The impact of limited sucrose intake on perineuronal nets of parvalbumin interneurons in the basolateral amygdala: A potential role in stress resilience.

Abstract

Natural rewards like regular sucrose consumption can buffer physiological and behavioral stress responses, likely mediated, at least in part, by increased plasticity in parvalbumin-positive (PV+) interneurons in the basolateral amygdala (BLA). As PV+ interneuron plasticity is tightly regulated by specialized extracellular matrix structures called perineuronal nets (PNNs), this study investigated the impact of regular sucrose consumption vs. repetitive stress on the PNNs that surround PV+ interneurons in the BLA, as well as the number of glutamatergic (vGLUT1) and GABAergic (vGAT) appositions that PV+ cells receive. Male rats were given an established limited sucrose intake (LSI) feeding paradigm (vs. water-fed controls) and were co-exposed to a brief restraint stress (vs. no stress controls), daily for 14 days. Sucrose consumption increased the proportion of PV+ cells that were surrounded by PNNs, independent of stress exposure. PV+ cells with PNNs had more vGLUT1-positive and fewer vGAT-positive appositions compared to those lacking PNNs. Additionally, sucrose consumption increased the ratio of excitatory/inhibitory appositions onto PV+ cells, suggesting the possibility of elevated PV+ interneuron tone, leading to greater inhibition of the BLA's stress-excitatory output. These findings indicate that sucrose consumption influences PNN formation and structural plasticity on PV+ interneurons in the BLA, which has implications for understanding the neurological mechanisms underlying stress resilience by natural rewards.