Intrastriatal injection of colchicine induces striatonigral degeneration in mice

Abstract

Recent studies from environmental toxicology and molecular genetics demonstrate that midbrain dopamine (DA) neurons are particularly vulnerable to microtubule depolymerizing agents, indicating the involvement of microtubule dysfunction in the pathogenesis of Parkinson's disease. Here we show that intrastriatal injection of colchicine (COL), a well-known microtubule disruptor, induced degeneration of striatonigral pathway. Microtubule disruption caused by unilateral injection of COL blocked the retrograde axonal transport of fluorogold previously injected into striatum and induced substantial death of striatal and DA neurons in substantia nigra pars compacta. Furthermore, COL-induced pathologic changes were associated with robust glial reaction, which may be conducive to the degeneration of striatonigral pathway. We also found that intrastriatal injection of COL resulted in side bias in spontaneous turning activities and apomorphine-induced rotational behavior. Together, our results provide in vivo data lending support to the concept that microtubule dysfunction may play a significant role in the death of DA neurons, though glial reaction may be involved and contribute to the degenerative process. Moreover, intrastriatal COL may serve as another experimental model of striatonigral degeneration (Parkinson's variant of multiple system atrophy), given the concurrent loss of both striatal and DA neurons.