromol/h×l。当PSAU与较低剂量的尿苷联合给药时观察到类似结果。以30 mg/kg和120 mg/kg的口服PSAU分别将330 mg/kg口服尿苷的生物利用度提高了5.2倍和8.9倍，将660 mg/kg口服尿苷的生物利用度提高了6.4倍和9.0倍。然而，与使用1,320 mg/kg高剂量尿苷时相比，血浆尿嘧啶AUC值的降低幅度较小。