Leif Gibb scite author profile

SUMMARY A striking neurochemical form of compartmentalization has been found in the striatum of humans and other species, dividing it into striosomes and matrix. The function of this organization has been unclear, but the anatomical connections of striosomes indicate their relation to emotion-related brain regions including the medial prefrontal cortex. We capitalized on this fact by combining pathway-specific optogenetics and electrophysiology in behaving rats to search for selective functions of striosomes. We demonstrate that a medial prefronto-striosomal circuit is selectively active in and causally necessary for cost-benefit decision-making under approach-avoidance conflict conditions known to evoke anxiety in humans. We show that this circuit has unique dynamic properties likely reflecting striatal interneuron function. These findings demonstrate that cognitive and emotion-related functions are, like sensory-motor processing, subject to encoding within compartmentally organized representations in the forebrain, and suggest that striosome-targeting corticostriatal circuits can underlie neural processing of decisions fundamental for survival.

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Chronic Stress Alters Striosome-Circuit Dynamics, Leading to Aberrant Decision-Making

Friedman

Homma

Bloem

et al. 2017

Cell

133

139

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SUMMARY Effective evaluation of costs and benefits is a core survival capacity that in humans is considered as optimal, ’rational’ decision-making. This capacity is vulnerable in neuropsychiatric disorders and in the aftermath of chronic stress, in which aberrant choices and high-risk behaviors occur. We report that chronic stress exposure in rodents produces abnormal evaluation of costs and benefits resembling non-optimal decision-making in which choices of high-cost/high-reward options are sharply increased. Concomitantly, alterations in the task-related spike activity of medial prefrontal neurons correspond to increased activity of their striosome-predominant striatal projection neuron targets and to decreased and delayed striatal fast-firing interneuron activity. These effects of chronic stress on prefronto-striatal circuit dynamics could be blocked, or be mimicked, by selective optogenetic manipulation of these circuits. We suggest that altered excitation-inhibition dynamics of striosome-based circuit function could be an underlying mechanism by which chronic stress contributes to disorders characterized by aberrant decision-making under conflict.

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Radial Glial Lineage Progression and Differential Intermediate Progenitor Amplification Underlie Striatal Compartments and Circuit Organization

Kelly

Raudales

et al. 2018

Neuron

102

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The circuitry of the striatum is characterized by two organizational plans: the division into striosome and matrix compartments, thought to mediate evaluation and action, and the direct and indirect pathways, thought to promote or suppress behavior. The developmental origins of these organizations and their developmental relationships are unknown, leaving a conceptual gap in understanding the cortico-basal ganglia system. Through genetic fate mapping, we demonstrate that striosome-matrix compartmentalization arises from a lineage program embedded in lateral ganglionic eminence radial glial progenitors mediating neurogenesis through two distinct types of intermediate progenitors (IPs). The early phase of this program produces striosomal spiny projection neurons (SPNs) through fate-restricted apical IPs (aIPs) with limited capacity; the late phase produces matrix SPNs through fate-restricted basal IPs (bIPs) with expanded capacity. Notably, direct and indirect pathway SPNs arise within both aIP and bIP pools, suggesting that striosome-matrix architecture is the fundamental organizational plan of basal ganglia circuitry.

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Leif Gibb

A Corticostriatal Path Targeting Striosomes Controls Decision-Making under Conflict

Chronic Stress Alters Striosome-Circuit Dynamics, Leading to Aberrant Decision-Making

Radial Glial Lineage Progression and Differential Intermediate Progenitor Amplification Underlie Striatal Compartments and Circuit Organization

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