Sigma (σ) receptors have generated a great deal of interest due to their possible role in psychosis, neuroprotection, and various other behaviors including addictive processes. Sigma receptors have been located in brain areas involved in motor functions, including the dopaminergic projections from the substantia nigra to the striatum. Evidence suggests that one of their major roles might be to regulate the activity of the glutamatergic system via the N-methyl-D-aspartate receptor. The sigma receptor agonist 1,3-di-o-tolyl-guanidine (DTG) was found to increase dopamine release in the striatum, nucleus accumbens, and prefrontal cortex, in a dose-dependent manner, after central as well as peripheral administration, suggesting a modulatory role of these receptors on the dopaminergic system. The present study examines whether chronic administration of the DTG sigma agonist induces neuromorphological and behavioral changes in neonatal ventral hippocampal lesioned (nVHL) rats as a neurodevelopmental model of schizophrenia. The results show that the DTG administration reduces the hyperlocomotor activity in nVHL rats and reverses the neuronal hypotrophy generated in nVHL rats in the prefrontal cortex, amygdala, and nucleus accumbens. Our results demonstrate that DTG, a sigma-1 receptor agonist, reverses some of the behavioral and neuromorphological effects of nVHL on the rat and supports the possibility that DTG may have beneficial effects in the management of symptoms of schizophrenia.
Valproic acid (VPA) is used in the treatment of epilepsy and behavioral disorders. However, the exposure to VPA during pregnancy increases the risk of having offspring with autism spectrum disorder (ASD). Reports indicate that men are more likely to suffer ASD than women who were exposed to VPA prenatally. Few studies have related the sex differences and behavioral changes in the ASD rat model. Our aim was to determinate whether male and female Wistar rats whose mothers were exposed to either VPA (600 mg/kg; animal model for ASD) or saline (0.9%) i.p. at 12.5 day of gestation, have different effects on immobility induce by clamping (IC), dorsal immobility (DI), catalepsy, locomotor activity, stereotypes, and analgesia (tail flick). For this purpose, we made four groups (n = 8). Group: A) saline male rats, B) saline female rats, C) VPA male rats and D) VPA female rats. At 35 (prepubertal age), 56 (postpubertal age) and 180 days, we tested the behaviors previously mentioned. Finding that VPA has the same effect on IC, catalepsy, and analgesia in male and female rats, the time of these tests was increased. However, VPA only has an effect on DI in males but not in female rats. On the contrary, there is hyperactivity and an increase of stereotypes in female but not in male rats. Thereby, VPA has an effect on the three immobility responses tested (IC, DI and catalepsy), locomotor activity and analgesia but in a differential way on DI, stereotypes and locomotor activity between male and female rats.
Four immobility responses (IR): elicited by clamping, bandaging, grasping and inversion, and their modification by potassium and spironolactone was studied in old Wistar rats (body weight, 500 g). When undrugged, only clamping and grasping, but not bandaging and inversion induced an IR in rats. Potassium and spironolactone significantly enhanced the duration of IR induced by clamping but not by grasping. They also induced an immobility response by bandaging, but not by inversion. The data suggest that IR induced by clamping and bandaging are somehow related to changes in the potassium serum levels. Consequently, such a relationship may be a suitable model to study some forms of paralysis in human beings which are related to changes in the potassium serum levels.
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