Cyclosporine-A increases spontaneous and dopamine agonist-induced locomotor behavior in normal rats.

Cyclosporine-A (CsA) has been increasingly used as an immunosuppressant concomitant with neural transplantation treatment for different degenerative disorders. However, the possible role that CsA itself may have in the recovery of transplant patients is not known. Some investigators have argued that clinical improvement following transplantation (e.g., myoblast) may be confounded by CsA administration. The present study was conducted to delineate CsA-induced behavioral alterations. Four groups of normal 5-wk old Sprague-Dawley rats (n = 8 per group) were utilized in two separate experiments. In both experiments, two groups of animals were used; each group either received daily injections of 15 mg/kg of CsA or olive oil for 32 days (experiment 1) and 21 days (experiment 2). Animals in both experiments were subsequently tested for nocturnal locomotor behavior. Animals in experiment 2 were further tested in passive avoidance task, motor coordination, and amphetamine-induced locomotor activity. Results demonstrated that CsA-treated animals were significantly hyperactive compared to controls across the 12-h nocturnal activity periods and in amphetamine-induced locomotor activity. No significant differences between the CsA- and vehicle-treated animals were observed in passive avoidance or in motor coordination. Postmortem analyses of dopamine and its metabolites in the striatum and olfactory tubercle did not show any significant differences between the CsA- and the vehicle-treated groups. In summary, CsA significantly increased nocturnal spontaneous and amphetamine-induced locomotor behavior, but the neurochemical correlates for these effects need to be investigated. In addition, while the present study demonstrated that CsA induced motor alterations, any possible effects CsA may have on neurological or dystrophic patients with motor dysfunctions remain to be determined.

Systemic 3-nitropropionic acid: long-term effects on locomotor behavior.

Systemic administration of 3-nitropropionic acid (3-NP) results in striatal atrophy by irreversibly inhibiting the citric acid cycle, and thereby resulting in cellular ATP depletion. The neuropathological outcome following 3-NP injections is thought to resemble that seen in Huntington's disease (HD) [1]. The current study administered systemic injections in 6- and 10-week-old rats of low-dose 3-NP every other 4 days for a period of 28 days in order to investigate the effects on locomotor behavior and striatal D1 dopamine receptor binding. Experimental and control animals received intraperitoneal injections of 3-NP (10 mg/kg in 0.9% saline) and 0.9% saline, respectively. Animals were tested behaviorally prior to the first and after the last 3-NP administration. Brains were then removed and striatal tissue samples were analyzed for D1 dopamine receptor binding using [3H]SCH23390. Behaviorally, 6-week-old injected animals developed bradykinesia with no signs of stiffness or rigidity, while 10-week-old injected animals displayed an uncoordinated gait, stiffness and ventral recumbency with hind limbs extended in a rigid or fixed position. These visual observations of hypoactivity were supported by a significant decline in both experimental groups' locomotor activity as measured by Digiscan monitors. Furthermore, [3H]SCH23390 specific binding to D1 dopamine receptors revealed a small but significant decrease in 10-week-old injected animals compared to controls. These results demonstrate that both 6- and 10-week-old rats do exhibit behavioral alterations after long-term 3-NP administration, however the former may not show accompanying gross D1 receptor changes.