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1.
Cell Rep ; 42(1): 112000, 2023 01 31.
Artículo en Inglés | MEDLINE | ID: mdl-36656714

RESUMEN

Cerebellar-thalamo-striatal synaptic communication has been implicated in a wide range of behaviors, including goal-directed actions, and is altered in cerebellar dystonia. However, its detailed connectivity through the thalamus and its contribution to the execution of forelimb movements is unclear. Here, we use trans-synaptic and retrograde tracing, ex vivo slice recordings, and optogenetic inhibitions during the execution of unidirectional or sequential joystick displacements to demonstrate that the deep cerebellar nuclei (DCN) influence the dorsal striatum with a very high probability. We show that this mainly occurs through the centrolateral (CL), parafascicular (PF), and ventrolateral (VL) nuclei of the thalamus, observing that the DCN→VL and DCN→CL pathways contribute to the execution of unidirectional forelimb displacements while the DCN→PF and DCN→thalamo→striatal pathways contribute to the appropriate execution of forelimb reaching and sequential displacements. These findings highlight specific contributions of the different cerebellar-thalamo-striatal paths to the control of skilled forelimb movement.


Asunto(s)
Núcleos Cerebelosos , Cuerpo Estriado , Animales , Tálamo , Cerebelo , Movimiento , Miembro Anterior
2.
Nat Commun ; 14(1): 1920, 2023 04 06.
Artículo en Inglés | MEDLINE | ID: mdl-37024449

RESUMEN

Fronto-striatal circuits have been implicated in cognitive control of behavioral output for social and appetitive rewards. The functional diversity of prefrontal cortical populations is strongly dependent on their synaptic targets, with control of motor output mediated by connectivity to dorsal striatum. Despite evidence for functional diversity along the anterior-posterior striatal axis, it is unclear how distinct fronto-striatal sub-circuits support value-based choice. Here we found segregated prefrontal populations defined by anterior/posterior dorsomedial striatal target. During a feedback-based 2-alternative choice task, single-photon imaging revealed circuit-specific representations of task-relevant information with prelimbic neurons targeting anterior DMS (PL::A-DMS) robustly modulated during choices and negative outcomes, while prelimbic neurons targeting posterior DMS (PL::P-DMS) encoded internal representations of value and positive outcomes contingent on prior choice. Consistent with this distributed coding, optogenetic inhibition of PL::A-DMS circuits strongly impacted choice monitoring and responses to negative outcomes while inhibition of PL::P-DMS impaired task engagement and strategies following positive outcomes. Together our data uncover PL populations engaged in distributed processing for value-based choice.


Asunto(s)
Cuerpo Estriado , Neostriado , Ratones , Masculino , Animales , Cuerpo Estriado/fisiología , Corteza Prefrontal/fisiología , Inhibición Psicológica
3.
Trends Neurosci ; 45(9): 649-650, 2022 09.
Artículo en Inglés | MEDLINE | ID: mdl-35690496

RESUMEN

In a recent study, Bolkan, Stone, and colleagues demonstrated that direct and indirect striatal pathways in mice exert opponent control over choice behavior in a task- and state-dependent manner. This work highlights the need for rigorously controlled behavioral experiments and novel behavioral modeling in investigations of the neural mechanisms of decision making.


Asunto(s)
Cognición , Cuerpo Estriado , Animales , Conducta de Elección , Toma de Decisiones , Ratones , Vías Nerviosas
4.
eNeuro ; 8(5)2021.
Artículo en Inglés | MEDLINE | ID: mdl-34465613

RESUMEN

Striatal activity is necessary to initiate and execute sequences of actions. The main excitatory input to the striatum comes from the cortex. While it is hypothesized that motor and premotor cortico-striatal projections are important to guide striatal activity during the execution of sequences of actions, technical limitations have made this challenging to address. Here, we implemented a task in mice that allows for the study of different moments to execute a serial order sequence consisting of two subsequences of actions. Using this task, we performed electrophysiological recordings in the premotor (M2) and primary motor (M1) cortices, and state-dependent optogenetic inhibitions of their cortico-striatal projections. We show that while both M2 and M1 contain activity modulations related to the execution of self-paced sequences, mainly, the premotor cortico-striatal projections contribute to the proper execution/structuring of these sequences.


Asunto(s)
Cuerpo Estriado , Optogenética , Animales , Corteza Cerebral , Ratones , Neostriado
5.
Neuron ; 100(3): 739-752.e5, 2018 11 07.
Artículo en Inglés | MEDLINE | ID: mdl-30344045

RESUMEN

One of the main inputs driving striatal activity is the thalamostriatal projection. While the hypothesis postulating that the different thalamostriatal projections contribute differentially to shape the functions of the striatum is largely accepted, existing technical limitations have hampered efforts to prove it. Here, through the use of electrophysiological recordings of antidromically photo-identified thalamostriatal neurons and the optogenetic inhibition of thalamostriatal terminals, we identify that the thalamostriatal projections from the parafascicular and the ventroposterior regions of the thalamus contribute to the smooth initiation and the appropriate execution of a sequence of movements. Our results support a model in which both thalamostriatal projections have specific contributions to the initiation and execution of sequences, highlighting the specific contribution of the ventroposterior thalamostriatal connection for the repetition of actions.


Asunto(s)
Cuerpo Estriado/fisiología , Intención , Movimiento/fisiología , Red Nerviosa/fisiología , Tálamo/fisiología , Animales , Cuerpo Estriado/química , Femenino , Masculino , Ratones , Ratones Endogámicos C57BL , Red Nerviosa/química , Optogenética/métodos , Tálamo/química
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