Our understanding of the role of hippocampus in learning and memory has undergone many changes in recent years. Of particular interest is the realization that hippocampus is essential to encoding specific relationships between behavioral or cognitively relevant events. For the past 5 years, this project has examined how the process of encoding and recalling information in hippocampal ensembles is utilized in short-term (i.e delayed-non-match/match-to-sample [DNMS/DMS]) memory and how that process is disrupted following exposure to the psychoactive drug, marijuana (i.e. cannabinoids). The latter observation is not trivial since the cannabinoid has a high receptor density in hippocampus and with its endogenous ligands is capable of """"""""sculpting"""""""", refining or even blocking hippocampal-dependent memory. In the last funding period several technological and computational methods were developed and applied to hippocampal neuronal recording which allowed insight into how ensembles of hippocampal neurons encode information. This Research Project will continue to investigate hippocampal mechanisms of information processing by: (1) characterizing the transference of information within the ensemble from the encoding to the decision- making phase as required to select the appropriate trial specific behavioral response; (2) examining the basis of two types of behavioral errors which likely result from insufficient encoding of transference of such information; (3) further analyzing the topographical organization within the hippocampus with respect of anatomic distribution of different functional cell types for different types of tasks; (4) determining the significance of cannabinoid receptor modulation if GABAergic interneuron activity in hippocampus and its relation to previously reported dose-dependent attenuation of information encoding in DNMS/DMS tasks by acute cannabinoids, and (5) incorporating electrophysiological analyses in the assessment of behavioral tolerance to the acute effects of cannabinoids on memory that develop following chronic exposure to the drug.

Agency
National Institute of Health (NIH)
Institute
National Institute on Drug Abuse (NIDA)
Type
Research Project (R01)
Project #
6R01DA003502-20
Application #
6603897
Study Section
Special Emphasis Panel (ZRG1-IFCN-1 (03))
Program Officer
Volman, Susan
Project Start
1995-03-01
Project End
2005-02-28
Budget Start
2003-03-01
Budget End
2004-02-29
Support Year
20
Fiscal Year
2003
Total Cost
$324,000
Indirect Cost
Name
Wake Forest University Health Sciences
Department
Physiology
Type
Schools of Medicine
DUNS #
937727907
City
Winston-Salem
State
NC
Country
United States
Zip Code
27157
Deadwyler, Sam A; Goonawardena, Anushka V; Hampson, Robert E (2007) Short-term memory is modulated by the spontaneous release of endocannabinoids: evidence from hippocampal population codes. Behav Pharmacol 18:571-80
Deadwyler, Sam A; Hampson, Robert E (2006) Temporal coupling between subicular and hippocampal neurons underlies retention of trial-specific events. Behav Brain Res 174:272-80
Zhuang, Shou-Yuan; Bridges, Daniel; Grigorenko, Elena et al. (2005) Cannabinoids produce neuroprotection by reducing intracellular calcium release from ryanodine-sensitive stores. Neuropharmacology 48:1086-96
Zhuang, S; Hampson, R E; Deadwyler, S A (2005) Behaviorally relevant endocannabinoid action in hippocampus: dependence on temporal summation of multiple inputs. Behav Pharmacol 16:463-71
Deadwyler, Sam A; Hampson, Robert E (2004) Differential but complementary mnemonic functions of the hippocampus and subiculum. Neuron 42:465-76
Deadwyler, Sam A; Hayashizaki, Seiji; Cheer, Joseph et al. (2004) Reward, memory and substance abuse: functional neuronal circuits in the nucleus accumbens. Neurosci Biobehav Rev 27:703-11
Howlett, Allyn C; Breivogel, Christopher S; Childers, Steven R et al. (2004) Cannabinoid physiology and pharmacology: 30 years of progress. Neuropharmacology 47 Suppl 1:345-58
Hampson, Robert E; Simeral, John D; Kelly, Erica J et al. (2003) Tolerance to the memory disruptive effects of cannabinoids involves adaptation by hippocampal neurons. Hippocampus 13:543-56
Kelly, Michele P; Deadwyler, Sam A (2003) Experience-dependent regulation of the immediate-early gene arc differs across brain regions. J Neurosci 23:6443-51
Hampson, Robert E; Deadwyler, Sam A (2003) Temporal firing characteristics and the strategic role of subicular neurons in short-term memory. Hippocampus 13:529-41

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