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Ultrasound guided site-specific gene delivery in prostate cancer

前列腺癌中超声引导的位点特异性基因递送

基本信息

批准号：
7622877
负责人：
Pier Paolo Claudio
金额：
$ 18.48万
依托单位：
MARSHALL UNIVERSITY
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：
2009-04-01 至 2011-03-31
项目状态：
已结题

来源：
https://reporter.nih.gov/project-details/7622877
关键词：
Adenocarcinoma Cell Adjuvant Animals Apoptosis Apoptotic Cell Line Cells Clinical Trials Contrast Media Data Diagnostic Drug usage Encapsulated Future Gases Gene Delivery Gene Targeting Gene Transfer Genes Genetic Materials Genome Immune system In Vitro Induction of Apoptosis Injection of therapeutic agent Malignant neoplasm of prostate Methods Microbubbles Microbubbles Ultrasound Contrast Medium Microspheres Morbidity - disease rate Nude Mice Organ Organ Specificity Outcome Outcome Study Patients Permeability Primary Neoplasm Prostate Adenocarcinoma RBL2 gene Radiation Radiation therapy Role Site Specificity System Techniques Time Transducers Ultrasonic wave Ultrasonography Viral Vector Virus Virus Diseases base design gene delivery system gene therapy improved in vivo innovation intravenous injection irradiation macromolecule outcome forecast public health relevance research study response transgene expression

项目摘要

DESCRIPTION (provided by applicant): This proposal aims at improving the efficiency and specificity of gene delivery in prostate cancer (PC) by using an innovative system consisting of ultrasound contrast agents, viral vectors and ultrasound waves. Additionally, this proposal aims at improving the response of prostate cancer to radiation therapy. Despite the progress of modern radiation techniques in largely improving the prognosis of patients with prostate adenocarcinoma, the maximum benefit that can be achieved with conventional radiation therapy has probably been reached. The impact of this proposal lies in the fact that a gene such as p130 significantly increases the percentage of apoptotic cells after 3- irradiation potentially improving the treatment of prostate cancer. Additionally, ultrasound contrast agents offer the advantage of targeted gene release, thereby improving its specificity. The impact of microbubbles on gene therapy is to protect the viral vectors from rapid degradation by the immune system thus allowing for intravenous injection rather than direct target organ injection. Ultrasound contrast agents (microbubbles) may be designed to serve as safe vehicles to encapsulate and deliver genetic materials. The gas filled microspheres effectively lower the energy threshold for cavitation. This allows diagnostic transducers operating within the energy levels mandated by the FDA to be used for drug/gene delivery. In the sonification zone the microbubbles undergo cavitation, destroying the bubbles and releasing their contents. Cavitation also creates small shockwaves that increase cell permeability. This has been shown to increase transcapillary passage of macromolecules or nanoshperes codelivered by the microbubbles in experimental animals. This proposal aims at improving the outcome of radiation therapy in prostate cancer. The outcome of these studies will demonstrate whether targeted p130 gene delivery is an effective adjuvant treatment in the therapy of prostate adenocarcinoma and whether its use could be directed at decreasing treatment-related morbidity. The results of these experiments will be the basis for future patient clinical trials. PUBLIC HEALTH RELEVANCE: This proposal aims at improving the efficiency and specificity of gene delivery in prostate cancer (PC) by using an innovative system consisting of ultrasound contrast agents, viral vectors and ultrasound waves. Additionally, this proposal aims at improving the response of prostate cancer to radiation therapy. Despite the progress of modern radiation techniques in largely improving the prognosis of patients with prostate adenocarcinoma, the maximum benefit that can be achieved with conventional radiation therapy has probably been reached. The impact of this proposal lies in the fact that a gene such as p130 significantly increases the percentage of apoptotic cells after 3- irradiation potentially improving the treatment of prostate cancer. Additionally, ultrasound contrast agents offer the advantage of targeted gene release, thereby improving its specificity. The impact of microbubbles on gene therapy is to protect the viral vectors from rapid degradation by the immune system thus allowing for intravenous injection rather than direct target organ injection. Additionally, viruses are non-specific. Ultrasound contrast agents (microbubbles) may be designed to serve as safe vehicles to encapsulate and deliver genetic materials. The gas filled microspheres effectively lower the energy threshold for cavitation. This allows diagnostic transducers operating within the energy levels mandated by the FDA to be used for drug/gene delivery. In the sonification zone the microbubbles undergo cavitation, destroying the bubbles and releasing their contents. Cavitation also creates small shockwaves that increase cell permeability. This has been shown to increase transcapillary passage of macromolecules or nanoshperes codelivered by the microbubbles in experimental animals. In conclusion, this proposal aims at improving the outcome of radiation therapy in prostate cancer. The outcome of these studies will demonstrate whether targeted p130 gene delivery is an effective adjuvant treatment in the therapy of prostate adenocarcinoma and whether its use could be directed at decreasing treatment-related morbidity. The results of these experiments will be the basis for future patient clinical trials.

描述(申请人提供)：这项建议旨在通过使用由超声造影剂、病毒载体和超声波组成的创新系统来提高前列腺癌(PC)的基因传递的效率和特异性。此外，这项建议旨在提高前列腺癌对放射治疗的反应。尽管现代放射治疗技术在很大程度上改善了前列腺癌患者的预后，但传统放射治疗所能达到的最大益处可能已经达到。这一建议的影响在于这样一个事实，即p130等基因显著增加了3次照射后凋亡细胞的百分比，潜在地改善了前列腺癌的治疗。此外，超声造影剂提供了靶向基因释放的优势，从而提高了其特异性。微泡对基因治疗的影响是保护病毒载体免受免疫系统的快速降解，从而允许静脉注射而不是直接靶器官注射。超声造影剂(微泡)可以被设计成安全的载体来包裹和传递遗传物质。充气微球有效地降低了空化的能量阈值。这允许诊断换能器在FDA规定的能量水平内运行，用于药物/基因输送。在声化区，微泡经历空化，破坏气泡并释放其内容物。空化也会产生小的冲击波，增加细胞的渗透性。这已被证明在实验动物中增加了由微泡共同传递的大分子或纳米膜的毛细血管通道。这项建议旨在改善前列腺癌的放射治疗结果。这些研究的结果将证明靶向p130基因传递在前列腺癌治疗中是否是一种有效的辅助治疗，以及它的使用是否可以针对减少治疗相关的发病率。这些实验的结果将成为未来患者临床试验的基础。公共卫生相关性：这项建议旨在通过使用由超声造影剂、病毒载体和超声波组成的创新系统来提高前列腺癌(PC)的基因传递的效率和特异性。此外，这项建议旨在提高前列腺癌对放射治疗的反应。尽管现代放射治疗技术在很大程度上改善了前列腺癌患者的预后，但传统放射治疗所能达到的最大益处可能已经达到。这一建议的影响在于这样一个事实，即p130等基因显著增加了3次照射后凋亡细胞的百分比，潜在地改善了前列腺癌的治疗。此外，超声造影剂提供了靶向基因释放的优势，从而提高了其特异性。微泡对基因治疗的影响是保护病毒载体免受免疫系统的快速降解，从而允许静脉注射而不是直接靶器官注射。此外，病毒是非特异性的。超声造影剂(微泡)可以被设计成安全的载体来包裹和传递遗传物质。充气微球有效地降低了空化的能量阈值。这允许诊断换能器在FDA规定的能量水平内运行，用于药物/基因输送。在声化区，微泡经历空化，破坏气泡并释放其内容物。空化也会产生小的冲击波，增加细胞的渗透性。这已被证明在实验动物中增加了由微泡共同传递的大分子或纳米膜的毛细血管通道。总之，这项建议旨在改善前列腺癌的放射治疗结果。这些研究的结果将证明靶向p130基因传递在前列腺癌治疗中是否是一种有效的辅助治疗，以及它的使用是否可以针对减少治疗相关的发病率。这些实验的结果将成为未来患者临床试验的基础。