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(αS,5S)-2-氨基-3-氯-4,5-二氢-5-异恶唑乙酸与5-氟尿嘧啶在P388白血病中协同作用的生化机制。

Biochemical mechanisms for the scheduled synergism of (alpha S, 5S)-2 amino-3-chloro-4,5-dihydro-5-isoxazoleacetic acid and 5-fluorouracil in P388 leukemia.

作者信息

Ardalan B, Chandrasekaran B, Hrishikeshavan H J

出版信息

Cancer Chemother Pharmacol. 1985;15(1):44-8. doi: 10.1007/BF00257293.

DOI:10.1007/BF00257293
PMID:2408773
Abstract

A study was made of the in vivo effects of equitoxic doses of AT-125 and 5-FU combination, being administered either simultaneously (% ILS 152) or with a 6-h pretreatment with AT-125 (% ILS 184). To examine the biochemical basis for the scheduled synergism, measurements were made of the concentration of PRPP, the specific activities of CPS II, cytidine, thymidine, uridine, deoxyuridine kinases, and fluorinated nucleotide formation in P388 tumors and the small intestine. Two hours after in vivo simultaneous treatment of mice bearing tumors the concentration of PRPP increased 9- and 6-fold above baseline in the tumor and the small intestine, respectively. In the AT-125 pretreatment arm the concentration of PRPP increased 18- and 7-fold above baseline in the tumor and the small intestine, respectively. CPS II activity was reduced to 28%-18% of control in the tumors in the simultaneous and pretreatment groups, respectively, whereas it remained unchanged in the small intestine. Specific activities of cytidine kinase (5.5 +/- 1), thymidine kinase (4.0 +/- 1.6), uridine kinase (35.6 +/- 6.5), and deoxyuridine kinase (2.4 +/- 1.1) nmol/mg protein/h remained unchanged with treatment. In concert with the increased intratumor concentration of PRPP, fluorinated nucleotide formation was proportionally increased in the treatment arms. These results indicate the importance of drug scheduling of the above two agents in treating P388 leukemia.

摘要

研究了等毒性剂量的AT - 125与5 - FU联合用药的体内效应,联合用药方式为同时给药(ILS为152%)或先用AT - 125预处理6小时后给药(ILS为184%)。为了研究预定协同作用的生化基础,测定了P388肿瘤和小肠中PRPP的浓度、CPS II、胞苷、胸苷、尿苷、脱氧尿苷激酶的比活性以及氟化核苷酸的形成。对荷瘤小鼠进行体内同时治疗两小时后,肿瘤和小肠中PRPP的浓度分别比基线水平升高了9倍和6倍。在AT - 125预处理组中,肿瘤和小肠中PRPP的浓度分别比基线水平升高了18倍和7倍。同时给药组和预处理组肿瘤中的CPS II活性分别降至对照的28% - 18%,而小肠中的活性保持不变。治疗后胞苷激酶(5.5±1)、胸苷激酶(4.0±1.6)、尿苷激酶(35.6±6.5)和脱氧尿苷激酶(2.4±1.1)nmol/mg蛋白/小时的比活性保持不变。与肿瘤内PRPP浓度增加相一致,治疗组中氟化核苷酸的形成也相应增加。这些结果表明上述两种药物的给药方案在治疗P388白血病中具有重要性。

相似文献

1
Biochemical mechanisms for the scheduled synergism of (alpha S, 5S)-2 amino-3-chloro-4,5-dihydro-5-isoxazoleacetic acid and 5-fluorouracil in P388 leukemia.(αS,5S)-2-氨基-3-氯-4,5-二氢-5-异恶唑乙酸与5-氟尿嘧啶在P388白血病中协同作用的生化机制。
Cancer Chemother Pharmacol. 1985;15(1):44-8. doi: 10.1007/BF00257293.
2
Mechanism of resistance of a variant of P388 leukemia to L-(alpha S,5S)-alpha-amino-3-chloro-4,5-dihydro-5-isoxazoleacetic acid (acivicin).P388白血病一种变体对L-(αS,5S)-α-氨基-3-氯-4,5-二氢-5-异恶唑乙酸(阿西维辛)的耐药机制。
Cancer Res. 1985 Jan;45(1):207-12.
3
Collateral sensitivity to N-(phosphonacetyl)-L-aspartic acid in a line of P388 leukemia cells selected for resistance to L-(alpha S, 5S)-alpha-amino-3- chloro-4,5-dihydro-5-isoxazoleacetic acid (acivicin).对N-(膦酰基乙酰基)-L-天冬氨酸的 collateral 敏感性在一株对L-(αS,5S)-α-氨基-3-氯-4,5-二氢-5-异恶唑乙酸(阿西维辛)产生抗性的P388白血病细胞系中。 (注:“collateral”这里可能是专业术语“旁系的”之类意思,具体准确意思需结合专业知识进一步确定)
Cancer Res. 1983 Apr;43(4):1598-601.
4
Effect of L-glutamine antagonists on 5-phosphoribosyl 1-pyrophosphate levels in P388 leukemia and in murine colon adenocarcinomas in vivo.L-谷氨酰胺拮抗剂对体内P388白血病和小鼠结肠腺癌中5-磷酸核糖-1-焦磷酸水平的影响。
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Cancer Res. 1989 Oct 15;49(20):5586-90.
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Biochemical characteristics of a 5-fluorouracil-resistant subline of P388 leukemia.P388白血病5-氟尿嘧啶耐药亚系的生化特性
Gan. 1982 Feb;73(1):70-6.
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Combined effects of bromovinyldeoxyuridine and fractionated or continuous administration of 5-fluorouracil in P388 leukemia-bearing mice.
Cancer Lett. 1988 Mar;39(2):217-23. doi: 10.1016/0304-3835(88)90107-3.
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Effect of (E)-5-(2-bromovinyl)uracil on the catabolism and antitumor activity of 5-fluorouracil in rats and leukemic mice.(E)-5-(2-溴乙烯基)尿嘧啶对大鼠和白血病小鼠体内5-氟尿嘧啶分解代谢及抗肿瘤活性的影响。
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本文引用的文献

1
Fluorinated pyrimidines, a new class of tumour-inhibitory compounds.氟化嘧啶,一类新型的肿瘤抑制化合物。
Nature. 1957 Mar 30;179(4561):663-6. doi: 10.1038/179663a0.
2
Mechanism of resistance of variants of the Lewis lung carcinoma to N-(phosphonacetyl)-L-aspartic acid.Lewis肺癌变体对N-(膦酰乙酰基)-L-天冬氨酸的耐药机制
Cancer Res. 1981 Mar;41(3):894-904.
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Cell surface alterations associated with exposure of leukemia L1210 cells to fluorouracil.白血病L1210细胞暴露于氟尿嘧啶后相关的细胞表面改变。
Cancer Res. 1980 Feb;40(2):322-4.
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Synergistic effect of 5-fluorouracil and N-(phosphonacetyl)-L-aspartate on cell growth and ribonucleic acid synthesis in human mammary carcinoma.
Biochem Pharmacol. 1981 Aug 1;30(15):2045-9. doi: 10.1016/0006-2952(81)90221-5.
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Physiological and pharmacological determinants of sensitivity and resistance to 5-fluorouracil in lower animals and man.
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6
Effect of excess folates and deoxyinosine on the activity and site of action of 5-fluorouracil.过量叶酸和脱氧肌苷对5-氟尿嘧啶活性及作用位点的影响。
Cancer Res. 1981 Sep;41(9 Pt 1):3288-95.
7
Enhancement of 5-fluorouracil incorporation into human lymphoblast ribonucleic acid.5-氟尿嘧啶掺入人淋巴母细胞核糖核酸的增强作用。
Biochem Pharmacol. 1981 Jan 15;30(2):129-33. doi: 10.1016/0006-2952(81)90183-0.
8
Improving the anti-tumor activity of 5-fluorouracil by increasing its incorporation into RNA via metabolic modulation.通过代谢调节增加5-氟尿嘧啶掺入RNA来提高其抗肿瘤活性。
Proc Natl Acad Sci U S A. 1980 Aug;77(8):4966-70. doi: 10.1073/pnas.77.8.4966.
9
Collateral sensitivity to N-(phosphonacetyl)-L-aspartic acid in a line of P388 leukemia cells selected for resistance to L-(alpha S, 5S)-alpha-amino-3- chloro-4,5-dihydro-5-isoxazoleacetic acid (acivicin).对N-(膦酰基乙酰基)-L-天冬氨酸的 collateral 敏感性在一株对L-(αS,5S)-α-氨基-3-氯-4,5-二氢-5-异恶唑乙酸(阿西维辛)产生抗性的P388白血病细胞系中。 (注:“collateral”这里可能是专业术语“旁系的”之类意思,具体准确意思需结合专业知识进一步确定)
Cancer Res. 1983 Apr;43(4):1598-601.
10
Regulation of RNA- and DNA-directed actions of 5-fluoropyrimidines in mouse T-lymphoma (S-49) cells.5-氟嘧啶在小鼠T淋巴瘤(S-49)细胞中对RNA和DNA定向作用的调控
Cancer Res. 1980 Nov;40(11):4209-15.