Machover D, Grison X, Goldschmidt E, Zittoun J, Metzger G, Richaud J, Lotz J P, André T, Hannoun L, Marquet J
Department of Oncology, Hospital Tenon, Paris, France.
Ann Oncol. 1993;4 Suppl 2:29-35. doi: 10.1093/annonc/4.suppl_2.s29.
Potentiation of the antitumor activity of 5-fluorouracil (5-FU) by folinic acid has been demonstrated in patients with colorectal adenocarcinoma. Modulation is due to the interaction of thymidylate synthase (TS), fluorodeoxyuridylate (FdUMP), and methylene tetrahydrofolate (5,10-CH2-FH4), which leads to the formation of a stable ternary complex with concomitant enzyme inactivation. Folinic acid consists of a mixture of equal parts of two stereoisomers differing in chirality at the C6 carbon of the pteridine ring. Only the levorotatory [6S]-folinic acid is transformed into active folate cofactors. However, the [6R]-stereoisomer is not inert; it was shown to interfere with the [6S] form at the cellular level. The possibility of a deleterious effect of the unnatural stereoisomer on the modulation of 5-FU led us to carry out 2 consecutive phase I-II studies of 5-FU combined with the [6S]-stereoisomer of folinic acid given in high doses for treatment of patients with advanced colorectal carcinoma.
Treatment comprised 5-FU by i.v. infusion for 2 hours (the initial dose was 350 mg/m2/d; it was incremented by 25 mg/m2/d until a maximal dose of 550 mg/m2/d) and [6S]-folinic acid (100 mg/m2/d by rapid i.v. injection in Regimen 1, and 100 mg/m2 by rapid i.v. injection followed by a 2-hour infusion of 250 mg/m2 in Regimen 2) for 5 days, every 21 days. Twenty-five pts and 27 pts were assessed in Regimen 1 and in Regimen 2, respectively. They had had no prior chemotherapy. The median follow-up time was 9 months and 15.5 months for patients treated with Regimen 1 and Regimen 2, respectively. For pts treated with Regimen 1, the response rate was 52% (CR, 12%; PR, 40%). The median time to disease progression was 9.2 months. The probability of survival at 12 months was 73%. For pts treated with Regimen 2, the response rate was 37% (CR, 7%; PR, 30%). The median time to disease progression was 8.9 months. The probability of survival at 12 months was 67%. Improvement in quality of life was achieved in most patients who had symptoms due to the tumor before the start of treatment. The dose-limiting toxic effects (WHO grades > or = 3) were diarrhea, dermatitis, and mucositis. One single episode of grade 4 diarrhea occurred. After injection according to the schema in Regimen 1, [6S]-folinic acid was rapidly cleared from plasma (mean t 1/2 alpha and t 1/2 beta of 7.2 and 126 minutes, respectively). The mean concentration of the [6S]-stereoisomer two hours after injection was 5.8 mmol/L. After a rapid i.v. injection of 100 mg/m2 followed by a 2-hour infusion of 250 mg/m2, the mean concentration of [6S]-folinic acid two hours after the injection was 57.5 mmol/L. Pharmacokinetic data suggests saturation of the metabolic conversion of [6S]-folinic acid when large doses are administered.
The [6S]-form of folinic acid potentiates the antitumor effect of 5-FU given concomitantly. However, increase of the daily dose of the folate did not result in a therapeutic improvement. The present results justify a more complete exploration of the pure active stereoisomer as a modulator of the fluoropyrimidines.
在结肠腺癌患者中已证实亚叶酸可增强5-氟尿嘧啶(5-FU)的抗肿瘤活性。这种调节作用归因于胸苷酸合成酶(TS)、氟脱氧尿苷酸(FdUMP)和亚甲基四氢叶酸(5,10-CH2-FH4)之间的相互作用,这会导致形成稳定的三元复合物并伴随酶失活。亚叶酸由蝶啶环C6碳上具有不同手性的两种立体异构体等份混合而成。只有左旋[6S]-亚叶酸可转化为活性叶酸辅因子。然而,[6R]-立体异构体并非无活性;已表明它在细胞水平上会干扰[6S]形式。这种非天然立体异构体对5-FU调节产生有害作用的可能性促使我们开展了两项连续的I-II期研究,使用大剂量的[6S]-亚叶酸立体异构体联合5-FU治疗晚期结直肠癌患者。
治疗方案包括静脉输注5-FU 2小时(初始剂量为350 mg/m2/d;每次增加25 mg/m2/d,直至最大剂量550 mg/m2/d)以及[6S]-亚叶酸(方案1中通过快速静脉注射给予100 mg/m2/d,方案2中先通过快速静脉注射给予100 mg/m2,随后进行2小时输注250 mg/m2),每21天为一个周期,持续5天。方案1和方案2分别评估了25例和27例患者。他们之前均未接受过化疗。方案1和方案2治疗的患者中位随访时间分别为9个月和15.5个月。方案1治疗的患者中,缓解率为52%(完全缓解,12%;部分缓解,40%)。疾病进展的中位时间为9.2个月。12个月时的生存率为73%。方案2治疗的患者中,缓解率为37%(完全缓解,7%;部分缓解,30%)。疾病进展的中位时间为8.9个月。12个月时的生存率为67%。大多数在治疗开始前因肿瘤出现症状的患者生活质量得到改善。剂量限制性毒性作用(世界卫生组织分级≥3级)为腹泻、皮炎和粘膜炎。发生了1次4级腹泻。按照方案1的给药方案注射后,[6S]-亚叶酸从血浆中迅速清除(平均α半衰期和β半衰期分别为7.2分钟和126分钟)。注射后2小时[6S]-立体异构体的平均浓度为5.8 mmol/L。在快速静脉注射100 mg/m2随后进行2小时输注250 mg/m2后,注射后2小时[6S]-亚叶酸的平均浓度为57.5 mmol/L。药代动力学数据表明,大剂量给药时[6S]-亚叶酸的代谢转化会饱和。
[6S]-亚叶酸形式可增强同时给予的5-FU的抗肿瘤作用。然而,叶酸每日剂量的增加并未带来治疗效果的改善。目前的结果证明有必要更全面地探索纯活性立体异构体作为氟嘧啶调节剂的作用。
