John Rodgers scite author profile

Hippocampal processing is strongly implicated in both spatial cognition and anxiety and is temporally organized by the theta rhythm. However, there has been little attempt to understand how each type of processing relates to the other in behaving animals, despite their common substrate. In freely moving rats, there is a broadly linear relationship between hippocampal theta frequency and running speed over the normal range of speeds used during foraging. A recent model predicts that spatial-translation-related and arousal/anxietyrelated mechanisms of hippocampal theta generation underlie dissociable aspects of the theta frequency-running speed relationship (the slope and intercept, respectively). Here we provide the first confirmatory evidence: environmental novelty decreases slope, whereas anxiolytic drugs reduce intercept. Variation in slope predicted changes in spatial representation by CA1 place cells and noveltyresponsive behavior. Variation in intercept predicted anxiety-like behavior. Our findings isolate and doubly dissociate two components of theta generation that operate in parallel in behaving animals and link them to anxiolytic drug action, novelty, and the metric for self-motion.

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Selection, evolution of behavior and animal models in behavioral neuroscience

Parmigiani

Palanza

Rodgers

et al. 1999

Neuroscience & Biobehavioral Reviews

164

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The brain decade in debate: II. Panic or anxiety? From animal models to a neurobiological basis

Andreatini

Blanchard

et al. 2001

Braz J Med Biol Res

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This article is a transcription of an electronic symposium sponsored by the Brazilian Society of Neuroscience and Behavior (SBNeC). Invited researchers from the European Union, North America and Brazil discussed two issues on anxiety, namely whether panic is a very intense anxiety or something else, and what aspects of clinical anxiety are reproduced by animal models. Concerning the first issue, most participants agreed that generalized anxiety and panic disorder are different on the basis of clinical manifestations, drug response and animal models. Also, underlying brain structures, neurotransmitter modulation and hormonal changes seem to involve important differences. It is also common knowledge that existing animal models generate different types of fear/anxiety. A challenge for future research is to establish a good correlation between animal models and nosological classification.

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Translational neuroscience & mental disorders—Bridging the gap between animal models and the human condition

Rodgers

Blanchard

Brain

et al. 2017

Neuroscience & Biobehavioral Reviews

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John Rodgers

The characterization and modelling of antipredator defensive behavior

Novelty and Anxiolytic Drugs Dissociate Two Components of Hippocampal Theta in Behaving Rats

Selection, evolution of behavior and animal models in behavioral neuroscience

The brain decade in debate: II. Panic or anxiety? From animal models to a neurobiological basis

Translational neuroscience & mental disorders—Bridging the gap between animal models and the human condition

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