Abstract
The present study examined temporal activation patterns of rat cerebellar cortical neurons in 4-aminopyridine induced seizures, using c-fos protein as a marker of neuronal activity. C-fos-containing cells were counted in each cerebellar cortical layer, and cell count was compared between zebrin II positive and zebrin II negative bands of the lobules of the vermis and cerebellar hemispheres. We found significant activation of granule cells and interneurons of the molecular layer in zebrin II positive bands. The Purkinje cells, in contrast, exhibited non-significant, scattered c-fos immunoreactivity across all bands. Fluctuation of synaptophysin expression in the mossy fibre rosettes of the granular layer was determined via light microscopic immunohistochemistry. We detected a transient, significant decrease in synaptophysin staining density following 4-aminopyridine seizures, which may indicate short-term synaptic depression. We also identified different timing of increased c-fos expression in the neurons of the cerebellar cortex in different cortical zones. In particular, the activation pattern of the interneurons of the molecular layer reflected the climbing fibre distribution, reflecting the zonal olivo-cortico-nuclear organization. Seizure-induced activation of the granule cells corresponded with the zebrin II positive zones. This observation raises the possibility that zebrin II positive compartments may be more susceptible to cerebellar convulsions.
Highlights
Recent immunohistochemical and electrophysio‐ logical studies have revealed intrinsic heterogeneity of the cerebellar cortex (Voogd and Ruigrok, 2004a; Xiao et al, 2014)
It has been demonstrat‐ ed that the expression pattern of zebrin II corresponds to the modular organization of the olivo‐cortico‐nu‐ clear connections (Voogd and Ruigrok 2004a; Sugihara and Quy 2007)
Consistent with previous reports (Mihály et al, 1990, 2001; Szakács et al, 2003; Tóth et al, 2015), i.p. ad‐ ministration of 4‐AP caused characteristic behavioural symptoms, which culminated in generalised ton‐ ic–clonic seizures (GTCS)
Summary
Recent immunohistochemical and electrophysio‐ logical studies have revealed intrinsic heterogeneity of the cerebellar cortex (Voogd and Ruigrok, 2004a; Xiao et al, 2014). The alternation and expansion of the Z(+) and Z(‐) compart‐ ments are best visualized in frontal‐ or horizontal‐plane sections of the cerebellar cortex, or in whole‐mount cerebellar immunohistochemistry (Brochu et al, 1990; Sillitoe and Hawkes, 2002). It has been demonstrat‐ ed that the expression pattern of zebrin II corresponds to the modular organization of the olivo‐cortico‐nu‐ clear connections (Voogd and Ruigrok 2004a; Sugihara and Quy 2007).
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