Abstract
Several recent studies have demonstrated that the cerebellum plays an important role in temporal processing at the scale of milliseconds. However, it is not clear whether intrinsic cerebellar function involves the temporal processing of discrete or continuous events. Temporal processing during discrete events functions by counting absolute time like a stopwatch, while during continuous events it measures events at intervals. During the temporal processing of continuous events, animals might respond to rhythmic timing of sequential responses rather than to the absolute durations of intervals. Here, we tested the contribution of the cerebellar cortex to temporal processing of absolute and relative timings in voluntary movements. We injected muscimol and baclofen to a part of the cerebellar cortex of rats. We then tested the accuracy of their absolute or relative timing prediction using two timing tasks requiring almost identical reaching movements. Inactivation of the cerebellar cortex disrupted accurate temporal prediction in the absolute timing task. The rats formed two groups based on the changes to their timing accuracy following one of two distinct patterns which can be described as longer or shorter declines in the accuracy of learned intervals. However, a part of the cerebellar cortical inactivation did not affect the rats’ performance of relative timing tasks. We concluded that a part of the cerebellar cortex, Crus II, contributes to the accurate temporal prediction of absolute timing and that the entire cerebellar cortex may be unnecessary in cases in which accurately knowing the absolute duration of an interval is not required for temporal prediction.
Highlights
Research on the cerebellum has in recent years focused on the cognitive functions, until the beginning of the 1990s the role of the cerebellum was thought to be solely the control of motor functions (Ito, 2008)
Our histological examination has confirmed that the cannulas were inserted into same targeted areas in all eight rats and that the injections of the inactivation and sham solutions, in Rat 7 and 8, reached the target areas, namely, the Crus II and paramedian lobule, which are involved in arm and paw movements (Apps and Hawkes, 2009; see Histology, Figure 1B)
There was no difference in body weights between the sham and inactivation conditions in any of the rats (Table 1), indicating that behavioral performance could not have been affected by motivation or body condition, since body condition did not change
Summary
Research on the cerebellum has in recent years focused on the cognitive functions, until the beginning of the 1990s the role of the cerebellum was thought to be solely the control of motor functions (Ito, 2008). It has been suggested that the cerebellum plays an important role in rapid temporal processing (on the scale of milliseconds) than in any other cognitive function (Galliano et al, 2013; Rahmati et al, 2014). The question of whether the cerebellar timing function is involved in the temporal processing of discrete or continuous events has been controversial (Ivry et al, 2002; Yamaguchi and Sakurai, 2014b). A brain stimulation study (Grube et al, 2010) has reported that the cerebellum was only involved in the temporal processing of the absolute time at which discrete events occurred. Other research on impairment (Bo et al, 2008) and electrophysiology (Ohmae et al, 2013) has suggested that the cerebellum is important for both absolute and continuous (relative) timings.
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