A major goal of neurobiological research is the understanding of the underlying organization of neurotransmitter and receptor systems related to the function of the nervous system. One approach to this problem is to study the synaptic physiology of a well-documented neural circuit that subserves a specific behavior. This approach has been successfully applied to an analysis of the relative simple nervous systems in many invertebrates. One preparation that has been useful in a cellular analysis of behavior is the marine mollusk Hermissenda. The neural circuit underlying a well-defined and quantified example of behavior will be studied using a combination of cellular neurophysiological and pharmacological techniques. Using intracellular recording and stimulation techniques putative motor neurons and interneurons that receive synaptic input from the visual system will be identified and the response to light classified. The relative contribution of identified pedal neurons and interneurons to the network underlying phototactic behavior will be studied in intact animals after eliminating specific neurons by the photoinactivation technique. Changes in behavior will be assessed following the selective elimination of specific neurons in the neuronal circuit including specific photoreceptor types, interneurons, and putative motor neurons. The neurotransmitters mediating the synaptic interactions among the neurons of this network will be examined using pharmacological and electrophysiological techniques. The role of biogenic amines such as dopamine and serotonin in modulating the activity of primary sensory neurons and putative motor neurons will be studied in the isolated nervous system. Since peptides may occur together with other neurotransmitters, the effects of various peptides on the photoresponse will be examined. An understanding of the neurotransmitter and receptor systems in a relatively simple neural network and its modulation by biogenic amines and peptides will provide a useful model system for studies of affective disorders in more complex mammalian nervous systems.

Agency
National Institute of Health (NIH)
Institute
National Institute of Mental Health (NIMH)
Type
Method to Extend Research in Time (MERIT) Award (R37)
Project #
5R37MH040860-06
Application #
3486764
Study Section
Special Emphasis Panel (SRCM)
Project Start
1986-03-01
Project End
1995-03-31
Budget Start
1991-04-01
Budget End
1992-03-31
Support Year
6
Fiscal Year
1991
Total Cost
Indirect Cost
Name
University of Texas Health Science Center Houston
Department
Type
Schools of Medicine
DUNS #
City
Houston
State
TX
Country
United States
Zip Code
77225
Crow, Terry; Jin, Nan Ge; Tian, Lian-Ming (2013) Network interneurons underlying ciliary locomotion in Hermissenda. J Neurophysiol 109:640-8
Crow, T; Xue-Bian, J-J (2011) Proteomic analysis of short- and intermediate-term memory in Hermissenda. Neuroscience 192:102-11
Jin, Nan Ge; Crow, Terry (2011) Serotonin regulates voltage-dependent currents in type I(e(A)) and I(i) interneurons of Hermissenda. J Neurophysiol 106:2557-69
Crow, T; Xue-Bian, J-J (2010) Proteomic analysis of post-translational modifications in conditioned Hermissenda. Neuroscience 165:1182-90
Jin, Nan Ge; Tian, Lian-Ming; Crow, Terry (2009) 5-HT and GABA modulate intrinsic excitability of type I interneurons in Hermissenda. J Neurophysiol 102:2825-33
Crow, Terry; Xue-Bian, Juan-Juan (2007) One-trial in vitro conditioning of hermissenda regulates phosphorylation of ser-122 of csp24. Ann N Y Acad Sci 1112:189-200
Redell, J B; Xue-Bian, J-J; Bubb, M R et al. (2007) One-trial in vitro conditioning regulates an association between the beta-thymosin repeat protein Csp24 and actin. Neuroscience 148:413-20
Yamoah, Ebenezer N; Levic, Snezana; Redell, John B et al. (2005) Inhibition of conditioned stimulus pathway phosphoprotein 24 expression blocks the reduction in A-type transient K+ current produced by one-trial in vitro conditioning of Hermissenda. J Neurosci 25:4793-800
Crow, Terry; Xue-Bian, Juan-Juan; Dash, Pramod K et al. (2004) Rho/ROCK and Cdk5 effects on phosphorylation of a beta-thymosin repeat protein in Hermissenda. Biochem Biophys Res Commun 323:395-401
Crow, Terry (2004) Pavlovian conditioning of Hermissenda: current cellular, molecular, and circuit perspectives. Learn Mem 11:229-38

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