Rationale <p>Recent research on habits and skills has produced a wave of new theories regarding the shift in control from medial to lateral regions of the dorsal striatum, and how these regions are implicated in the selected and executed of action sequences.</p> Objectives <p>To examine the comparative effects of muscimol/baclofen inactivation and dopamine D1 and D2 receptor agents in the dorsomedial (DMS) and dorsolateral (DLS) striatum on the performance of skilled action sequences.</p> Methods <p>Infusions were made in well-trained male rats using the five-step nose poke task to isolate the effects on initiation, execution and termination components of skilled action sequences.</p> Results <p>DLS inactivation produced sequencing deficits like those observed with pre-training lesions, indicating that the DLS is critical for both the acquisition and performance of sequences. Behaviour was unchanged following DMS inactivation, consistent with models of DMS disengagement following training. Infusions of D1 and D2 antagonists did not alter behaviour, however the D2 receptor agonist quinpirole increased sequence errors at a low dose and reduced sequences at the high dose in the DLS. DLS manipulations impaired sequence initiation and termination as well as reward transitions, while the ‘chunking’ ballistic response pattern was largely unaltered, indicating that between- but not within-sequence actions rely on the DLS.</p> Conclusions <p>Skilled action sequencing, including ‘chunk’ transitions was regulated by DLS and modulation of D2 receptors, but not DMS function. Using a novel sequencing task, these results demonstrate the dissociable role of the dorsal striatum subregions in performing skilled motor actions.</p>

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Comparative effects of inactivation and dopamine receptor agents in the dorsolateral and dorsomedial striatum on performance of action sequences in rats

  • Karly M. Turner,
  • Anna Svegborn,
  • Trevor W. Robbins

摘要

Rationale

Recent research on habits and skills has produced a wave of new theories regarding the shift in control from medial to lateral regions of the dorsal striatum, and how these regions are implicated in the selected and executed of action sequences.

Objectives

To examine the comparative effects of muscimol/baclofen inactivation and dopamine D1 and D2 receptor agents in the dorsomedial (DMS) and dorsolateral (DLS) striatum on the performance of skilled action sequences.

Methods

Infusions were made in well-trained male rats using the five-step nose poke task to isolate the effects on initiation, execution and termination components of skilled action sequences.

Results

DLS inactivation produced sequencing deficits like those observed with pre-training lesions, indicating that the DLS is critical for both the acquisition and performance of sequences. Behaviour was unchanged following DMS inactivation, consistent with models of DMS disengagement following training. Infusions of D1 and D2 antagonists did not alter behaviour, however the D2 receptor agonist quinpirole increased sequence errors at a low dose and reduced sequences at the high dose in the DLS. DLS manipulations impaired sequence initiation and termination as well as reward transitions, while the ‘chunking’ ballistic response pattern was largely unaltered, indicating that between- but not within-sequence actions rely on the DLS.

Conclusions

Skilled action sequencing, including ‘chunk’ transitions was regulated by DLS and modulation of D2 receptors, but not DMS function. Using a novel sequencing task, these results demonstrate the dissociable role of the dorsal striatum subregions in performing skilled motor actions.