Neonatal, bilateral lesion of the ventral hippocampus (VH) in rats recently has been proposed as a model of schizophrenia because these animals show postpubertal hypersensitivity to stress and to dopamine (DA) agonists that can be reversed by neuroleptic treatment. In search of the mechanisms of postpubertal emergence of hyperdopaminergic behavior in this model, we investigated developmental expressions of DA D1, D2, and D3 receptors in various striatal and limbic subregions of rats that had received bilateral ibotenic acid lesion of the VH at postnatal day 7 (PD7). D-Amphetamine-, apomorphine-, and stress-induced changes in locomotor activity were measured and, in accordance with previous reports, we observed an increased locomotor activity at PD56 in the hippocampal-lesioned group. The expression of DA D1, D2, and D3 receptors was then estimated in these rats by ligand autoradiography at PD41 and PD62. We observed that the levels of DA D3 receptors, as measured by tritiated 7-hydroxy-N,N-di-n-propyl-2-amino-tetralin ([3H]7-OH-DPAT) binding, are markedly reduced at PD62 in the limbic areas of lesioned rats compared with sham controls particularly in the nucleus accumbens, olfactory tubercles, and islands of Calleja. A small but significant increase in D1 receptors was also seen in the caudate-putamen of the lesioned animals at PD62, whereas no significant change in the overall expression of D2 receptors ([3H]spiperone binding) was noted. In view of the inhibitory role of D3 receptors on locomotion and, presumably, other DA-mediated behaviors, it is suggested that behavioral changes in the neonatally hippocampal-lesioned rats may be mediated by altered D3 receptor levels.
Prenatal stress alters neuronal morphology of mesocorticolimbic structures such as frontal cortex and hippocampus in the adult offspring. We investigated here the effects of prenatal stress on the spine density and the dendrite morphology of hippocampal pyramidal neurons and medium spiny cells from nucleus accumbens in prepubertal and adult male offsprings. Sprague-Dawley pregnant dams were stressed by restraining movement daily for 2 hours from gestational day 11 until delivery. Control mothers remained free in their home cage without water and food during the stressful event. Male offsprings from immobilized and control rats were left to grow until postnatal day (PD) 35 for the prepubertal group, and until PD 65 for the adult group. Spontaneous locomotor activity was assessed and then brains were removed to study the dendritic morphology by the Golgi-Cox stain method followed by Sholl analysis. Prenatally stressed animals demonstrated increased locomotion and alterations in spine density in the hippocampus and nucleus accumbens at both ages. However, prepubertal males showed an increase in spine density in the CA1 hippocampus with a decrease in CA3 hippocampus, whereas the adult group showed a decrease in the spine density in both of the regions studied. These results suggest that prenatal stress carried out during the middle of pregnancy affect the spine density and basal dendrites of pyramidal neurons of hippocampus, as well as the dendritic morphology of nucleus accumbens which may reflect important changes in the mesocorticolimbic dopaminergic transmission and behaviors associated with the development of psychiatric diseases such as schizophrenia.
Functional and structural abnormalities in the medial prefrontal cortex (MPFC) and overactive dopamine (DA) neurotransmission are thought to be the key pathologies in schizophrenia. To understand the role of MPFC in the pre- and postpubertal development of the subcortical DA system, the effects of neonatal [postnatal day 7 (PD7)] MPFC excitotoxic lesions on locomotor behaviors and the expression of DA receptor subtypes and DA transporter were investigated in Sprague Dawley rats at PD35 and PD56, respectively. No significant differences in the novelty of d-amphetamine-induced locomotion were observed between sham-operated and ibotenic acid-lesioned rats at PD35. Postpubertally (at PD56), however, the locomotor activity of lesioned rats in the novel environment and after d-amphetamine administration was enhanced significantly compared with controls. The expressions of DA D1, D2, D3, and D4 receptors and DA transporter were then estimated in MPFC-lesioned and sham-operated rats at PD59 and PD60. The levels of DA D2 receptors, measured using [3H]-YM-09151-2 binding, and its mRNA by in situ hybridization, were observed to be significantly increased at PD60 in striatal and limbic areas of lesioned rats. Levels of other DA receptor subtypes were not significantly affected at any time points. Lesioned rats at PD39 show a small increase in DA transporter level in the shell of nucleus accumbens; however, this effect seems to wear off at PD60. The data suggest that neonatal MPFC lesions may alter the functional development and maturation of mesolimbic/nigrostriatal DA systems in that neonatally lesioned rats grow into a behavioral/neurochemical deficit.
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