Prostate-targeted radiosensitization via aptamer-shRNA chimeras in human tumor xenografts
Xiaohua Ni, … , Theodore L. DeWeese, Shawn E. Lupold
Xiaohua Ni, … , Theodore L. DeWeese, Shawn E. Lupold
Published May 9, 2011
Citation Information: J Clin Invest. 2011;121(6):2383-2390. https://doi.org/10.1172/JCI45109.
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Research Article Oncology

Prostate-targeted radiosensitization via aptamer-shRNA chimeras in human tumor xenografts

Abstract

Dose-escalated radiation therapy for localized prostate cancer (PCa) has a clear therapeutic benefit; however, escalated doses may also increase injury to noncancerous tissues. Radiosensitizing agents can improve ionizing radiation (IR) potency, but without targeted delivery, these agents will also sensitize surrounding normal tissues. Here we describe the development of prostate-targeted RNAi agents that selectively sensitized prostate-specific membrane antigen–positive (PSMA-positive) cells to IR. siRNA library screens identified DNA-activated protein kinase, catalytic polypeptide (DNAPK) as an ideal radiosensitization target. DNAPK shRNAs, delivered by PSMA-targeting RNA aptamers, selectively reduced DNAPK in PCa cells, xenografts, and human prostate tissues. Aptamer-targeted DNAPK shRNAs, combined with IR, dramatically and specifically enhanced PSMA-positive tumor response to IR. These findings support aptamer-shRNA chimeras as selective sensitizing agents for the improved treatment of high-risk localized PCa.

Authors

Xiaohua Ni, Yonggang Zhang, Judit Ribas, Wasim H. Chowdhury, Mark Castanares, Zhewei Zhang, Marikki Laiho, Theodore L. DeWeese, Shawn E. Lupold

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Figure 6

Ex vivo treatment of human prostate tissue.

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Ex vivo treatment of human prostate tissue. Sections of normal human pro...
Sections of normal human prostate tissue were obtained from fresh radical prostatectomy specimens and maintained ex vivo. These were treated with 200 nM aptamer-shRNA chimeras, and DNAPK levels were detected by immunohistochemistry 48 hours after treatment. Quantitative image analysis determined a 25% reduction in DNAPK staining for A10-3–DNAPK–treated samples. Original magnification, ×400.