Long-lasting behavioral and neurochemical effects of early-life environmental enrichment in rats submitted to neonatal morphine administration

Abstract

The present study examined the medium- and long-term effects of early environmental enrichment (EE) on neuromotor, nociceptive, cognitive, behavioral, and neurochemical parameters in newborn rats repeatedly exposed to morphine. The study employed 90 Wistar rats: 10 adult nulliparous females and 80 male pups. Litter was split into standard and EE housing. Following, half of each litter received saline (S) or morphine (M) injections, resulting in four groups: SC + S, EE + S, SC + M, and EE + M. EE was applied from PND1 to PND21, while morphine or saline was given daily (5 μg/s.c.) from PND8 to PND14. Neuromotor development was similar between groups. In the OF test, morphine reduced outer and total crossings, whereas EE increased inner crossings and rearings. Adult rats showed a decrease in outer and total crossings and grooming and an increase in rearing. EE increased the number of protected and unprotected head dipping. Adult rats showed an increase in protected head dipping. Adult rats showed a lower recognition index, and, when exposed to EE, a lower anxiety index and analgesia. EE increased brainstem and hippocampal BDNF levels. Adult rats had increased hypothalamus, spinal cord, and brainstem BDNF levels, an increase in the spinal cord, and decreased hypothalamus TNF-α levels. This study demonstrated that early-life EE raises BDNF levels in the brainstem and hippocampus of rats and modifies their behaviors (such as nociception, exploration, and anxiety) in a state-dependent manner (morphine and age).