Levodopa/Benserazide PLGA Microsphere Prevents L-Dopa-Induced Dyskinesia via Lower ß-Arrestin2 in 6-Hydroxydopamine Parkinson's Rats.

ABSTRACT

Prolonged pulsatile administration of Levodopa (L-dopa) can generate L-dopa-induced dyskinesia (LID). Numerous research has reported that continuous dopamine delivery (CDD) was useful in reducing the severity of LID. 6-OHDA lesioned rats were divided into two groups to receive intermittent L-dopa stimulation (L-dopa/benserazide) or Levodopa/benserazide PLGA microsphere (LBPM) for 3 weeks. rAAV (recombinant adeno-associated virus) vector was used to overexpress and ablation of ß-arrestin2. We found that LBPM developed less AIM severity compared with standard L-dopa administration, whereas selective deletion of ß-arrestin2 in striatum neurons dramatically enhanced the severity of dyskinesia by LBPM. On the contrary, the effects of LBPM in terms of ALO AIM were further relieved by ß-arrestin2 overexpression. Furthermore, no significant change in motor behavior was seen either in inhibition or overexpression of ß-arrestin2. In short, our experiments provided evidence that LBPM's prevention of LID behavior was likely due to ß-arrestin2, suggesting that a therapy modulating ß-arrestin2 may offer a more efficient anti-dyskinetic method with a low risk of untoward effects.