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Literature DB >> 26050037

Antagonistic but Not Symmetric Regulation of Primary Motor Cortex by Basal Ganglia Direct and Indirect Pathways.

Abstract

Motor cortex, basal ganglia (BG), and thalamus are arranged in a recurrent loop whose activity guides motor actions. In the dominant model of the function of the BG and their role in Parkinson's disease, direct (dSPNs) and indirect (iSPNs) striatal projection neurons are proposed to oppositely modulate cortical activity via BG outputs to thalamus. Here, we test this model by determining how striatal activity modulates primary motor cortex in awake head-restrained mice. We find that, within 200 ms, dSPN and iSPN activation exert robust and opposite effects on the majority of cortical neurons. However, these effects are heterogeneous, with certain cortical neurons biphasically modulated by iSPN stimulation. Moreover, these striatal effects are diminished when the animal performs a motor action. Thus, the effects of dSPN and iSPN activity on cortex are at times antagonistic, consistent with classic models, whereas in other contexts these effects can be occluded or coactive.

Entities: Chemical Disease Gene Species

Mesh：

Year: 2015 PMID： 26050037 PMCID： PMC4458709 DOI： 10.1016/j.neuron.2015.05.008

Source DB: PubMed Journal: Neuron ISSN： 0896-6273 Impact factor: 17.173

26 in total

1. Regulation of parkinsonian motor behaviours by optogenetic control of basal ganglia circuitry.

Authors: Alexxai V Kravitz; Benjamin S Freeze; Philip R L Parker; Kenneth Kay; Myo T Thwin; Karl Deisseroth; Anatol C Kreitzer
Journal: Nature Date: 2010-07-07 Impact factor: 49.962

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Authors: G E Alexander; M D Crutcher
Journal: Trends Neurosci Date: 1990-07 Impact factor: 13.837

3. Distinct patterns of striatal medium spiny neuron activity during the natural sleep-wake cycle.

Authors: Séverine Mahon; Nicolas Vautrelle; Laurent Pezard; Seán J Slaght; Jean-Michel Deniau; Guy Chouvet; Stéphane Charpier
Journal: J Neurosci Date: 2006-11-29 Impact factor: 6.167

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Authors: R L Albin; A B Young; J B Penney
Journal: Trends Neurosci Date: 1989-10 Impact factor: 13.837

5. Functional properties of monkey caudate neurons. I. Activities related to saccadic eye movements.

Authors: O Hikosaka; M Sakamoto; S Usui
Journal: J Neurophysiol Date: 1989-04 Impact factor: 2.714

6. Distinct subclasses of medium spiny neurons differentially regulate striatal motor behaviors.

Authors: Helen S Bateup; Emanuela Santini; Weixing Shen; Shari Birnbaum; Emmanuel Valjent; D James Surmeier; Gilberto Fisone; Eric J Nestler; Paul Greengard
Journal: Proc Natl Acad Sci U S A Date: 2010-08-03 Impact factor: 11.205

7. Disinhibition as a basic process in the expression of striatal functions. II. The striato-nigral influence on thalamocortical cells of the ventromedial thalamic nucleus.

Authors: J M Deniau; G Chevalier
Journal: Brain Res Date: 1985-05-20 Impact factor: 3.252

Review 8. Primate models of movement disorders of basal ganglia origin.

Authors: M R DeLong
Journal: Trends Neurosci Date: 1990-07 Impact factor: 13.837

9. D1 and D2 dopamine receptor-regulated gene expression of striatonigral and striatopallidal neurons.

Authors: C R Gerfen; T M Engber; L C Mahan; Z Susel; T N Chase; F J Monsma; D R Sibley
Journal: Science Date: 1990-12-07 Impact factor: 47.728

10. Apomorphine and haloperidol effects on striatal 3H-dopamine release in anesthetized, awake restrained and freely moving rats.

Authors: U Spampinato; J A Girault; J Danguir; H E Savaki; J Glowinski; M J Besson
Journal: Brain Res Bull Date: 1986-02 Impact factor: 4.077

51 in total

Antagonistic but Not Symmetric Regulation of Primary Motor Cortex by Basal Ganglia Direct and Indirect Pathways.

1. Regulation of parkinsonian motor behaviours by optogenetic control of basal ganglia circuitry.

Review 2. Functional architecture of basal ganglia circuits: neural substrates of parallel processing.

3. Distinct patterns of striatal medium spiny neuron activity during the natural sleep-wake cycle.

Review 4. The functional anatomy of basal ganglia disorders.

5. Functional properties of monkey caudate neurons. I. Activities related to saccadic eye movements.

6. Distinct subclasses of medium spiny neurons differentially regulate striatal motor behaviors.

7. Disinhibition as a basic process in the expression of striatal functions. II. The striato-nigral influence on thalamocortical cells of the ventromedial thalamic nucleus.

Review 8. Primate models of movement disorders of basal ganglia origin.

9. D1 and D2 dopamine receptor-regulated gene expression of striatonigral and striatopallidal neurons.

10. Apomorphine and haloperidol effects on striatal 3H-dopamine release in anesthetized, awake restrained and freely moving rats.

Review 1. Striatal circuits for reward learning and decision-making.

2. Biased competition in the absence of input bias revealed through corticostriatal computation.

3. Glutamatergic Innervation onto Striatal Neurons Potentiates GABAergic Synaptic Output.

4. Differential encoding of action selection by orbitofrontal and striatal population dynamics.

5. Parvalbumin Interneurons Modulate Striatal Output and Enhance Performance during Associative Learning.

Review 6. A Pause-then-Cancel model of stopping: evidence from basal ganglia neurophysiology.

Review 7. Neural circuitry for behavioural arrest.

Review 8. The functional logic of corticostriatal connections.

9. An open cortico-basal ganglia loop allows limbic control over motor output via the nigrothalamic pathway.

10. Spatially Compact Neural Clusters in the Dorsal Striatum Encode Locomotion Relevant Information.