Induced Phenotype Targeted Therapy: Radiation-Induced Apoptosis-Targeted Chemotherapy

Authors
Lee, Beom SukCho, Yong WooKim, Gui ChulLee, Do HeeKim, Chang JinKil, Hee SeupChi, Dae YoonByun, YoungroYuk, Soon HongKim, KwangmeyungKim, In-SanKwon, Ick ChanKim, Sang Yoon
Issue Date
2015-02
Publisher
OXFORD UNIV PRESS INC
Citation
JNCI-JOURNAL OF THE NATIONAL CANCER INSTITUTE, v.107, no.2
Abstract
Background: Tumor heterogeneity and evolutionary complexity may underlie treatment failure in spite of the development of many targeted agents. We suggest a novel strategy termed induced phenotype targeted therapy (IPTT) to simplify complicated targets because of tumor heterogeneity and overcome tumor evolutionary complexity. Methods: We designed a caspase-3 specific activatable prodrug, DEVD-S-DOX, containing doxorubicin linked to a peptide moiety (DEVD) cleavable by caspase-3 upon apoptosis. To induce apoptosis locally in the tumor, we used a gamma knife, which can irradiate a very small, defined target area. The in vivo antitumor activity of the caspase-3-specific activatable prodrug combined with radiation was investigated in C3H/HeN tumor-bearing mice (n = 5 per group) and analyzed with the Student&apos;s t test or Mann-Whitney U test. All statistical tests were two-sided. We confirmed the basic principle using a caspase-sensitive nanoprobe (Apo-NP). Results: A single exposure of radiation was able to induce apoptosis in a small, defined region of the tumor, resulting in expression of caspase-3. Caspase-3 cleaved DEVD and activated the prodrug. The released free DOX further activated DEVD-S-DOX by exerting cytotoxic effects on neighboring tumor or supporting cells, which repetitively induced the expression of caspase-3 and the activation of DEVD-S-DOX. This sequential and repetitive process propagated the induction of apoptosis. This novel therapeutic strategy showed not only high efficacy in inhibiting tumor growth (14-day tumor volume [mm(3)] vs radiation alone: 848.21 +/- 143.24 vs 2511.50 +/- 441.89, P < .01) but also low toxicity to normal cells and tissues. Conclusion: Such a phenotype induction strategy represents a conceptually novel approach to overcome tumor heterogeneity and complexity as well as to substantially improve current conventional chemoradiotherapy with fewer sequelae and side effects.
Keywords
STEREOTACTIC RADIOSURGERY; INTRATUMOR HETEROGENEITY; CELL-DEATH; CANCER; DOXORUBICIN; CASPASES; TISSUE; EVOLUTION; PROTEASES; TOXICITY; STEREOTACTIC RADIOSURGERY; INTRATUMOR HETEROGENEITY; CELL-DEATH; CANCER; DOXORUBICIN; CASPASES; TISSUE; EVOLUTION; PROTEASES; TOXICITY
ISSN
0027-8874
URI
https://pubs.kist.re.kr/handle/201004/125825
DOI
10.1093/jnci/dju403
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KIST Article > 2015
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