权益分类	功能权益	普通用户	{{item.name}}会员
{{category.name}}	{{benefitItem.name}}

miR-155 targeted therapeutics for precision medicine in lung cancer

miR-155靶向治疗用于肺癌精准医疗

基本信息

批准号：
9976985
负责人：
George A Calin
金额：
$ 51.22万
依托单位：
UNIVERSITY OF TX MD ANDERSON CAN CTR
依托单位国家：
美国
项目类别：
财政年份：
2018
资助国家：
美国
起止时间：
2018-08-03 至 2023-07-31
项目状态：
已结题

来源：
https://reporter.nih.gov/project-details/9976985
关键词：
3-Dimensional Adjuvant Adverse reactions Animals Biology Cancer Etiology Cancer cell line Cells Cessation of life Chemosensitization Chemotherapy-Oncologic Procedure Cisplatin Clinical Clinical Trials Code Complement Coupled Data Development Dose Drug Delivery Systems Drug Kinetics Drug or chemical Tissue Distribution Drug resistance Drug usage Failure Feedback Genes Goals Hybrids In Vitro Intervention Investigational New Drug Application Life Link Lipids Lung Neoplasms Malignant Neoplasms Malignant neoplasm of lung Mediating MicroRNAs Modeling Molecular Mutate Nano delivery Non-Small-Cell Lung Carcinoma Normal Cell Oncogenic Organ Outcome Pathway interactions Patients Pharmaceutical Preparations Pharmacodynamics Platinum Play Probability Proteins Regimen Resistance Resistance development Role Safety Specificity System TP53 gene Testing Therapeutic Therapeutic Effect Tissues Toxic effect Treatment Protocols Tumor Cell Invasion Tumor Suppressor Proteins Tumor-associated macrophages Untranslated RNA Vinorelbine Woman Xenograft Model angiogenesis appropriate dose aptamer axl receptor tyrosine kinase base biomaterial compatibility cancer cell cancer therapy checkpoint inhibition chemosensitizing agent chemotherapeutic agent chemotherapy circadian clinical translation deep sequencing drug development efficacy testing exosome improved in vivo innovation macrophage mathematical model men monocyte mortality mouse model multi-scale modeling nanoliposome nanoparticle nanotherapeutic neoplastic cell novel outcome forecast overexpression particle precision medicine preclinical safety preclinical study preclinical toxicity receptor relapse patients side effect standard of care targeted treatment therapeutic miRNA therapeutic target tumor tumor growth tumor microenvironment uptake

项目摘要

The deregulation of miR-155, a highly oncogenic microRNA (miRNA), has been associated with a wide variety of malignancies including lung cancer. Non-small-cell lung cancer (NSCLC) is the leading cause of cancer- related death in the US with dismal clinical advances to improve patient’s survival, due to the development of drug-resistance. We have demonstrated that miR-155 plays a role in mediating resistance to chemotherapy in NSCLC. Treatment with anti-miR-155-DOPC significantly reduced tumor growth and resensitized NSCLC to standard of care platinum-based chemotherapeutics with no toxicity in an in vivo orthotopic mouse model. miR- 155 acts on a TP53-dependent mechanism, triggering a feedback loop leading to chemotherapy resistance. Tumor microenvironment (TME) plays an important role in the promotion of cancer, specifically via monocyte/macrophage cells that express high levels of miR-155 by exosomal transfer with cancer cells. We developed nanoliposomal-bound aptamers to specifically target the AXL receptor, significantly overexpressed by NSCLC tumor cells and expressed also by monocyte/macrophage cells, in addition to targeting miR-155. By complementing standard interventions that have life-threatening toxicities with anti-miR-155 in nanodelivery vehicles (like single-lipid nanoliposomal particles, SLNPs), which we anticipate to be safe and non-toxic, we expect our findings to change treatment regimens for NSCLC. The main goal of this MPI revised application is to perform preclinical safety and toxicity studies to test the efficacy and safety of adjuvant anti-miR-155 therapies, coupled with SLNP-anti-miR-155 or AXL-Apt-SLNP-anti-miR-155, alone or in combination with cisplatin and vinorelbin. These preclinical studies will pave the way to an Investigational New Drug (IND) application for the use of anti-miR-155 treatment in NSCLC, and other chemotherapeutic resistant tumors. We plan to: 1) target miR-155 both in cancer cells and in TME by using the two types of SLNPs in NSCLC; 2) determine the toxicity of anti-miR-155 therapies based on the delivery using biocompatible nanodelivery in animal studies; 3) identify the full spectrum of miR-155 targets that could be therapeutically exploited and used for reducing toxicity; 4) develop novel mathematical models to determine the therapeutic value of anti-miR-155 treatment, based on multiple parameters, including circadian administration; 5) determine the in vivo antitumor efficacy of tumor targeted dual-effect AXL-Apt-SLNP-anti-miR-155 nanotherapeutics alone and in combination with chemotherapy in orthotopic and patient-derived xenograft models and, finally, 6) to compile the results for the IND application. The final outcome of our proposal would be to establish the efficacy of anti-miR-155 to treat NSCLC by directly targeting miR-155 in the tumor and TME in combination with existing chemotherapeutic treatments. We expect anti-miR-155 to significantly reduce the mortality of NSCLC without any major side effects, and also improve overall survival. Such studies can be further expanded for targeted therapeutic strategies, such as checkpoint inhibition, if these become the standard of care.

miR-155是一种高度致癌的microRNA（miRNA），其失调与多种肿瘤相关。包括肺癌在内的恶性肿瘤。非小细胞肺癌（NSCLC）是癌症的主要原因- 在美国，相关死亡与令人沮丧的临床进展，以改善患者的生存，由于发展，耐药性我们已经证明，miR-155在介导化疗耐药中发挥作用， NSCLC。用抗miR-155-DOPC治疗显著降低肿瘤生长并使NSCLC对miR-155-DOPC再敏感。在体内原位小鼠模型中没有毒性的护理标准铂基化疗剂。miR- 155作用于TP 53依赖性机制，触发导致化疗抗性的反馈回路。肿瘤微环境（TME）在促进癌症的发生中起着重要作用，特别是通过通过与癌细胞的外泌体转移表达高水平miR-155的单核细胞/巨噬细胞。我们开发了纳米脂质体结合的适体，以特异性靶向AXL受体，除了靶向miR-155外，还由NSCLC肿瘤细胞表达，并且也由单核细胞/巨噬细胞表达。通过在纳米递送中用抗miR-155补充具有危及生命的毒性的标准干预措施载体（如单脂质纳米脂质体颗粒，SLNP），我们预计是安全和无毒的，我们希望我们的发现能改变NSCLC的治疗方案。此MPI修订版应用程序的主要目标是进行临床前安全性和毒性研究，以测试佐剂抗miR-155的有效性和安全性与SLNP-抗-miR-155或AXL-Apt-SLNP-抗-miR-155偶联的单独或与顺铂和长春瑞滨。这些临床前研究将为研究性新药（IND）铺平道路本申请涉及抗miR-155治疗在NSCLC和其他化疗抗性肿瘤中的应用。我们计划：1）通过在NSCLC中使用两种类型的SLNP在癌细胞和TME中靶向miR-155; 2）基于使用生物相容性纳米递送的递送，确定抗miR-155疗法的毒性，动物研究; 3）确定可用于治疗开发和使用的miR-155靶标的全谱 4）开发新的数学模型来确定抗miR-155的治疗价值治疗，基于多个参数，包括昼夜节律给药; 5）确定体内抗肿瘤药物肿瘤靶向双效AXL-Apt-SLNP-抗miR-155纳米治疗剂单独和组合的功效在原位和患者来源的异种移植物模型中进行化疗，最后，6）将结果汇编为 IND申请。我们建议的最终结果将是确定抗miR-155的功效，通过直接靶向肿瘤和TME中的miR-155与现有的化疗我们预期抗miR-155可以显著降低NSCLC的死亡率，任何主要的副作用，并提高总生存率。这些研究可以进一步扩大，治疗策略，如检查点抑制，如果这些成为护理标准。