Polyamines increase in the brain stem and cerebellum following labyrinthectomy.
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The goal of this investigation was to test the hypothesis that unilateral damage to the vestibular end-organ (labyrinthectomy) stimulates polyamine synthesis in central vestibular neural structures that mediate the process of behavioral recovery (vestibular compensation). Pharmacological studies have shown that compensation can be altered by alpha-difluoromethylornithine (DFMO), a specific inhibitor of polyamine synthesis. Because polyamines are important in regeneration, development and modulation of N-methyl-D-aspartate (NMDA) excitatory amino acid receptors, which mediate vestibular synaptic plasticity, we investigated changes in polyamines in specific central vestibular structures after unilateral labyrinthectomy. The supernatant fraction of brain tissue homogenates was reacted with dansyl chloride. Dansylated polyamine derivatives were quantified in the vestibular nuclei, cerebellum, and inferior olive in both the control and the unilaterally labyrinthectomized guinea pig by high-performance liquid chromatography-fluorometric detection. No left-right differences in putrescine, spermidine, or spermine were detected in any brain parenchyma of controls. Polyamine imbalance, characterized by increased spermidine in the ipsilateral medial and lateral vestibular nuclei, was noted 12 and 24 h after unilateral labyrinthectomy (UL). In contrast, spermidine, spermine, and putrescine were elevated bilaterally in the cerebellum and inferior olive after UL. These biochemical changes may represent neuronal modifications to establish a balance between the vestibular nuclei after unilateral labyrinthectomy. Elucidation of the role of polyamines in central vestibular function and in vestibular compensation offers promise for the development of novel therapeutic strategies for treatment of vestibular disorders.