A Nanotherapy of Octanoic Acid Ameliorates Cardiac Arrest/Cardiopulmonary Resuscitation-Induced Brain Injury via RVG29- and Neutrophil Membrane-Mediated Injury Relay Targeting.
Jingyuan YangPan WangXiangkang JiangJiefeng XuMinhai ZhangFei LiuYao LinJiawei TaoJiantao HeXing ZhouMao ZhangPublished in: ACS nano (2023)
Treatment of cardiac arrest/cardiopulmonary resuscitation (CA/CPR)-induced brain injury remains a challenging issue without viable therapeutic options. Octanoic acid (OA), a lipid oil that is mainly metabolized in the astrocytes of the brain, is a promising treatment for this type of injury owing to its potential functions against oxidative stress, apoptosis, inflammation, and ability to stabilize mitochondria. However, the application of OA is strictly limited by its short half-life and low available concentration in the target organ. Herein, based on our previous research, an OA-based nanotherapy coated with a neutrophil membrane highly expressing RVG29, RVG29-H-NP OA , was successfully constructed by computer simulation-guided supramolecular assembly of polyethylenimine and OA. The in vitro and in vivo experiments showed that RVG29-H-NP OA could target and be distributed in the injured brain focus via the relay-targeted delivery mediated by RVG29-induced blood-brain barrier (BBB) penetration and neutrophil membrane protein-induced BBB binding and injury targeting. This results in enhancements of the antioxidant, antiapoptotic, mitochondrial stability-promoting and anti-inflammatory effects of OA and exhibited systematic alleviation of astrocyte injury, neuronal damage, and inflammatory response in the brain. Due to their systematic intervention in multiple pathological processes, RVG29-H-NP OA significantly increased the 24 h survival rate of CA/CPR model rats from 40% to 100% and significantly improved their neurological functions. Thus, RVG29-H-NP OA are expected to be a promising therapeutic for the treatment of CA/CPR-induced brain injury.
Keyphrases
- cardiac arrest
- cardiopulmonary resuscitation
- brain injury
- oxidative stress
- cerebral ischemia
- diabetic rats
- blood brain barrier
- subarachnoid hemorrhage
- knee osteoarthritis
- high glucose
- inflammatory response
- drug induced
- anti inflammatory
- randomized controlled trial
- white matter
- cell death
- induced apoptosis
- endoplasmic reticulum stress
- lipopolysaccharide induced
- endothelial cells
- fatty acid
- cancer therapy
- heat stress
- signaling pathway
- binding protein
- transcription factor
- toll like receptor
- protein kinase
- mouse model
- wild type
- dna binding