Striatal dopamine explains novelty-induced behavioral dynamics and individual variability in threat prediction

Akiti, Korleki; Tsutsui-Kimura, Iku; Xie, Yu; Mathis, Alexander; Markowitz, Jeffrey E.; Anyoha, Rockwell; Datta, Sandeep Robert; Mathis, Mackenzie Weygandt; Uchida, Naoshige; Watabe-Uchida, Mitsuko

doi:10.1101/2021.12.21.473723

Cited by 6 publications

(16 citation statements)

References 81 publications

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“…While previous work found differences in the intrinsic properties of mesolimbic dopamine (DA) neurons in susceptible and resilient individuals after stress was over; [3][4][5][6][7][8][9][10] the causal links between DA activity during stress, dynamic stress-evoked behavior, and individual differences in susceptibility and resilience are not known. Here, we record behavior and neural activity in DA projections to the nucleus accumbens (NAc, signals reward [11][12][13][14] ) and to the tail striatum (TS, signals threat [15][16][17][18] ) during a multiday chronic social defeat paradigm and discover behavioral and neural signatures of resilience. Using supervised and unsupervised behavioral quantification, we find that resilient and susceptible individuals employ different behavioral strategies during stress.…”

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confidence: 99%

“…In addition, different DA projections in the striatum are known to perform distinct roles 38 . DA projections to the tail of the striatum (TS) are primarily from the lateral substantia nigra and are active in response to threatening [15][16][17][18] or alarming 39 stimuli. DA projections from the ventral tegmental area (VTA) to the nucleus accumbens (NAc) respond vigorously to rewards such as palatable food [11][12][13][14] and non-aggressive social investigation 40,14 .…”

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confidence: 99%

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Behavioral and dopaminergic signatures of resilience

Willmore

Cameron

Yang

et al. 2022

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Chronic stress can have lasting adverse consequences in some individuals, yet others are resilient to the same stressor1,2. While previous work found differences in the intrinsic properties of mesolimbic dopamine (DA) neurons in susceptible and resilient individuals after stress was over;3-10 the causal links between DA activity during stress, dynamic stress-evoked behavior, and individual differences in susceptibility and resilience are not known. Here, we record behavior and neural activity in DA projections to the nucleus accumbens (NAc, signals reward11-14) and to the tail striatum (TS, signals threat15-18) during a multiday chronic social defeat paradigm and discover behavioral and neural signatures of resilience. Using supervised and unsupervised behavioral quantification, we find that resilient and susceptible individuals employ different behavioral strategies during stress. In addition, NAc-DA (but not TS-DA) activity is higher in the proximity of the aggressor in resilient mice, consistent with a greater subjective value of the aggressor. Moreover, NAc-DA tends to be elevated at the onset of fighting back in resilient mice and at the offset of attacks in susceptible mice. To test whether DA activation during defeat can generate resilience, and if its timing with respect to behavior is critical, we performed optogenetic stimulation of NAc-DA in open-loop (randomly timed) during defeat or timed to specific behaviors using real-time pose-tracking and behavioral classification. We find that both open-loop DA activation and fighting-back-timed activation promote resilience, in both cases reorganizing behavior during defeat toward resilience-associated patterns. Attack offset-timed activation promotes avoidance during defeat but does not promote susceptibility afterwards. Together, these data suggest a model whereby, during stress, DA in the NAc can increase resilience primarily by elevating the subjective value of the stressor rather than by reinforcing particular stress-responsive behaviors.

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confidence: 99%

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confidence: 99%

Behavioral and dopaminergic signatures of resilience

Willmore

Cameron

Yang

et al. 2022

Preprint

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“…What is the relationship between stimulus intensity and threat avoidance? We previously proposed that TS dopamine signals physical salience of a stimulus as an initial estimate of threat level (Akiti et al, 2021), although the idea had not been tested experimentally. To address this, we next examined the relationship between physical salience of a threatening stimulus, TS dopamine activity, and avoidance behaviors (Figure 5A-D).…”

Section: Resultsmentioning

confidence: 99%

“…In the monster paradigm, we found that mice displayed dynamical threat management with avoidance, prediction, and overcoming of threat manifesting at different stages. We focused on TS, because we previously found that dopamine in TS is important for avoidance of a potential threat including a novel object (Akiti et al, 2021; Menegas et al, 2018). Interestingly, phasic dopamine responses in TS are modulated by various parameters that are known to affect physical salience of external stimuli (Menegas et al, 2018), suggesting that an initial estimate of the threat level is shaped by physical salience conveyed by phasic TS dopamine responses (Akiti et al, 2021).…”

Section: Discussionmentioning

confidence: 99%

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Dynamical management of potential threats regulated by dopamine and direct- and indirect-pathway neurons in the tail of the striatum

Tsutsui-Kimura

Uchida

Watabe-Uchida

2022

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Avoiding potential threats before experiencing an actual outcome is critical to prevent a disaster. Here we examined roles of the tail of the striatum (TS) and its dopamine input in threat management. Mice were presented with a potential threat (a moving object) while pursuing rewards. Mice initially failed to obtain rewards, but gradually successfully obtained rewards in later trials. We show that the initial failures depended on dopamine and direct-pathway neurons in TS, and variability in failure rate across trials and individuals was positively correlated with the activity of these neurons. In contrast, indirect-pathway neurons in TS were critical for eventual improvement in reward acquisition, and their activity was positively correlated with successful reward acquisition. These results demonstrate that direct- and indirect-pathway TS neurons promote and suppress threat avoidance, respectively, at different stages, providing a mechanism for overcoming a potential threat while maintaining the threat estimates.

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The curse of optimism: a persistent distraction by novelty

Modirshanechi

Lin

et al. 2022

Preprint

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Human curiosity has been interpreted as a drive for exploration and modeled by intrinsically motivated reinforcement learning algorithms. An unresolved challenge in machine learning is that these algorithms are prone to distraction by reward-independent stochastic stimuli. We ask whether humans exhibit the same distraction pattern in their behavior as the algorithms. To answer this question, we design a multi-step decision-making paradigm containing an unknown number of states in a stochastic part of the environment, combined with a reward-manipulation that varies optimism of participants regarding the availability of rewards. We show that (i) participants exhibit a persistent distraction by novelty in the stochastic part; (ii) reward optimism increases this distraction; and (iii) the persistent distraction is consistent with the predictions of algorithms driven by novelty but not with ‘optimal’ algorithms driven by information-gain. Our results suggest that humans use sup-optimal but computationally cheap curiosity-driven policies for exploration in complex environments.

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Striatal dopamine explains novelty-induced behavioral dynamics and individual variability in threat prediction

Cited by 6 publications

References 81 publications

Behavioral and dopaminergic signatures of resilience

Behavioral and dopaminergic signatures of resilience

Dynamical management of potential threats regulated by dopamine and direct- and indirect-pathway neurons in the tail of the striatum

The curse of optimism: a persistent distraction by novelty

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