Systemic Chemotherapy of Melanoma: NMR Studies of Lonidamine & N-Mustard Activity

黑色素瘤的全身化疗：洛尼达明的 NMR 研究

基本信息

批准号：
8450752
负责人：
JERRY D GLICKSON
金额：
$ 43.03万
依托单位：
UNIVERSITY OF PENNSYLVANIA
依托单位国家：
美国
项目类别：
财政年份：
2009
资助国家：
美国
起止时间：
2009-05-21 至 2017-03-31
项目状态：
已结题

来源：
https://reporter.nih.gov/project-details/8450752
关键词：
Acids Affect Aftercare Alkylating Agents Bioenergetics Blood Body Weight decreased Bone Marrow Brain Cancer Patient Cardiac Cell Respiration Cell membrane Chlorambucil Choline Clinic Clinical Clinical Trials Complete Blood Count Cyclophosphamide DNA Repair Detection Diffusion Disease Dose Drug Kinetics Early Diagnosis Electrocardiogram Electrolytes Exhibits Funding Future Glucose Glutathione S-Transferase Glycolysis Goals Growth Heart High Pressure Liquid Chromatography Histopathology Homeostasis Human Hyperglycemia Imidazole Individual Infusion procedures Injection of therapeutic agent Ions Lactic acid Life Liver Lonidamine Magnetic Resonance Imaging Malignant Neoplasms Maximum Tolerated Dose Measures Melphalan Metastatic Melanoma Methods Mitochondria Modeling Monitor Monocarboxylic Acid Transporters Mus Mustard Mustard Agent Nitrogen Normal Cell Normal tissue morphology Nude Mice Organ Outcome Pathway interactions Patients Pharmaceutical Preparations Pharmacotherapy Physiologic pulse Preparation Procedures Propionic Acids Protocols documentation Pyruvate Recovery Regimen Relative (related person)Renal function Resolution Respiration Schedule Serum Skeletal Muscle Skin Cancer Staging Stimulus Systemic Therapy Therapeutic Therapeutic Index Time Toxic effect Transferase Tumor Volume Ursidae Family Virulent Xenograft Model Xenograft procedure aminopropylphosphonate base cancer cell cell killing chemotherapy extracellular inhibitor/antagonist liver function meetings melanoma mortality neoplastic cell non-invasive monitor pH gradient pre-clinical programs research clinical testing response response marker temozolomide transport inhibitor tumor

项目摘要

DESCRIPTION (provided by applicant): Melanoma remains one of the deadliest of human cancers with no effective method for treating the disseminated disease. We propose to develop an effective method for systemic chemotherapy of melanoma by [tumor] selective [intracellular] acidification to sensitize melanomas to N-mustard alkylating agents. Our strategy is to coadminister glucose with the monocarboxylic acid transport (MCT) inhibitor lonidamine LND in order to trap lactic acid produced by glycolysis in the tumor and to inhibit oxidative metabolism by impeding pyruvate trans- port into mitochondria. This approach depends on the MCT being the key pathway for tumor intracellular pH (pHi) homeostasis, which has been confirmed in our melanoma models. Previous treatment with LND under hyperglycemic conditions led to some mortality. We were funded on this 2yr R01 to develop a safe reproducible method for acidification of human DB1 melanoma xenografts with LND. By administering LND 100 mg/kg i.p. without glucose, we have achieved acidification of the tumor to a pHi of 6.4¿0.1 for at least hr during which time the NTP/Pi ratio of the tumor decreased by 50%; there was no mortality, no significant loss of weight and minimal toxicity associated with this treatment. [LND induced minimal changes in extracellular pH (pHe) of normal tissue, but modified the pH gradient across the plasma membrane of the tumor from pretreatment values of pHi 6.9, pHe 7.0 or !pH=~0 to a post-treatment values of pHi=6.4, pHe=6.85 or !pH=-0.45. Steady state lactate in the tumor increased 3-fold relative to pre-LND levels.] Respiration, EKG, electrolyte levels and blood oxygenation did not change, while blood analysis is still in progress. The pHi and ATP/Pi of skeletal muscle did not change, and there was only a small transient decrease in pHi and ATP/Pi of the liver. Melphalan (LPAM 7.5 mg/kg i.v.)+ LND exhibited a growth delay of 10.5¿0.5 d vs. LND alone, 0.6¿0.7 d. and LPAM alone 1.4¿0.1 d. The [enhanced] response of LPAM to acidification is attributed to an increase in the concentration of the active intermediate (aziridinium ion), a decrease in GSH due to decreased activity of glutathione-S-transferase and a decrease in DNA repair resulting from acid inhibition of O6-alkyl-transferase. Tumor volume decreased by 52.5 ¿12.5%, consistent with the estimated log10 cell kill=0.3012 = log10(2.0). These preliminary studies set the stage for implementation of multidose systemic treatment of xenograft models of human melanoma in preparation for eventual clinical trials. The Aims of this renewal proposal are: 1) To maximize tumor acidification while still avoiding life threatening toxicity by coadministration of low levels of glucose with LND, and to also extend these studies to the more glycolytic DB8 melanoma human xenograft model. 2) Since other N-mustard agents might exhibit similar enhancements of activity at acidic pHi values but perhaps with lower toxicity, LPAM will be compared with cyclophosphamide, chlorambucil and bendamustine under single and multidose administration. 3) To evaluate potential 1H NMR markers for noninvasive early detection of response--lactate and total choline by MRS and apparent diffusion constant (ADC) and T2 measured by MRI.

描述（由申请人提供）：黑色素瘤仍然是最致命的人类癌症之一，没有有效的方法来治疗这种播散性疾病。我们建议通过[肿瘤]选择性[细胞内]酸化来开发一种有效的黑色素瘤全身化疗方法，以使黑色素瘤敏感。我们的策略是将葡萄糖与单羧酸转运 (MCT) 抑制剂氯尼达明 LND 共同给药。捕获肿瘤中糖酵解产生的乳酸，并通过阻止丙酮酸转运至线粒体来抑制氧化代谢。这种方法依赖于 MCT 是肿瘤细胞内 pH (pHi) 稳态的关键途径，这一点已在我们的黑色素瘤模型中得到证实。之前在高血糖条件下使用 LND 治疗导致了一些死亡。我们在 2 年 R01 上获得了资助，用于开发一种安全、可重复的人类 DB1 酸化方法。通过腹腔注射 LND 100 mg/kg（不含葡萄糖），我们将肿瘤酸化至 pHi 6.4±0.1 至少 hr，在此期间肿瘤的 NTP/Pi 比率下降了 50%；与这种治疗相关的没有死亡、体重明显减轻和毒性最小[LND 引起正常组织细胞外 pH (pHe) 的最小变化，但改变了 pH 梯度。穿过肿瘤质膜的pHi 6.9、pHe 7.0 或!pH=~0 的治疗前值到pHi=6.4、pHe=6.85 或!pH=-0.45 的治疗后值。相对于 LND 前的水平，肿瘤中的含量增加了 3 倍。] 呼吸、心电图、电解质水平和血氧没有变化，而血液分析仍在进行中。骨骼肌的 ATP/Pi 没有变化，肝脏的 pHi 和 ATP/Pi 仅出现短暂的小幅下降，与马法兰（LPAM 7.5 mg/kg i.v.）+ LND 相比，生长延迟 10.5±0.5 天。单独 LND 0.6¿0.7 d，单独 LPAM 1.4 ¡ 0.1 d。 LPAM 酸化的原因是活性中间体（氮丙啶鎓离子）浓度增加、谷胱甘肽-S-转移酶活性降低导致 GSH 减少以及 O6-烷基转移酶酸抑制导致 DNA 修复减少肿瘤体积减少 52.5 ¿ 12.5%，与估计的 log10 细胞杀伤率=0.3012 = log10(2.0)一致。这些初步研究为人类黑色素瘤异种移植模型的多剂量全身治疗奠定了基础，为最终的临床试验做准备。：1）通过低水平葡萄糖与 LND 的共同给药，最大限度地酸化肿瘤，同时仍然避免危及生命的毒性，并将这些研究扩展到更多的糖酵解DB8 黑色素瘤人类异种移植模型。2) 由于其他 N-芥末制剂在酸性 pHi 值下可能表现出类似的活性增强作用，但毒性可能较低，因此将在单剂量和多剂量给药下将 LPAM 与环磷酰胺、苯丁酸氮芥和苯达莫司汀进行比较 3)。评估潜在的 1H NMR 标记物，用于通过 MRS 和测量的表观扩散常数 (ADC) 和 T2 无创早期检测反应——乳酸和总胆碱通过核磁共振成像。