One way to investigate functions of specific neuronal circuits is by targeting key regulatory molecules which control plasticity and looking at relationships between plasticity within these circuits and behavior of an animal model. Since MAP kinase is required for plasticity in the hippocampus and it is highly expressed in the amygdala, we hypothesized that MAP kinase is an important regulator of both fear and cognitive behaviors. To investigate whether modulation of MAP kinase-dependent synaptic plasticity contributes to the control of fear and cognitive behaviors, we are analyzing mice with the forebrain-restricted knockouts of p42 MAP kinase, and Rap1 gene isoforms A and B. Rap1 is known to regulate p42MAP kinase. The goals of this project are: 1) characterization of MAP kinase role in learning and fear behaviors using mice with forebrain-restricted knockout of MAP kinase and Rap1, 2) finding specific neuronal population in the brain where MAP kinase activity alter expression of fear, 3) characterization of MAP kinase-dependent electrophysiological properties of these neurons, 4) identification of the downstream molecular substrates of MAP kinase that mediate changes in the neuronal properties. The following has been accomplished during the last fiscal year: 1) Behavioral analysis of p42 MAP kinase forebrain restricted knockout mice and double forebrain-restricted Rap1A and Rap1B knockout mice revealed impaired learning in both cued and contextual fear conditioning indicating that both Rap1 and p42 MAP kinase are required for synaptic plasticity in the amygdala. 2) Electrophysiological analysis of spike-timing dependent plasticity in the baso-lateral nucleus of the amygdala from Ra1 knockout mice revealed LTP impairment correlated with the increase probability of neurotransmitter release from the cortical input. 3) Behavioral analysis of Rap1 knockouts revealed reduced anxiety, and reduced fear of novelty. These changes may result from increased synaptic transmission between cortex and amygdala as a consequence of an increased neurotransmitter release probability in this synapse.

Agency
National Institute of Health (NIH)
Institute
National Institute of Mental Health (NIMH)
Type
Intramural Research (Z01)
Project #
1Z01MH002837-02
Application #
7137876
Study Section
(LMP)
Project Start
Project End
Budget Start
Budget End
Support Year
2
Fiscal Year
2005
Total Cost
Indirect Cost
Name
U.S. National Institute of Mental Health
Department
Type
DUNS #
City
State
Country
United States
Zip Code