Literature DB >> 26414508

Dose Optimization Study of AEOL 10150 as a Mitigator of Radiation-Induced Lung Injury in CBA/J Mice.

Francis N Murigi1, Pranshu Mohindra1, Chiwei Hung1, Shabnam Salimi1, Wilfried Goetz1, Radmila Pavlovic1, Isabel L Jackson1, Zeljko Vujaskovic1.   

Abstract

AEOL 10150 is a catalytic metalloporphyrin superoxide dismutase mimic being developed as a medical countermeasure for radiation-induced lung injury (RILI). The efficacy of AEOL 10150 against RILI through a reduction of oxidative stress, hypoxia and pro-apoptotic signals has been previously reported. The goal of this study was to determine the most effective dose of AEOL 10150 (daily subcutaneous injections, day 1-28) in improving 180-day survival in CBA/J mice after whole-thorax lung irradiation (WTLI) to a dose of 14.6 Gy. Functional and histopathological assessments were performed as secondary end points. Estimated 180-day survival improved from 10% in WTLI alone to 40% with WTLI-AEOL 10150 at 25 mg/kg (P = 0.065) and to 30% at 40 mg/kg (P = 0.023). No significant improvement was seen at doses of 5 and 10 mg/kg or at doses between 25 and 40 mg/kg. AEOL 10150 treatment at 25 mg/kg lowered the respiratory function parameter of enhanced pause (Penh) significantly, especially at week 16 and 18 (P = 0.044 and P = 0.025, respectively) compared to vehicle and other doses. Pulmonary edema/congestion were also significantly reduced at the time of necropsy among mice treated with 25 and 40 mg/kg AEOL 10150 compared to WTLI alone (P < 0.02). In conclusion, treatment with AEOL 10150 at a dose of 25 mg/kg/day for a total of 28 days starting 24 h after WTLI in CBA/J mice was found to be the optimal dose with improvement in survival and lung function. Future studies will be required to determine the optimal duration and therapeutic window for drug delivery at this dose.

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Year:  2015        PMID: 26414508      PMCID: PMC4615610          DOI: 10.1667/RR14110.1

Source DB:  PubMed          Journal:  Radiat Res        ISSN: 0033-7587            Impact factor:   2.841


  33 in total

1.  Oxidative stress mediates radiation lung injury by inducing apoptosis.

Authors:  Yu Zhang; Xiuwu Zhang; Zahid N Rabbani; Isabel L Jackson; Zeljko Vujaskovic
Journal:  Int J Radiat Oncol Biol Phys       Date:  2012-01-21       Impact factor: 7.038

Review 2.  Design of Mn porphyrins for treating oxidative stress injuries and their redox-based regulation of cellular transcriptional activities.

Authors:  Ines Batinic-Haberle; Ivan Spasojevic; Hubert M Tse; Artak Tovmasyan; Zrinka Rajic; Daret K St Clair; Zeljko Vujaskovic; Mark W Dewhirst; Jon D Piganelli
Journal:  Amino Acids       Date:  2010-05-16       Impact factor: 3.520

3.  A preclinical rodent model of radiation-induced lung injury for medical countermeasure screening in accordance with the FDA animal rule.

Authors:  Isabel L Jackson; Puting Xu; Caroline Hadley; Barry P Katz; Ross McGurk; Julian D Down; Zeljko Vujaskovic
Journal:  Health Phys       Date:  2012-10       Impact factor: 1.316

4.  Short-term treatment with a SOD/catalase mimetic, EUK-207, mitigates pneumonitis and fibrosis after single-dose total-body or whole-thoracic irradiation.

Authors:  Feng Gao; Brian L Fish; Aniko Szabo; Susan R Doctrow; Lakhan Kma; Robert C Molthen; John E Moulder; Elizabeth R Jacobs; Meetha Medhora
Journal:  Radiat Res       Date:  2012-09-28       Impact factor: 2.841

5.  Inhibition of tobacco smoke-induced lung inflammation by a catalytic antioxidant.

Authors:  Kevin R Smith; Dale L Uyeminami; Urmila P Kodavanti; James D Crapo; Ling-Ying Chang; Kent E Pinkerton
Journal:  Free Radic Biol Med       Date:  2002-10-15       Impact factor: 7.376

Review 6.  Calmangafodipir [Ca4Mn(DPDP)5], mangafodipir (MnDPDP) and MnPLED with special reference to their SOD mimetic and therapeutic properties.

Authors:  Jan Olof G Karlsson; Louis J Ignarro; Ingemar Lundström; Per Jynge; Torsten Almén
Journal:  Drug Discov Today       Date:  2014-11-20       Impact factor: 7.851

7.  A small molecular weight catalytic metalloporphyrin antioxidant with superoxide dismutase (SOD) mimetic properties protects lungs from radiation-induced injury.

Authors:  Zeljko Vujaskovic; Ines Batinic-Haberle; Zahid N Rabbani; Qin-fu Feng; Song K Kang; Ivan Spasojevic; Thaddeus V Samulski; Irwin Fridovich; Mark W Dewhirst; Mitchell S Anscher
Journal:  Free Radic Biol Med       Date:  2002-09-15       Impact factor: 7.376

8.  Temporal expression of hypoxia-regulated genes is associated with early changes in redox status in irradiated lung.

Authors:  Isabel L Jackson; Xiuwu Zhang; Caroline Hadley; Zahid N Rabbani; Yu Zhang; Sam Marks; Zeljko Vujaskovic
Journal:  Free Radic Biol Med       Date:  2012-04-25       Impact factor: 7.376

9.  Characterization of the dose response relationship for lung injury following acute radiation exposure in three well-established murine strains: developing an interspecies bridge to link animal models with human lung.

Authors:  Isabel L Jackson; Pu-Ting Xu; Giao Nguyen; Julian D Down; Cynthia S Johnson; Barry P Katz; Caroline C Hadley; Zeljko Vujaskovic
Journal:  Health Phys       Date:  2014-01       Impact factor: 1.316

10.  A pilot study in rhesus macaques to assess the treatment efficacy of a small molecular weight catalytic metalloporphyrin antioxidant (AEOL 10150) in mitigating radiation-induced lung damage.

Authors:  Michael C Garofalo; Amanda A Ward; Ann M Farese; Alexander Bennett; Cheryl Taylor-Howell; Wanchang Cui; Allison Gibbs; Karl L Prado; Thomas J MacVittie
Journal:  Health Phys       Date:  2014-01       Impact factor: 1.316
View more
  9 in total

1.  Recurrent DNA damage is associated with persistent injury in progressive radiation-induced pulmonary fibrosis.

Authors:  Tyler A Beach; Angela M Groves; Carl J Johnston; Jacqueline P Williams; Jacob N Finkelstein
Journal:  Int J Radiat Biol       Date:  2018-09-21       Impact factor: 2.694

Review 2.  Mn Porphyrin-Based Redox-Active Drugs: Differential Effects as Cancer Therapeutics and Protectors of Normal Tissue Against Oxidative Injury.

Authors:  Ines Batinic-Haberle; Artak Tovmasyan; Ivan Spasojevic
Journal:  Antioxid Redox Signal       Date:  2018-08-28       Impact factor: 8.401

3.  Development of A Novel Murine Model of Combined Radiation and Peripheral Tissue Trauma Injuries.

Authors:  Vlado Antonic; Isabel L Jackson; Gurung Ganga; Terez Shea-Donohue; Zeljko Vujaskovic
Journal:  Radiat Res       Date:  2017-01-24       Impact factor: 2.841

4.  AEOL 10150 Mitigates Radiation-Induced Lung Injury in the Nonhuman Primate: Morbidity and Mortality are Administration Schedule-Dependent.

Authors:  Thomas J MacVittie; Allison Gibbs; Ann M Farese; Kory Barrow; Alexander Bennett; Cheryl Taylor-Howell; Abdul Kazi; Karl Prado; George Parker; William Jackson
Journal:  Radiat Res       Date:  2017-02-16       Impact factor: 2.841

Review 5.  Modeling radiation-induced lung injury: lessons learned from whole thorax irradiation.

Authors:  Tyler A Beach; Angela M Groves; Jacqueline P Williams; Jacob N Finkelstein
Journal:  Int J Radiat Biol       Date:  2018-10-25       Impact factor: 2.694

Review 6.  Addressing the Symptoms or Fixing the Problem? Developing Countermeasures against Normal Tissue Radiation Injury.

Authors:  Jacqueline P Williams; Laura Calvi; Joe V Chakkalakal; Jacob N Finkelstein; M Kerry O'Banion; Edward Puzas
Journal:  Radiat Res       Date:  2016-06-22       Impact factor: 2.841

Review 7.  All for one, though not one for all: team players in normal tissue radiobiology.

Authors:  Marjan Boerma; Catherine M Davis; Isabel L Jackson; Dörthe Schaue; Jacqueline P Williams
Journal:  Int J Radiat Biol       Date:  2021-07-01       Impact factor: 2.694

Review 8.  Improvements in SOD mimic AEOL-10150, a potent broad-spectrum antioxidant.

Authors:  Xiao-Rui Zhang; Wen-Xia Zhou; Yong-Xiang Zhang
Journal:  Mil Med Res       Date:  2018-09-06

9.  [Progression of Anti-oxygen Therapy in Radiation-Induced Lung Injury].

Authors:  Yingge Li; Qibin Song; Yi Yao; Yi Dong; Yanjun Gao; Bin Wu
Journal:  Zhongguo Fei Ai Za Zhi       Date:  2019-09-20
  9 in total

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