Inhibition of Adult Neurogenesis in Male Mice after Repeated Exposure to Paracetamol Overdose.
Juan SuarezMarialuisa de CegliaMiguel Rodríguez-PozoAntonio VargasIgnacio SantosSonia Melgar-LocatelliAdriana Castro-ZavalaEstela Castilla-OrtegaFernando Rodríguez de FonsecaJuan DecaraPatricia RiveraPublished in: International journal of molecular sciences (2024)
Paracetamol, or acetaminophen (N-acetyl-para-aminophenol, APAP), is an analgesic and antipyretic drug that is commonly used worldwide, implicated in numerous intoxications due to overdose, and causes serious liver damage. APAP can cross the blood-brain barrier and affects brain function in numerous ways, including pain signals, temperature regulation, neuroimmune response, and emotional behavior; however, its effect on adult neurogenesis has not been thoroughly investigated. We analyze, in a mouse model of hepatotoxicity, the effect of APAP overdose (750 mg/kg/day) for 3 and 4 consecutive days and after the cessation of APAP administration for 6 and 15 days on cell proliferation and survival in two relevant neurogenic zones: the subgranular zone of the dentate gyrus and the hypothalamus. The involvement of liver damage (plasma transaminases), neuronal activity (c-Fos), and astroglia (glial fibrillar acidic protein, GFAP) were also evaluated. Our results indicated that repeated APAP overdoses are associated with the inhibition of adult neurogenesis in the context of elevated liver transaminase levels, neuronal hyperactivity, and astrogliosis. These effects were partially reversed after the cessation of APAP administration for 6 and 15 days. In conclusion, these results suggest that APAP overdose impairs adult neurogenesis in the hippocampus and hypothalamus, a fact that may contribute to the effects of APAP on brain function.
Keyphrases
- cerebral ischemia
- subarachnoid hemorrhage
- cell proliferation
- neural stem cells
- brain injury
- blood brain barrier
- resting state
- oxidative stress
- chronic pain
- childhood cancer
- spinal cord injury
- functional connectivity
- pain management
- high resolution
- young adults
- signaling pathway
- small molecule
- electronic health record
- adverse drug
- protein protein
- atomic force microscopy
- postoperative pain