Preclinical Development of ACXT-3102 for the Treatment of Pancreatic Adenocarcinoma (PDAC)

ACXT-3102 治疗胰腺癌 (PDAC) 的临床前开发

基本信息

批准号：
10435565
负责人：
WILLIAM G HAWKINS
金额：
$ 101.92万
依托单位：
ACCURONIX THERAPEUTICS, INC.
依托单位国家：
美国
项目类别：
财政年份：
2019
资助国家：
美国
起止时间：
2019-09-23 至 2024-07-31
项目状态：
已结题

来源：
https://reporter.nih.gov/project-details/10435565
关键词：
Anemia Antineoplastic Agents Biological Availability Body Weight Cancer Cell Growth Cancer Etiology Cancer Model Cancer Patient Canis familiaris Cardiac Cardiovascular system Cell Death Cells Cessation of life Chemicals Clinical Clinical Trials Cystine Data Development Disease Dose Dose-Limiting Drug Delivery Systems Drug Kinetics Drug Stability Drug Targeting Enzymes Fatigue Formulation Glutamates Goals Grant Half-Life Human In Vitro Incubated Intravenous Investigational Drugs Life Life Expectancy Ligands Malignant Neoplasms Malignant neoplasm of pancreas Measures Mesylates Metabolic Metabolism Microsomes Modeling Mus No-Observed-Adverse-Effect Level Oral Oral Administration Oxidative Stress Paclitaxel Pancreas Pancreatic Adenocarcinoma Patients Pharmaceutical Preparations Pharmacodynamics Pharmacology Pharmacology Study Phase Phase I Clinical Trials Plasma Play Practice Guidelines Quality of life Rattus Regimen Research Role Safety Schedule Series Site Small Business Technology Transfer Research Sodium Chloride Solid Solubility Survival Rate Temperature Testing Therapeutic Therapeutic Index Time Toxic effect Toxicology Treatment Efficacy Tumor Volume Universities Ventricular Washington Work antiporter aqueous base cancer cell cancer type chemical stability commercial application cytotoxicity design drug synthesis effective therapy erastin first-in-human gemcitabine good laboratory practice improved in vitro Assay in vivo malic enzyme medical schools molecular marker mouse model nerve damage novel overexpression oxaliplatin pancreatic cancer cells pancreatic cancer model pancreatic cancer patients pharmacokinetics and pharmacodynamics physical property pre-clinical preclinical development preclinical study prevent programs side effect sigma-2 receptor small molecule standard of care tumor tumor growth tumor metabolism uptake

项目摘要

Project Summary/Abstract Pancreatic cancer is a devastating disease with a very low (8%) 5-year survival rate. Therapeutic options are limited in efficacy and many have substantial toxicity. Targeted drug delivery may improve the therapeutic index of cancer drugs by enhancing drug localization to the cancer cell while minimizing off-target side effects. Sigma-2 receptors (S2R) are highly expressed in pancreatic and other cancers compared to healthy cells. Accuronix Therapeutics is developing ACXT-3102, a molecule with therapeutic potential licensed from Washington University School of Medicine in St. Louis (WUSM). ACXT-3102 is comprised of a S2 ligand covalently bound to the ferroptosis-inducing molecule dm-erastin. Preliminary data show that ACXT-3102 increased the cytotoxicity against pancreatic tumor cells in vitro by 35-fold compared to dm-erastin alone. ACXT-3102 has tremendous potential as a novel treatment option for pancreatic and perhaps several other types of cancer. Drug optimization strategies were conducted in a Phase I STTR which resulted in a better yield during drug synthesis, identification of a mesylate salt with high aqueous solubility and improved physical properties suitable for oral drug administration, demonstration of good oral efficacy and discovery that tumors lacking malic enzyme 1 (ME1) are even more sensitive to ACXT-3102. For this Phase II STTR program, Accuronix Therapeutics will continue to work with our research colleagues from WUSM to prepare ACXT-3102 for Investigational New Drug (IND) submission and eventually testing the compound in pancreatic cancer patients. We will conduct a series of preclinical studies to optimize the dosing regimen in murine pancreatic cancer models – understanding if once, twice or three times per day drug administration improves plasma exposure and anti-tumor efficacy while maintaining safety, i.e., avoiding dose- limiting side effects. Studies will also explore if efficacy of our drug can be further improved when given in combination with gemcitabine, a current standard-of-care for pancreatic cancer. Chemical and metabolic stability of ACXT-3102 will be established using in vitro assays to guide storage conditions of the drug and understand which preclinical species best represents metabolism in humans. To obtain data required for the pharmacology and safety sections of the IND package, preclinical studies will be conducted according to Good Laboratory Practice (GLP) guidelines to generate pharmacokinetic (PK) and pharmacodynamic (PD) data for correlating plasma exposures in different species to what is predicted in human. Similarly, formal GLP toxicology studies will be completed using three different doses in rats and dogs to establish the “No Observed Adverse Effect Level” (NOAEL). These data will be used to model exposure levels in humans and establish a safe, first-in-human (FIH) dose for starting our clinical trials in cancer patients. At the conclusion of the Phase II STTR grant, we will have the pharmacology and safety information on ACXT-3102 required for the IND package, and will have established the first dose to be used in patients.

项目概要/摘要胰腺癌是一种毁灭性疾病，其 5 年生存率非常低 (8%)。疗效有限且许多具有显着的毒性。靶向药物递送可以改善治疗。通过增强药物对癌细胞的定位同时最大限度地减少脱靶副作用来提高癌症药物的指数。与健康细胞相比，Sigma-2 受体 (S2R) 在胰腺癌和其他癌症中高度表达。 Accuronix Therapeutics 正在开发 ACXT-3102，这是一种具有治疗潜力的分子，获得许可圣路易斯华盛顿大学医学院 (WUSM) 由 S2 配体组成。初步数据表明 ACXT-3102 与铁死亡诱导分子 dm-erastin 共价结合。与单独的 dm-erastin 相比，体外对胰腺肿瘤细胞的细胞毒性增加了 35 倍。 ACXT-3102 作为胰腺癌和其他几种疾病的新型治疗选择具有巨大的潜力在 I 期 STTR 中进行了药物优化策略，取得了更好的效果。药物合成过程中的收率、具有高水溶性和改善物理性能的甲磺酸盐的鉴定适合口服给药的特性，证明良好的口服功效并发现肿瘤缺乏苹果酸酶 1 (ME1) 的人对 ACXT-3102 更加敏感。对于这个 II 期 STTR 项目，Accuronix Therapeutics 将继续与我们的研究同事合作来自 WUSM 准备 ACXT-3102 用于研究性新药 (IND) 提交并最终测试我们将进行一系列临床前研究以优化胰腺癌患者的剂量。小鼠胰腺癌模型中的治疗方案 – 了解是否每天服用一次、两次或三次药物给药可改善血浆暴露和抗肿瘤功效，同时保持安全性，即避免剂量- 研究还将探索我们的药物在给药时是否可以进一步提高疗效。与吉西他滨联合使用，吉西他滨是目前治疗胰腺癌的标准疗法。 ACXT-3102 的稳定性将通过体外测定来确定，以指导药物测定的储存条件和了解哪种临床前物种最能代表人类的新陈代谢以获得所需的数据。 IND包的药理学和安全性部分，临床前研究将根据Good 生成药代动力学 (PK) 和药效 (PD) 数据的实验室实践 (GLP) 指南类似地，将不同物种的血浆暴露与人类的预测相关联。毒理学研究将在大鼠和狗中使用三种不同剂量来完成，以确定“未观察到这些数据将用于模拟人类暴露水平并建立一个“不良影响水平”。在该阶段结束时，我们将使用安全的首次人体（FIH）剂量来启动我们在癌症患者中的临床试验。 II STTR拨款，我们将获得IND所需的ACXT-3102药理学和安全性信息包装，并将确定用于患者的第一个剂量。