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Two strategies for the development of mitochondrion-targeted small molecule radiation damage mitigators

Authors :
Rwigema, JCM
Beck, B
Wang, W
Doemling, A
Epperly, MW
Shields, D
Goff, JP
Franicola, D
Dixon, T
Frantz, MC
Wipf, P
Tyurina, Y
Kagan, VE
Wang, H
Greenberger, JS
Rwigema, JCM
Beck, B
Wang, W
Doemling, A
Epperly, MW
Shields, D
Goff, JP
Franicola, D
Dixon, T
Frantz, MC
Wipf, P
Tyurina, Y
Kagan, VE
Wang, H
Greenberger, JS
Publication Year :
2011

Abstract

Purpose: To evaluate the effectiveness of mitigation of acute ionizing radiation damage by mitochondrion-targeted small molecules. Methods and Materials: We evaluated the ability of nitroxide-linked alkene peptide isostere JP4-039, the nitric oxide synthase inhibitor-linked alkene peptide esostere MCF201-89, and the p53/mdm2/mdm4 protein complex inhibitor BEB55 to mitigate radiation effects by clonogenic survival curves with the murine hematopoietic progenitor cell line 32D cl 3 and the human bone marrow stromal (KM101) and pulmonary epithelial (IB3) cell lines. The p53-dependent mechanism of action was tested with p53+/+ and p53-/- murine bone marrow stromal cell lines. C57BL/6 NHsd female mice were injected i.p. with JP4-039, MCF201-89, or BEB55 individually or in combination, after receiving 9.5 Gy total body irradiation (TBI). Results: Each drug, JP4-039, MCF201-89, or BEB55, individually or as a mixture of all three compounds increased the survival of 32D cl 3 (p = 0.0021, p = 0.0011, p = 0.0038, and p = 0.0073, respectively) and IB3 cells (p = 0.0193, p = 0.0452, p = 0.0017, and p = 0.0019, respectively) significantly relative to that of control irradiated cells. KM101 cells were protected by individual drugs (p = 0.0007, p = 0.0235, p = 0.0044, respectively). JP4-039 and MCF201-89 increased irradiation survival of both p53+/+ (p = 0.0396 and p = 0.0071, respectively) and p53 -/- cells (p = 0.0007 and p = 0.0188, respectively), while BEB55 was ineffective with p53-/- cells. Drugs administered individually or as a mixtures of all three after TBI significantly increased mouse survival (p = 0.0234, 0.0009, 0.0052, and 0.0167, respectively). Conclusion: Mitochondrial targeting of small molecule radiation mitigators decreases irradiation-induced cell death in vitro and prolongs survival of lethally irradiated mice. © 2011 Elsevier Inc.

Details

Database :
OAIster
Notes :
text/plain, English
Publication Type :
Electronic Resource
Accession number :
edsoai.ocn854985029
Document Type :
Electronic Resource