Larry Kokkinidis scite author profile

Systemic administration of lipopolysaccharide (LPS), a non-specific activator of proinflammatory cytokine release from macrophages, provokes sickness characterized by anorexia, soporific effects, and disturbances of locomotor activity and exploration. In addition, endotoxin treatment may provoke an anhedonic response. Assessment of anhedonia in appetitive paradigms, however, is compromised by the anorexia provoked by the treatment. The present investigation assessed the anhedonic effects of LPS on rewarding lateral hypothalamic brain stimulation. Using a simultaneous discrimination, current titration procedure in the assessment of intracranial self-stimulation (ICSS), it was found that acute systemic administration of LPS (50 microg, 100 microg or 200 microg) reduced ICSS during the ascending sequence of current presentations, but had little effect on responding to a series of descending currents. In a parallel experiment, peripheral administration of LPS (100 microg) increased in vivo dopamine (DA) efflux from the nucleus accumbens, a region thought to be involved in goal-directed responding to positively reinforcing stimuli. It is suggested that LPS alters ICSS in a manner different than that observed following stressor exposure or peripheral IL-2 treatment. Furthermore, LPS may engender an anhedonic effect (possibly secondary to sickness), and the decline of responding reflects the relation between the cost of responding given in the face of sickness and the reward received for responding.

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Peripheral and intraamygdalar administration of the dopamine D₁ receptor antagonist SCH 23390 blocks fear-potentiated startle but not shock reactivity or the shock sensitization of acoustic startle.

Greba¹,

Kokkinidis²

2000

Behavioral Neuroscience

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Central dopamine (DA) activity is thought to play a role in fear motivation. The aim of the present study was to assess the involvement of DA D1 receptors in emotional learning. The authors report that peripheral and intraamygdalar administration of the specific D1 receptor antagonist SCH 23390 blocked the acquisition of fear-potentiated startle. Analysis of shock reactivity during footshock administration revealed that the learning impairment could not be explained by a diminution in the aversive properties of the unconditioned stimulus. Additionally, systemic and intraamygdalar injection of SCH 23390 did not alter fear expression as measured with the shock sensitization of acoustic startle. The potential contribution of mesoamygdaloid DA to the acquisition and retrieval of conditioned fear responses is discussed.

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Contribution of ventral tegmental area dopamine neurons to expression of conditional fear: Effects of electrical stimulation, excitotoxin lesions, and quinpirole infusion on potentiated startle in rats.

Borowski¹,

Kokkinidis²

1996

Behavioral Neuroscience

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Potentiated startle was used in this study to determine the fear-motivational functions of the ventral tegmental area (VTA). In Experiment 1, electrical stimulation of the VTA increased acoustic startle amplitudes. In subsequent experiments fear-potentiated startle was assessed following axon-sparing N-methyl-D-aspartic acid (NMDA) lesions of the VTA and after bilateral intra-VTA infusion of the dopamine (DA) D2/3 receptor agonist quinpirole. The NMDA lesions produced substantial cell loss in the medial ventral tegmentum and suppressed fear expression. Similarly, inhibition of DA neuronal activity associated with locally administered quinpirole blocked fear-potentiated startle. It was suggested that VTA neurons and their forebrain DA projections regulate levels of aversive emotional arousal within the amygdala-based fear system.

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