Effects of inescapable shock and conditioned fear on the release of excitatory and inhibitory amino acids in the locus coeruleus

We investigated the importance of endogenous amino acids in the locus coeruleus in inescapable electric shock and conditioned fear. In naive rats and in rats exposed to noise (N), light (L) and electric shock (S) or to N + L only, the locus coeruleus was superfused with artificial cerebrospinal fluid through a push-pull cannula and the release of GABA, taurine, glutamate, aspartate, serine and glutamine was determined in the superfusate by HPLC after derivatization with o-phthaldialdehyde. Locomotor activity, arterial blood pressure and heart rate were telemetrically monitored. The placement of naive rats or conditioned rats from their home cage to a chamber provided with a grid-floor for shock virtually did not change the release rates of the amino acids in the locus coeruleus. Motility was enhanced in naive and conditioned rats to a similar extent. Blood pressure and heart rate were enhanced in conditioned rats only. Exposure to N + L + S for 5 min greatly enhanced the release rates of all determined amino acids in the locus coeruleus. In conditioned rats the increase in release of most amino acids lasted longer than in naive rats. Electric shock also enhanced motility, blood pressure and heart rate. In conditioned rats, motility and cardiovascular changes were more pronounced and/or lasted longer than in naive rats. Exposure of conditioned rats to the conditioned stimuli N + L for 5 min led to an increased release of taurine and aspartate. The enhanced release of taurine lasted 30 min. Exposure to N + L did not affect the release rates of amino acids in naive rats. N + L did not influence motility but arterial blood pressure and heart rate were elevated in conditioned rats. The findings show that inescapable electric shock enhances the release of several amino acids in the locus coeruleus, while conditioned fear selectively increases the outflow of taurine and aspartate. Moreover, conditioned fear prolongs the response of excitatory and inhibitory amino acids to electric shock. The results suggest that an excitatory amino acid (aspartate) and an inhibitory amino acid (taurine) of the locus coeruleus are implicated in conditioned fear.