Developmental plasticity in the D1- and D2-mediation of motor behavior in rats depleted of dopamine as neonates

Neurochemical anatomy of dorsal and tonic immobility responses

The dorsal immobility response (DIR) and the tonic immobility response (TIR) are cutaneo-motor reflexes typically triggered when a prey is seized. The neurochemical basis of the DIR appears to pass through the basal ganglia via dopaminergic fibers, while the neurochemical basis of the TIR appears to include a circuit comprising the amygdala, the periaqueductal gray (PAG), the dorsal raphe, and the nucleus magnus raphe (NMR) via glutamatergic, serotonergic, cholinergic, GABAergic, and opioid fibers. For the DIR, the basal ganglia also seem to be involved in regard to estradiol, while for the TIR, the HPA axis appears involved at the level of the amygdala and the oral pontine reticular nucleus.

L-DOPA-induced activation of striatal p38MAPK and CREB in neonatal dopaminergic denervated rat: Relevance to self-injurious behavior

The destruction of nigrostriatal dopaminergic neurons with 6-hydroxydopamine (6OHDA) during the neonatal period results in dopamine (DA) loss and susceptibility for self-injurious behavior (SIB) when challenged with L-dihydroxyphenylalanine (L-DOPA), via a supersensitive D1 receptor-mediated mechanism. However, there are no changes in D1 receptor binding or mRNA levels, suggesting a potential postreceptor signaling mechanism(s). Here, we examined whether L-DOPA-induced SIB is associated with altered MAPK signaling (p38MAPK, ERK1/2, and JNK) and their nuclear target, CREB. Neonatal dopaminergic lesioned animals were challenged, as adults, with L-DOPA, observed for SIB for 6 hr, and then sacrificed. The data were grouped as follows: control, lesioned rats without SIB (SIB(-)), and lesioned rats that were positive for SIB (SIB(+)). HPLC analysis of striatal extracts revealed a more significant loss of DA and an increase of serotonin in the SIB(+) than in the SIB(-) group. The striatal levels of TH protein were severely decreased, but D1 receptor levels were unaltered in the lesioned groups. These results confirm and extend previous studies indicating that SIB is associated with a near-total loss of DA and TH, an increase in serotonin, and no change in D1 receptor levels. The present studies further revealed that the levels of active phosphorylated forms of p38MAPK and CREB were significantly higher in the SIB(+) group than in the SIB(-) group in the striatum, but not in cortex or olfactory tubercle. The results indicate an induction of striatal p38MAPK and an activation of its nuclear target, CREB, as additional mechanisms in the genesis of L-DOPA-induced SIB.

Effects of atropine on measures of behavioral arousal in rats

Forty-day-old rats were given varying doses (0.0, 7.5, or 15.0 mg/kg/5 ml) of atropine sulfate or atropine methylnitrate and then were tested for levels of behavioral arousal-inhibition. Behavioral measures included transport response intensity, vertical cling catalepsy duration, and dorsal immobility duration. Atropine sulfate produced large increments in transport response intensities, and atropine methylnitrate produced intermediate effects, compared with saline-treated control rats. No drug effect was reported for the measures of vertical cling catalepsy or dorsal immobility. Intraclass correlations among the various behavioral measures in this study revealed a reliable relationship between dorsal immobility duration and transport response intensity in the saline group. Administration of either the methylnitrate or sulfate solution negated this relationship. Results are discussed with respect to (a) possible mechanisms relating dorsal immobility and transport response and (b) reasons for the loss of relationship between the two measures with administration of atropine solutions.