There is an increasing evidence of the neuroprotective effects of hypoxia inducing factor prolyl-hydroxylase inhibitors (HIF-PHDi) after hypoxic-ischemic (HI) brain damage (HIBD). We studied the neuroprotective effects of betulinic hydroxamate (BAH), a novel B55α/PP2A activator that dephosphorylates and inhibits PHD2 activity, in a rat model of neonatal HIBD. Seven-day-old (P7) Wistar rats were exposed to hypoxia after left carotid artery electrocoagulation and then received vehicle (HI + VEH) or BAH 3 mg/kg i.p. 30 min post-insult. Brain damage was assessed by magnetic resonance imaging (MRI) and neurobehavioral studies testing motor and cognitive performance at P14 and P37, as well as immunohistochemical studies (TUNEL and myelin basic protein (MBP) signal) at P37. Mechanisms of damage were assessed at P14 determining excitotoxicity (glutamate/N-acetylaspartate ratio by H+-magnetic resonance spectroscopy), oxidative stress (protein nitrosylation by Oxyblot), and inflammation (cytokine and chemokine concentration). BAH reduced brain damage volume and cell death, preventing the development of motor and working memory deficits. BAH showed a robust protective effect on myelination, restoring MBP expression at P37. BAH modulated excitotoxicity, oxidative stress, and inflammation. Most neuroprotective effects were still present despite BAH administration was delayed for 12 h, whereas beneficial effects on motor strength at P14 and on cell death and myelination at P37 were preserved even when BAH administration was delayed for 24 h. In conclusion, BAH appears as an effective neuroprotective treatment for neonatal HIBD in a manner associated with the modulation of excitotoxicity, oxidative stress, and inflammation, showing a broad therapeutic window.
Keywords: HIF-prolyl-hydroxylase; Neonatal hypoxia–ischemia; Neuroprotection; Protein phosphatase 2A.
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