Development of a Positron Emission Tomography Radiotracer for Imaging Elevated Levels of Superoxide in Neuroinflammation.
Catherine HouChia-Ju HsiehShihong LiHsiaoju LeeThomas J GrahamKuiying XuChi-Chang WengRobert K DootWenhua ChuSubhasish K ChakrabortyLaura L DuganMark A MintunRobert H MachPublished in: ACS chemical neuroscience (2017)
Reactive oxygen species (ROS) are believed to play a major role in the proinflammatory, M1-polarized form of neuroinflammation. However, it has been difficult to assess the role of ROS and their role in neuroinflammation in animal models of disease because of the absence of probes capable of measuring their presence with the functional imaging technique positron emission tomography (PET). This study describes the synthesis and in vivo evaluation of [18F]ROStrace, a radiotracer for imaging superoxide in vivo with PET, in an LPS model of neuroinflammation. [18F]ROStrace was found to rapidly cross the blood-brain barrier (BBB) and was trapped in the brain of LPS-treated animals but not the control group. [18F] ox-ROStrace, the oxidized form of [18F]ROStrace, did not cross the BBB. These data suggest that [18F]ROStrace is a suitable radiotracer for imaging superoxide levels in the central nervous system with PET.
Keyphrases
- positron emission tomography
- pet imaging
- computed tomography
- high resolution
- pet ct
- reactive oxygen species
- traumatic brain injury
- lipopolysaccharide induced
- lps induced
- hydrogen peroxide
- inflammatory response
- cognitive impairment
- blood brain barrier
- cerebral ischemia
- dna damage
- fluorescence imaging
- cell death
- small molecule
- single molecule
- photodynamic therapy
- white matter
- data analysis