The nucleus accumbens core is necessary to scale fear to degree of threat

McDannald

2021

Current Biology

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Section: Introductionmentioning

confidence: 99%

Retrorubral field is a hub for diverse threat and aversive outcome signals

McDannald

2021

Current Biology

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“…Our laboratory has observed robust danger, uncertainty, and safety discrimination using suppression ratios calcluated from rates of rewarded nose poking 31,32,[35][36][37] . Classic studies examining defensive behaviour have reported robust post shock freezing 18,25,38 .…”

Section: Resultsmentioning

confidence: 99%

“…This work is underway in our laboratory and we speculate that female rats show foot shock facilitation of reward seeking. This is based on our observation that female rats readily acquire fear discrimination 37 . Further, manipulating shock-related prediction error activity -although a distinct behavioural mechanism from facilitationhas an equivalent effect on male and female fear behaviour 34 .…”

Section: Discussionmentioning

confidence: 99%

Foot shock facilitates reward seeking in an experience-dependent manner

Strickland

Dileo

et al. 2020

Preprint

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Animals organize reward seeking around aversive events. An abundance of research shows that foot shock, as well as a shock-associated cue, can elicit freezing and suppress reward seeking. Yet, there is evidence that experience can flip the effect of foot shock to facilitate reward seeking. Here we examine cue suppression, foot shock suppression and foot shock facilitation of reward seeking in a single behavioural setting. Male Long Evans rats received fear discrimination consisting of danger, uncertainty and safety cues. Discrimination took place over a baseline of rewarded nose poking. With limited experience, all cues and foot shock strongly suppressed reward seeking. With continued experience, suppression became specific to shock-associated cues and foot shock facilitated reward seeking. Our results provide a means of assessing positive properties of foot shock, and may provide insight into maladaptive behavior around aversive events.

“…So far, no differences in VP activity/function have been found in studies that examined biological sex 18,39,55 . Our laboratory has observed complete and comparable fear discrimination in male and female rats 11,51,56,57 . We predict that equivalent relative threat signaling will be observed in female and male VP neurons.…”

Section: Cue-excited Neurons Increase Firing To Rewardmentioning

confidence: 87%

“…Brain regions essential to fear, most notably the central amygdala [1][2][3] and basolateral amygdala (BLA) [4][5][6][7][8] , must be necessary to signal and utilize relative threat. At the same time, threat learning and behavior is the product of a larger neural network 9,10 that includes regions traditionally implicated in reward [11][12][13][14] .…”

Section: Introductionmentioning

confidence: 99%

Ventral pallidum neurons signal relative threat

Ray

McDannald

2020

Preprint

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Ventral pallidum (VP) neurons scale firing increases to reward value and decrease firing to aversive cues.Anatomical connectivity suggests a critical role for the VP in threat-related behavior. Here we tested whether firing decreases in VP neurons conform to relative threat by recording single units while male rats discriminated cues predicting unique foot shock probabilities. Rats behavior and VP single unit firing discriminated danger, uncertainty and safety cues. We found that two VP populations (Low firing and Intermediate firing) signaled relative threat, proportionally decreased firing according shock probability: danger < uncertainty < safety. Low firing neurons showed reward firing increases, consistent with a general signal for relative value.Intermediate firing neurons were unresponsive to reward, revealing a specific signal for relative threat. The results suggest an integral role for the VP in threat-related behavior. ResultsMale, Long Evans rats (n = 14) were moderately food-deprived and trained to nose poke in a central port in order to receive a reward (food pellet). Nose poking was reinforced throughout fear discrimination, but poke-reward and cue-shock contingencies were independent. During fear discrimination, three distinct auditory cues predicted unique foot shock probabilities: danger (p=1.00), uncertainty (p=0.25), and safety (p=0.00) (Fig. 1a). Each fear discrimination session consisted of 16 trials: 4 danger, 2 uncertainty-shock, 6 uncertainty-omission, and 4 safety, mean 3.5 min inter-trial interval (ITI). Each trial started with a 20 s baseline period followed by 10 s cue presentation. Foot shock (0.5 mA, 0.5 s) was administered 2 s following cue offset on shock trials (Fig. 1b). Trial order was randomized for each rat, each session. Fear was measured by the suppression of rewarded nose poking. A suppression ratio was calculated by comparing nose poke rates during baseline and cue periods (see methods). After eight discrimination sessions, rats were implanted with drivable microelectrode bundles dorsal to the VP (Fig. 1c). Following recovery, single unit activity was recorded while rats underwent fear discrimination. The microelectrode bundle was advanced through