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- Title
Angiotensin-(1-7) improves cognitive function and reduces inflammation in mice following mild traumatic brain injury.
- Authors
Bruhns, Ryan P.; Sulaiman, Maha Ibrahim; Gaub, Michael; Bae, Esther H.; Knapp, Rachel B. Davidson; Larson, Anna R.; Smith, Angela; Coleman, Deziree L.; Staatz, William D.; Sandweiss, Alexander J.; Joseph, Bellal; Hay, Meredith; Largent-Milnes, Tally M.; Vanderah, Todd W.
- Abstract
Introduction: Traumatic brain injury (TBI) is a leading cause of disability in the US. Angiotensin 1-7 (Ang-1-7), an endogenous peptide, acts at the G protein coupled MAS1 receptors (MASR) to inhibit inflammatory mediators and decrease reactive oxygen species within the CNS. Few studies have identified whether Ang-(1-7) decreases cognitive impairment following closed TBI. This study examined the therapeutic eect of Ang-(1-7) on secondary injury observed in a murine model of mild TBI (mTBI) in a closed skull, single injury model. Materials and methods: Male mice (n = 108) underwent a closed skull, controlled cortical impact injury. Two hours after injury, mice were administered either Ang-(1-7) (n = 12) or vehicle (n = 12), continuing through day 5 post-TBI, and tested for cognitive impairment on days 1-5 and 18. pTau, Tau, GFAP, and serum cytokines were measured at multiple time points. Animals were observed daily for cognition and motor coordination via novel object recognition. Brain sections were stained and evaluated for neuronal injury. Results: Administration of Ang-(1-7) daily for 5 days post-mTBI significantly increased cognitive function as compared to saline control-treated animals. Cortical and hippocampal structures showed less damage in the presence of Ang-(1-7), while Ang-(1-7) administration significantly changed the expression of pTau and GFAP in cortical and hippocampal regions as compared to control. Discussion: These are among the first studies to demonstrate that sustained administration of Ang-(1-7) following a closed-skull, single impact mTBI significantly improves neurologic outcomes, potentially oering a novel therapeutic modality for the prevention of long-term CNS impairment following such injuries.
- Subjects
BRAIN injuries; G protein coupled receptors; COGNITIVE ability; TOTAL body irradiation; INFLAMMATORY mediators; CRASH injuries; APRAXIA
- Publication
Frontiers in Behavioral Neuroscience, 2022, Vol 16, p1
- ISSN
1662-5153
- Publication type
Article
- DOI
10.3389/fnbeh.2022.903980